Your search keyword '"SLURRY"' showing total 18,015 results

1. Compositional effects in potassium metakaolin geopolymers containing alumina and glass frit.

Author

Keane, Patrick F., Jacob, Rhys, Belusko, Martin, Kriven, Waltraud M., Stanford, Nikki, and Bruno, Frank

Subjects

*POWDERED glass, *HEAT treatment, *RHEOLOGY, *PORTLAND cement, *SLURRY, *GLAZES

Abstract

Geopolymers represent a distinct class of materials characterised by their X-ray amorphous nature and nanoporous, nanoparticulate structure. Geopolymers can be conveniently mixed, poured, and cured under ambient conditions. This makes this class of materials an interesting alternative to ordinary Portland cement for structural processes. Additionally, the addition of alumina can improve mechanical properties, while the addition of glass can form an impermeable glaze which could be useful for molten salt containment. Therefore, in this investigation, potassium metakaolin-based geopolymer composites with varying proportions of glass particles and alumina platelets were fabricated, cured, heat-treated, and analyzed to study the effects of composition on material properties. Various attributes including rheological properties, densities, mass loss, shrinkage, and porosities were compared. It was observed that certain compositions exhibited high viscosities, making high shear mixing challenging, while also displaying significant permeability that would hinder their ability to contain liquids without leakage. Additionally, certain samples showed reduced densities, suggesting potentially weaker mechanical properties; however, the investigation did not include a direct assessment of mechanical properties. The most promising candidates for containing liquids at high temperature contained 50 wt% KGP, 25 or 35 wt% glass powder, and 25 or 15 wt% alumina platelets, respectively. ASH-G slurries required a minimum of 65 vol% KGP to produce a homogenous material compatible with additive manufacturing. The minimum amount of glass phase to form surface glazes was 16 vol%. Only samples containing more glass phase than alumina phase produced glazed composites. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of alumina sol on the preparation of magnesia‐alumina spinel foam ceramics by foaming‐sol method.

Author

Sun, Gege, Li, Guohua, Jiao, Changfa, Tian, Lin, and Deng, Shudan

Subjects

*ANIONIC surfactants, *SURFACE active agents, *RAW materials, *THERMAL conductivity, *SLURRY, *FOAM

Abstract

In this work, magnesia‐alumina spinel foam ceramics were prepared by foaming‐sol method using magnesia alumina spinel as raw material, anionic surfactant potassium oleate (PO) as foaming agent, and alumina sol as curing agent. The curing mechanism and the effect of alumina sol content on the stability of foam slurry and the properties of foam ceramics were investigated. In the foam slurry, the alumina sol can react with PO, so magnesia‐alumina spinel can be fixed in the foam structure through the gel network to improve the stability of the foam slurry. The gelation process reduces the viscosity of the foam slurry. The pores of magnesia‐alumina spinel foam ceramics sintered at 1500°C are mostly closed pores and the average pore was 29.7–42.1 µm. With the increase of alumina sol content, the bulk density of magnesia‐alumina spinel foam ceramics increased from 1.3 to 1.9 g/cm3, the cold compressive strength from 8.8 to 22.7 MPa, and the thermal conductivity from.417 to.806 W·m−1·K−1(350°C). [ABSTRACT FROM AUTHOR]

Published

2024

3. Parametric design and performance evaluation of TPMS porous vitrified bond diamond grinding wheel using digital light processing.

Author

Chen, Zhaoqi, Liu, Pengzhan, Wu, Tanyang, Bai, Guoju, Xia, Zijing, and Han, Ping

Subjects

*DIAMOND wheels, *GRINDING wheels, *HARD materials, *BRITTLE materials, *MINIMAL surfaces, *SLURRY

Abstract

Porous vitrified bond diamond grinding wheels are commonly used for grinding hard and brittle materials. However, uneven pore distribution and low porosity affect the grinding performance of the wheel significantly. In this study, three types of triply periodic minimal surface porous vitrified bond diamond grinding wheels—Gyroid, Diamond, and Lidinoid–were prepared through parametric designing and digital light processing 3D printing. The grinding wheel achieved a uniform distribution and an interconnected pore structure. The key to high-performance grinding wheel via stereolithography 3D printing lies in the preparation of the slurry with high solid loading, low viscosity and uniform stability. Hence, the effect of surface modifiers on the slurry, along with the effect of sintering temperature and the microscopic and mechanical properties, was investigated. By grinding the SiC ceramics, the material removal rate, grinding temperature, and surface roughness were compared to those achieved using a conventional solid-structure grinding wheel. The results show that the slurry with the highest solid content of 80 wt% (58 vol%) and viscosity of 4.21 Pa s (30 s−1) can be prepared using surface-modified particles. The diamond grinding wheel sintered at 680 °C exhibits the best comprehensive performance. A grinding wheel prepared using stereolithography 3D printing can achieve better surface roughness and lower the grinding temperature. [ABSTRACT FROM AUTHOR]

Published

2024

4. Preparation of porous β-Si3N4/Si5AlON7 composite ceramics for digital light processing and study of mechanical and dielectric properties.

Author

Qin, Yaru, Zhao, Chenyu, Huang, Yujie, Dong, Jiguang, Yang, Xingyu, and Shi, Chenglong

Subjects

*PERMITTIVITY, *DIELECTRIC loss, *DIELECTRIC properties, *FLEXURAL strength, *RHEOLOGY, *CERAMICS, *SLURRY

Abstract

Porous β-Si 3 N 4 /Si 5 AlON 7 composite ceramics are anticipated to serve as high-temperature wave-transparent materials, yet the fabrication of high-performance porous β-Si 3 N 4 /Si 5 AlON 7 composite ceramics remains a significant challenge. Addressing this issue, this study introduces a technique for crafting high-performance porous β-Si 3 N 4 /Si 5 AlON 7 composite ceramics. This method involves the homogeneous blending of SiO 2 and Si 3 N 4 powders, followed by digital light processing and high-temperature liquid-phase sintering at 2000 °C. The impact of SiO 2 content on various properties of the ceramic slurry and the resultant ceramics was thoroughly examined, including rheology, curing depth, microstructural morphology, phase composition, flexural strength, hardness, dielectric constant, and dielectric loss. It was observed that a SiO 2 content of 30 % enables the slurry to fulfill the criteria for digital light processing, leading to the production of porous β-Si 3 N 4 /Si 5 AlON 7 composite ceramics that exhibit outstanding mechanical and dielectric properties. Specifically, these ceramics demonstrated a flexural strength of 149.2 ± 7.2 MPa and a hardness of 11.8 ± 1.1 GPa. Moreover, at a frequency of 10 GHz, the ceramics exhibited a dielectric constant of 4.02 and a dielectric loss of 0.11, highlighting their potential as high-temperature wave-transparent materials. [ABSTRACT FROM AUTHOR]

Published

2024

5. Study of the Mix Design of Manufactured Sand Concrete Considering the Stone Powder Content.

Author

Liu, Longlong, Zhao, Shangchuan, and Wang, Shaopeng

Subjects

*SLURRY, *SAND, *CONCRETE, *PROBLEM solving, *CEMENT

Abstract

To solve the problem of the proportional design of cement concrete prepared by using manufactured sand instead of river sand, a new method of manufactured sand concrete mix design was proposed with the dense packing of coarse and fine aggregate. Compared with the original sieving method, the stone powder in the manufactured sand can be regarded as cementitious materials for slurry. With the proposed mix design method, there is no need to separate from the manufactured sand. This dense packing method considers the actual situation that both the manufactured sand and coarse aggregate are mechanically prepared, and all the aggregates can be unified in proportion. The composition ratio of aggregate with particle size greater than 0.075 mm is designed by the maximum density theory, and the rest of the part (below 0.075 mm) is treated as a cementitious material. As a parameter of the maximum density theory, the Fuller index of 0.45 was verified when the calculation values agreed well with the test results. With the proposed mix ratio design method, the different grades C30, C40, and C50 of manufactured sand concrete were designed. Furthermore, the properties such as workability and mechanical properties for the designed manufactured sand concrete were investigated to determine the applicability of the proposed mix design method. The test results show that the workability, uniformity, and strength of the manufactured sand concrete were better than the original mix ratio design method, which verifies the operability and reasonableness of the proposed mix ratio design method. [ABSTRACT FROM AUTHOR]

Published

2024

6. Optimizing dispersants for direct ink writing of alumina toughened zirconia (ATZ) ceramics: Insights into suspension behavior and rheological properties.

Author

Göksel, Berfu, Koos, Erin, Vleugels, Jozef, and Braem, Annabel

Subjects

*ALUMINUM oxide, *ORTHOPEDIC implants, *SEDIMENTATION analysis, *RHEOLOGY, *SURFACE area, *SLURRY

Abstract

Alumina toughened zirconia (ATZ) ceramics combine high biocompatibility with remarkable mechanical properties, making them suitable for dental and orthopedic implant applications. Producing these ATZ ceramics using slurry-based additive manufacturing necessitates homogeneous, stable suspensions with controlled particle sizes. Stabilizing such systems with the appropriate type and amount of dispersant is challenging, particularly since multi-component systems are prone to hetero-coagulation. In this study, ATZ powders with different surface areas were investigated to determine the optimum concentration of three commercially available dispersants: Darvan CN, Darvan 821 A, and Dolapix CE64, which have been successfully used to stabilize Al 2 O 3 and 3Y-TZP suspensions. Based on zeta potential (0.01 vol% suspensions), agglomerate size (0.01 vol% suspensions), sedimentation (10 vol% slurries), and rheological (40 vol% slurries) characterization, the optimum dispersant concentrations were found to be 0.50 mg/m2 for Dolapix CE64, 0.75 mg/m2 for Darvan 821 A, and 1.50 mg/m2 for Darvan CN. Among the studied dispersants, Dolapix CE64 was the most effective in terms of reduced sedimentation, smaller agglomerate size (0.70 μm), flow behavior, and low resistance to structure breakdown. The rheological assessment showed that slurries prepared with ATZ powder featuring a smaller specific surface area (7.3 m2/g) resulted in lower viscosity, critical stress, and equilibrium storage and loss moduli compared to those prepared with higher specific surface area (13.3 m2/g) starting powder. The sedimentation analysis however revealed that the larger specific surface area ATZ powder exhibited higher slurry stability. While 38 vol% ATZ pastes without dispersant showed inhomogeneous extrusion and the presence of aggregates, the filaments extruded from 45 vol% paste with 0.50 mg/m2 Dolapix CE64 had a homogeneous and smooth structure and were free of aggregates, highlighting the importance of the dispersant addition for DIW. [ABSTRACT FROM AUTHOR]

Published

2024

7. Diffusion mechanism of fracture grouting in rock mass with flowing water.

Author

Wang, Fuyu, Zhang, Jiafan, Qin, Xiangrui, Yuan, Chao, Meng, Xiangzhen, and Zhang, Huimei

Subjects

MINES & mineral resources, GROUNDWATER, RADIUS fractures, ENGINEERING design, UNDERGROUND areas, SLURRY

Abstract

Grouting is a widely used geotechnical procedure known for its strong empirical properties. It has been extensively utilized for sealing subterranean water and strengthening soil and rock masses in their original locations in underground mining and underground space development. The diffusion mechanism of grouting in fractured rock is affected by the geological environment and slurry performance, which should be better revealed and characterized. In this paper, we take the surrounding rock of the roadway as the research object, consider the stress condition of the injected rock and time-dependent viscosity of the slurry, and establish fracture grouting diffusion model based on the rock composite fracture criterion. The grout strengthening mechanism is discussed based on a transparent fracture replica grouting test. According to the different transport characteristics of the slurry interacting with flowing water, it is divided into the following four areas grout-water balance area, grout loss area, stagnation area and water passage. The grout plugging mode is divided into two categories according to its final diffusion pattern: cross-section type water plugging mode and water-drop plugging mode. The pressure monitoring data of the test verified the two grout plugging modes. The diffusion distance of cis-reverse water derived in this study was in good agreement with the experimental results in grouting early stage. The research results can provide a theoretical basis for grouting engineering design. • Fracture grouting diffusion model based on the rock composite fracture criterion. • The grout strengthening mechanism is discussed based on a transparent fracture replica grouting test. • Slurry travel is divided into the following four areas, grout-water balance area, grout loss area, stagnation area and water passage. • The grout plugging mode is divided into two categories according to its final diffusion pattern. [ABSTRACT FROM AUTHOR]

Published

2024

8. Digital light processing of yttria-stabilized zirconia: Modeling photoinitiator decay.

Author

Harris, Brennan, Guillen, Donna Post, Monson, Asa, Sampson, Jonathan, Yadav, Vaibhav, and Shi, Yusheng

Subjects

FLEXURAL strength testing, REGRESSION analysis, LITERATURE reviews, HEAT treatment, SOLID oxide fuel cells, THERMAL barrier coatings, SLURRY

Abstract

A digital process was developed to facilitate additive manufacturing for ceramic materials using digital light processing (DLP). A numerical model that predicts DLP sample properties can be generated from manufacturing inputs to forecast the effect of resin age on mechanical strength of the printed part based on data collected from experiments. Key parameters for printing the green bodies included determining the depth of cure, layer thickness, material composition, and solids loading. Thermogravimetric analyses were used to develop debinding and sintering curves. Debinding is used to remove the volatile organics comprising the photopolymer resin. Sintering is performed after debinding to increase density and mechanical strength of the printed parts. The sintered parts were then subjected to characterization and mechanical testing. The ensemble of data for various DLP-printed ceramic materials were added to a database. A design of experiments can be generated from the manufacturing process defined in the database with selected changeable parameters randomized over a range. Because the database is defined with an architecture to capture manufacturing processes, it can persist as a more generic platform for manufacturing digital twins. This can ease the development of future digital twins and can grow as a common repository for the insights gained from manufacturing research. Creating a digital twin of a DLP system for 3D printing parts enables manufacturers to simulate and assess the impact of resin age on printing parameters and part quality, facilitating optimization, predictive maintenance, and cost reduction. [ABSTRACT FROM AUTHOR]

Published

2024

9. Origins of complexity in the rheology of Soft Earth suspensions.

Author

Pradeep, Shravan, Arratia, Paulo E., and Jerolmack, Douglas J.

Subjects

MUDFLOWS, EARTHFLOWS, AMORPHOUS substances, SILICA sand, DEBRIS avalanches, SLURRY

Abstract

When wet soil becomes fully saturated by intense rainfall, or is shaken by an earthquake, it may fluidize catastrophically. Sand-rich slurries are treated as granular suspensions, where the failure is related to an unjamming transition, and friction is controlled by particle concentration and pore pressure. Mud flows are modeled as gels, where yielding and shear-thinning behaviors arise from inter-particle attraction and clustering. Here we show that the full range of complex flow behaviors previously reported for natural debris flows can be reproduced with three ingredients: water, silica sand, and kaolin clay. Going from sand-rich to clay-rich suspensions, we observe continuous transition from brittle (Coulomb-like) to ductile (plastic) yielding. We propose a general constitutive relation for soil suspensions, with a particle rearrangement time that is controlled by yield stress and jamming distance. Our experimental results are supported by models for amorphous solids, suggesting that the paradigm of non-equilibrium phase transitions can help us understand and predict the complex behaviors of Soft Earth suspensions. Regarding the failure and flow of wet soil, a question that remains is how soil material composition influences rheology. Based on Soft Earth suspension flow experiments, the authors discover a continuous transition from frictional-to-cohesive rheology recreating all complex behaviors reported for natural soil slurries. [ABSTRACT FROM AUTHOR]

Published

2024

10. Characterization of Flow with a V-Shaped NMR Sensor.

Author

Schmid, Eric, Pertzel, Tim Oliver, Nirschl, Hermann, and Guthausen, Gisela

Subjects

*PREDICTIVE control systems, *NUCLEAR magnetic resonance, *MAGNETIC resonance imaging, *FLOW batteries, *MANUFACTURING processes, *SLURRY

Abstract

Quality control in a production plant shows its maximum potential in the form of inline measurements. Defects and imperfections can be detected early and directly, and waste and costs can be reduced. Nuclear Magnetic Resonance offers a wide range of applications but requires dedicated adaptation to the respective process and material conditions. A V-shaped low-field NMR sensor was developed for non-invasive inline measurements on anode slurries in a battery production plant. In battery production, inline monitoring of the quality of anode slurries is demanded, offering the possibility of predictive control of the following process steps. Methods of low-field NMR to determine flow properties were adapted to the desired application. Further, magnetic resonance imaging measurements were made to determine the flow properties of model substances and anode slurries, thus providing verification. The sensor measurements show the ability to measure the flow behavior of, amongst other fluids, anode slurries in a form suitable for inline quality control in a battery production plant. [ABSTRACT FROM AUTHOR]

Published

2024

11. The Effect of Sodium Hexametaphosphate on the Dispersion and Polishing Performance of Lanthanum–Cerium-Based Slurry.

Author

Mei, Yan, Chen, Wenjuan, and Chen, Xuean

Subjects

*INTEGRATED optics, *X-ray photoelectron spectroscopy, *X-ray powder diffraction, *COMPLEXATION reactions, *STERIC hindrance, *ZETA potential, *SLURRY

Abstract

A lanthanum–cerium-based abrasive composed of CeO2, LaOF, and LaF3 was commercially obtained. The effect of sodium hexametaphosphate (SHMP) on powder dispersion behavior was systematically investigated using the combined techniques of liquid contact angle, turbidity, zeta potential (ZP), scanning electron microscopy (SEM), powder X-ray diffraction (XRD) combined with Rietveld refinements, X-ray photoelectron spectroscopy (XPS), and polishing tests. The results indicated that the addition of 0.5 wt.% SHMP dispersant to the 5 wt.% lanthanum–cerium-based slurry produced the most stable suspension with a high turbidity of 2715 NTU and a low wetting angle of 45°. The as-obtained slurry displayed good surface polishing quality for K9 glass, with low surface roughness (Ra) of 0.642 and 0.515 nm (in the range of 979 × 979 μm2) at pH = 6 and 11, respectively, which corresponds to the fact that it has local maximum absolute values of ZP at these two pH values. SEM images demonstrated that after appropriate grafting of SHMP, the particle aggregation was reduced and the slurry's dispersion stability was improved. In addition, the dispersion mechanism was explained based on the principle of complexation reaction, which reveals that the dispersant SHMP can increase the interparticle steric hindrance and electrostatic repulsions. In an acidic environment, steric hindrance dominates, while electrostatic repulsion prevails under alkaline conditions. As expected, this polishing slurry may find potential applications in manufacturing optical devices and integrated circuits. [ABSTRACT FROM AUTHOR]

Published

2024

12. Mechanical and dielectric properties of porous Si3N4 ceramics prepared by modified water‐based gel casting.

Author

Zhang, Heng, Yao, Dongxu, Xia, Yongfeng, and Zeng, Yu‐Ping

Subjects

*DIELECTRIC loss, *GELCASTING, *FLEXURAL strength, *DIELECTRIC properties, *RHEOLOGY, *SLURRY

Abstract

Porous Si3N4 ceramics were prepared using the low‐toxicity monomer HEMA (2‐hydroxyethyl methacrylate) via a modified gel casting method. The rheological properties of Si3N4 slurries were investigated. Triethanolamine with high activity was used as a catalyst and modifier for gelation reactions, effectively improving the curing rate and suppressing the inherent surface oxygen inhibition in such process systems. With an increase in solid loading of the slurry, the drying shrinkage (12.3% to 5.4%) significantly decreased, while the green body density (44.0%–49.0%) and flexural strength (9.65–16.46 MPa) increased, demonstrating an excellent mechanical strength. After sintering at 1700°C, the porous Si3N4 ceramics prepared with 24–36 vol% solid loading slurry exhibited a flexural strength of 144.39–193.66 MPa and a porosity of 55.8% to 49.0%. The dielectric constant and loss tangent at 30 GHz ranged from 2.88 to 3.38 and 1.17–1.56 × 10−3, respectively. These ceramics show promising potential applications in high‐performance structural ceramics and high‐temperature wave‐transparent materials. [ABSTRACT FROM AUTHOR]

Published

2024

13. Properties and Microstructure of Low-Strength Recycled Concrete Aggregate Treated Using Cement–Fly Ash Slurry with Various Concentrations and Soaking Durations.

Author

Dao, Xuan Hoang, Bui, Phuong Trinh, Ogawa, Yuko, and Kawai, Kenji

Subjects

*DIFFERENTIAL thermal analysis, *SURFACE texture, *THERMOGRAVIMETRY, *SURFACE preparation, *POROSITY, *SLURRY

Abstract

Utilizing recycled concrete aggregate (RCA) is a countermeasure to address the scarcity of landfills and the depletion of natural aggregates. Surface modification techniques have been proposed and implemented to improve the properties of RCA; however, to our best knowledge, few investigations on improving RCA under various pozzolanic slurry concentrations and extended soaking durations have been done. This study comprehensively assessed the properties and microstructure of low-strength RCA treated with cement–fly ash slurry with different concentrations and soaking durations. The purposes of this study were not only to provide the optimal slurry concentration and treatment duration but also to explore the enhancement mechanism of RCA under various treatment conditions. The RCA from concrete with a low-strength grade of 20 MPa was soaked in cement–fly ash slurry at low and high concentrations (i.e., 30% and 70% by mass of RCA, respectively) for 24 and 72 h. The physical and mechanical properties of RCA before and after treatment were evaluated through water absorption and crushing value measurements, respectively. Additionally, the pore structure, Ca(OH)2 contents, surface morphology, and phase compositions of RCAs were evaluated through a mercury intrusion porosimetry test, thermal gravimetric differential thermal analysis (TG-DTA), scanning electron microscopy, and X-ray diffraction (XRD) analyses, respectively. The water absorption of treated RCA reduced by 9.2%–37.9%, whereas the crushing value decreased by 8.6%–26.9% compared with the untreated RCA. The TG-DTA results indicated a 22.3%–43.8% increase in the Ca(OH)2 content of treated RCA. The XRD analysis depicted a higher ettringite (AFt) peak in all treated RCA samples compared with the untreated sample. For both concentrations, with a 24 h treatment, the slurry infiltration effect was clearly observable, whereas the 72 h treatment resulted in the formation of a pozzolanic coating layer on the RCA surface. In conclusion, the optimal slurry concentration and soaking duration were 70% and 72 h, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

14. Experimental Study on Improvement of Ground Conditioning for Shield Tunneling in Soft-Upper and Hard-Lower Composite Strata.

Author

ZHAO Xing, XU Jialei, and ZHANG Zhiqiang

Subjects

SOIL conditioners, EARTH pressure, SURFACE active agents, TUNNEL design & construction, SLURRY, INTERNAL friction, FOAM

Abstract

When an earth pressure balance shield passes through soft-upper and hard-lower composite strata, it faces challenges such as cutterhead "mud cake" formation, inefficient muck removal, and tool wear. To address these issues, this study focused on silty clay-completely weathered granite composite strata and conducted laboratory tests on ground conditioning in different strata based on the adaptability and performance of soil conditioners. The study explored the effects of soil conditioners, such as foam agent and bentonite slurry, as well as their improvement methods on soft-upper and hard-lower strata, to determine an optimal ground conditioning scheme and the appropriate addition ratios for shield tunneling in composite strata. The results showed that: (1)Combining a 3% concentration foam agent solution with bentonite slurry at a 1 : 8 ratio yielded good results. (2)The silty clay strata were improved by foam agent. The slump of the muck increased with the foam addition ratio, while the shear strength, cohesion, internal friction angle, and permeability coefficient decreased. The optimal addition ratio of the soil conditioners was between 19. 7% and 22. 8%. ( 3) The completely weathered granite strata were improved using a combination of foam agent and bentonite slurry, which effectively enhanced the flow plasticity and impermeability of the muck. When using only foam, the optimal addition ratio was between 22. 2% and 28. 7%, while the combined foam and bentonite slurry method required a ratio of 24. 3% to 31. 5%. Field application and construction feedback showed that the above improvement scheme effectively enhanced the flow plasticity of the muck, and significantly improved the shield thrust, cutterhead torque and tool wear. [ABSTRACT FROM AUTHOR]

Published

2024

15. Simultaneous Determination of Glyphosate and 13 Multiclass Pesticides in Agricultural Soil by Direct-Immersion SPME Followed by Solid–Liquid Extraction.

Author

Brinco, João, Guedes, Paula, da Silva, Marco Gomes, Mateus, Eduardo P., and Ribeiro, Alexandra B.

Subjects

AGRICULTURE, PESTICIDES, DETECTION limit, STANDARD deviations, SLURRY, GLYPHOSATE, ORGANOPHOSPHORUS pesticides

Abstract

A new method is presented for the simultaneous determination of 13 multiclass pesticides along with glyphosate. The multiclass pesticides were extracted by creating a soil slurry with 2% ethanol in water (v/v), and then, applying direct-immersion solid-phase microextraction (DI-SPME) with a new type of semi-disposable SPME fiber configuration called LC-Tips. The fibers were then retroextracted to ethanol, and aqueous ammonia was added to the slurry to extract glyphosate. Derivatization of the glyphosate extract was accomplished with a mixture of trifluoroacetic anhydride and trifluoroethanol, after which the reaction mixture was dried and resuspended with the SPME ethanol extract. To this, a mixture of analyte protectants was added, and it was analyzed by GC-MS/MS in multiple-reaction-monitoring mode. All analytes showed a coefficient of determination greater than 0.95 in the 0.1–100 µg/kg calibrated range, and the limits of detection were between 0.1 and 1 µg/kg, except for glyphosate, which was 0.01 µg/kg. The method shows relatively high replicate relative standard deviation (as much as 37% for five extractions at 20 µg/kg), but the isotopically labeled internal standard was effective at mitigating this effect for some analytes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Study on the Rheological Behaviors, Thixotropy, and Printing Characteristics of Screen Printing Slurry for Nd-Fe-B.

Author

Sun, Xiaojun, Lin, Xiao, Luo, Yang, Yu, Dunbo, Yan, Wenlong, Zhang, Hongbin, Wang, Zilong, Zhang, Chaofan, Guo, Jiyuan, Zhang, Wendi, Gao, Weiguo, and Huang, Shan

Subjects

*KIRKENDALL effect, *NON-Newtonian fluids, *POLYVINYL butyral, *SCREEN process printing, *THIXOTROPY

Abstract

The rheological behavior and printing characteristics of the screen-printing slurry for Nd-Fe-B grain boundary diffusion are key factors that determine the quality of printing and magnetic performance. However, few studies have focused on the organic medium, a crucial material for slurry. In this paper, the rheology, thixotropy, and thermal decomposition behavior of the organic vehicle in Nd-Fe-B screen printing slurry were studied. The results show that the organic vehicle formed by terpineol and polyvinyl butyral (PVB) exhibits typical non-Newtonian fluid characteristics, with excellent rheology and thixotropy, ensuring that the slurry prepared from it has excellent static stability and printing consistency. Additionally, the carbon residue of the organic vehicle formed by terpineol and PVB is less than 0.1% at 900 °C, avoiding excessive carbon entering the magnet during the diffusion process. Moreover, studying the rheology and thixotropy of the organic vehicle through a rheometer can quickly screen the slurry system. This work provides valuable guidance for designing an organic vehicle for screen-printing slurry for Nd-Fe-B grain boundary diffusion in future research. [ABSTRACT FROM AUTHOR]

Published

2024

17. Preparation of novel reticulated porous ceramics with textured structures enabled by in situ generated interlocking Al2O3 platelets.

Author

Guo, Fanjun, Wang, Yuying, You, Tao, Li, Jun, Liu, Li, and Huang, Yudong

Subjects

*ALUMINUM oxide, *SLURRY, *BLOOD platelets, *POROUS materials, *PLATELET-rich plasma, *CERAMICS, *CONGO red (Staining dye)

Abstract

Al 2 O 3 reticulated porous ceramics (ARPCs) are extensively employed in high-temperature catalytic support, molten metal filtration, and porous media combustion because of their high specific surface area and heat resistance. The high specific surface area is usually maintained by high apparent porosity, but unfortunately, the accompanying poor mechanical properties severely compromise the durability of ARPCs. To synergistically improve the mechanical properties and apparent porosity, a new strategy was proposed to prepare ARPCs with textured structures of in situ interlocking Al 2 O 3 platelet integration using vacuum impregnation Na 3 AlF 6 –SiC–Al 2 O 3 slurry technique. The obtained textural structure had a significant strengthening effect on ARPCs, attributed to the increased contact area among non-equiaxed grains, and the compact growth of Al 2 O 3 platelets with high aspect ratios provided the high apparent porosity and specific surface area of ARPCs, resulting in compressive strength as high as 3.93 MPa at an apparent porosity of 85.31 %, as well as the degradation of Congo red up to 75.35 % due to the Al 2 O 3 platelets facilitating the loading of TiO 2. [ABSTRACT FROM AUTHOR]

Published

2024

18. Polycarbosilane-grafted silicon carbide nanoparticles as a high-yielding non-oxide ceramic precursor.

Author

Posey, Nicholas D., Pruyn, Timothy L., Delcamp, Jared H., and Dickerson, Matthew B.

Subjects

*SILICON carbide, *SURFACE grafting (Polymer chemistry), *NANOPARTICLES, *SILICA nanoparticles, *CERAMICS, *GRAFT copolymers, *CERAMIC coating, *SLURRY

Abstract

Silicon carbide (SiC) is a multifunctional material with a myriad of potential applications, from high-power electronics to friction applications to power generation. Grafting preceramic polymers (PCPs) from SiC nanoparticles would create a platform for forming SiC via a polymer derived route that would have advantages over simple particle-PCP slurries and may enable new additive manufacturing inks or spreadable coatings with controlled rheology. Grafting PCPs directly on SiC powders would greatly improve dispersion of these particles and yield a single component system. Moreover, PCP-grafted-SiC would be a new addition to the burgeoning field of polymer grafted nanoparticles (PGNPs). Herein, SiC nanoparticles were surface-modified in a grafting-from polymerization reaction to create polycarbosilane (PCS) grafted SiC. Surface grafting was verified through a number of analytical techniques and the synthesized materials were pyrolyzed at 1600 °C. The PCS-grafted SiC retained 66 % of its pre-pyrolysis mass, representing a significant improvement over PCS-grafted silica nanoparticles from our previous work (20 wt% yield). In addition to an increased ceramic yield, the grafting of PCS to SiC also resulted in the formation of a SiC phase not present in the simple physical mixture of SiC nanopowder in PCS. This study demonstrated that PCP-grafted nanoparticles (GNPs) can be synthesized utilizing non-oxide nanoparticle cores with desirable rheology, opening possibilities for future ceramic inks and coatings. [ABSTRACT FROM AUTHOR]

Published

2024

19. Parametric study of free turbulent slurry jet: influence of particle size and particle concentration on the flow dynamics and thermal behavior of high-speed slurry jet.

Author

Sharma, Nilesh Kumar, Dewangan, Satish Kumar, and Gupta, Pankaj Kumar

Subjects

NUSSELT number, JETS (Fluid dynamics), GRANULAR flow, THERMAL conductivity, SLURRY

Abstract

A detailed computational investigation was conducted to explore the dynamics of high-speed free slurry jets, with a focus on how variations in abrasive size and concentration affect their behavior. The study yielded several significant observations: Firstly, it was observed that slurry jets containing larger particles exhibited notably higher average velocities, attributed to their inherent self-similar characteristics. Specifically, at the far field of the jet, slurry jets with larger particle sizes demonstrated a 15% increase in velocity compared to those with smaller particles. Additionally, an analysis of turbulent intensity revealed that beyond a certain axial distance (x/D = 10), turbulence levels progressively increased. However, intriguingly, for slurry jets with a high concentration (Co = 15%), there was a notable decrease (28%) in turbulent intensity compared to water jets, indicating a complex interplay between particle size and concentration. Secondly, the study found that as the concentration of particles in the slurry jet increased, there was a corresponding rise in the bulk temperature of the jet. This phenomenon was primarily attributed to the heightened thermal conductivity resulting from the increased density of particles in the water. Furthermore, an examination of the Nusselt number revealed interesting trends. While the Nusselt number exhibited a peak near the nozzle exit, indicative of enhanced heat transfer in this region, it showed a decremental trend along the axial direction of the jet, attributable to jet divergence. In summary, the computational analysis provided valuable insights into the behavior of high-speed slurry jets, highlighting the intricate relationships between abrasive size, concentration, velocity distribution, and thermal characteristics. These findings contribute to a deeper understanding of slurry jet dynamics and have significant implications for various industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

20. High performance and dense Si3N4 ceramic prepared by gelcasting combined with reaction re-sintering method.

Author

Zhou, jiangshan, Deng, yansheng, Zhao, wenxing, and Li, jiazhuo

Subjects

*GELCASTING, *CERAMIC powders, *SLURRY, *ALUMINUM oxide, *CERAMICS, *THERMAL conductivity, *SPECIFIC gravity

Abstract

In this study, Si powder was used as raw material, Si 3 N 4 powder as a diluent, Al 2 O 3 , MgO, Y 2 O 3, and La 2 O 3 as sintering additives to prepare Si 3 N 4 ceramic with excellent properties using gelcasting and reaction re-sintering method. When the solid content of the slurry is 57.3 %, the viscosity is less than 1 Pa · s during the gelcasting process. After the reaction re-sintering, the sintered body of Si 3 N 4 exhibited a bulk density of 3.15 ± 0.05 g/cm3, a relative density of 96 ± 1 %, open porosity of 5.7 %, bending strength of 610 ± 20 MPa, elastic modulus of 235 ± 10 GPa, thermal conductivity of 48 ± 5 W/(m·K), and a linear shrinkage rate of 12–13 %. These parameters indicate that Si 3 N 4 ceramic possesses outstanding mechanical properties and thermal conductivity. [ABSTRACT FROM AUTHOR]

Published

2024

21. Study on the Diffusion Mechanism of Infiltration Grouting in Fault Fracture Zone Considering the Time-Varying Characteristics of Slurry Viscosity Under Seawater Environment.

Author

Wang, Hongbo, Yu, Yunchang, Zhang, Peiyuan, Yang, Chunyu, Wen, Hao, Zhang, Fansheng, and Du, Sanlin

Subjects

FAULT zones, CEMENT slurry, GROUTING, SEAWATER, TEST systems, SLURRY

Abstract

Fault fracture zones are rock formations commonly encountered in submarine tunnels, and the diffusion mechanism of slurry in fault fracture zones has a crucial impact on submarine tunnel reinforcement. Based on the seepage equation of Bingham fluid, the tortuosity parameter, fractal theory, and variable viscosity equation are introduced to establish a spherical permeation grouting model of Bingham fluid considering the slurry diffusion path and viscosity time variability. The viscosity variation law with time of sulfur aluminate cement slurry under different seawater admixture conditions was tested, and the time-varying equation of viscosity of sulfur aluminate cement slurry was obtained by fitting. A set of fault fracture zone permeation grouting test system was developed, and a fault fracture zone grouting simulation test was carried out. The study shows that the diffusion distance calculated without considering the influence of slurry diffusion path and seawater is 1.63–1.91 times of the test value, which obviously overestimates the diffusion distance; the diffusion distance calculated with considering the influence of diffusion path and seawater is 1.06–1.35 times of the test value, which is in good agreement with the test value. The research results can provide some theoretical support for the design of grouting in seawater environment. [ABSTRACT FROM AUTHOR]

Published

2024

22. Geological challenges of tunnelling using large slurry shield machine in dense urban centre.

Author

Zeng, Yi, Elbaz, Khalid, Xiong, Wang, Zhang, Xiao‐Long, and Shen, Shui‐Long

Subjects

*FAULT zones, *DATABASES, *MACHINE performance, *SLURRY, *HAZARDS

Abstract

Tunnelling in complex geological strata is a challenging task that can affect the performance of shield machines and result in unexpected hazards. Therefore, extensive knowledge of unfavourable environments and shield operational parameters is essential for ensuring successful and safe tunnelling. This study aims to analyse the geological and hydrological conditions of the Chunfeng Tunnel and present the key construction technologies of a large slurry shield machine when crossing complex strata. To this end, attempts were made to (i) discuss the geological and environmental challenges encountered during the tunnelling process and present some early interpretations based on the database information, (ii) analyse the factors affecting tunnel performance and simulate the ground surface settlement along the tunnel alignment and (iii) discuss the countermeasures under adverse ground conditions and propose future directions. The results revealed that tunnelling in fault zones with soft upper and hard lower strata led to severe wear of disc cutters and controlling the tunnelling parameters could provide a suitable method for adjusting the construction process. This study leveraged extensive experience gained during tunnelling using a large slurry shield machine, with special emphasis on mixed ground strata, by providing valuable insights and suggested responses for effective tunnelling strategies. [ABSTRACT FROM AUTHOR]

Published

2024

23. The efficient and economical application of a cement slurry programme for sandstone and carbonate reservoirs. A case study of the Zubair, Mauddud, and Mishrif formations in a supergiant oilfield, in southern Iraq.

Author

AL-DUJAILI, A. N., SHABANI, M., and AL-JAWAD, M. S.

Subjects

*CEMENT slurry, *CARBONATE reservoirs, *SPECIFIC gravity, *OIL wells, *COST control

Abstract

This study was accomplished in oil drilling wells located in the Mishrif and Mauddud carbonate formations and in the Zubair sandstone formation to ensure safer, efficient, and economical cementing operations, a better bond between the cement, casing, and formation, and a better isolation between the zones. Moreover, it was also undertaken to obtain competitive cement at the shoe. The study developed a cement slurry programme of 1.55 lead and 1.9 SG tail slurry for both the primary and secondary stages in well WQ1-XX0, as well as a new programme for the wells that would follow (the same primary stage, and 1.45 and 1.75 SG for the secondary stage), so as to improve the casing and cementing stability and reduce costs. The results indicated that well problems were gradually reduced in wells WQ1-XX1 and WQ1-XX2 and were entirely eradicated in well WQ1-XX3. The reduction in cement cost was 62% (from 0.756 to 0.47 barrels per metre), and the cement shows good bonding at the top of productive formations (Mishrif, Mauddud, and Zubair). The problems and costs in the Zubair sandstone and Mauddud carbonate formations were higher than in the Mishrif formation, and the programme adopted would prove to overcome them all. The lightweight high-performance slurry, with a specific gravity of 1.45, achieved the objectives of liner cementing in the Mishrif wells without involving any losses. [ABSTRACT FROM AUTHOR]

Published

2024

24. Rheological Behavior of SiO 2 Ceramic Slurry in Stereolithography and Its Prediction Model Based on POA-DELM.

Author

Zhang, Jie, Min, Byung-Won, Gu, Hai, Wu, Guoqing, and Wu, Weiwei

Subjects

*MACHINE learning, *RAW materials, *STEREOLITHOGRAPHY, *DYNAMIC simulation, *PREDICTION models, *SLURRY

Abstract

Ceramic slurry is the raw material used in stereolithography, and its performance determines the printing quality. Rheological behavior, one of the most important physical factors in stereolithography, is critical in ceramic printing, significantly affecting the flow, spreading, and printing processes. The rheological behavior of SiO2 slurry used in stereolithography technology is investigated in the current research using different powder diameters and temperatures. The results present the apparent non-Newtonian behavior. The yielding characteristics occur in all cases. For single-powder cases, the viscosity decreases when the powder diameter is increased. When the nano-sized and micro-sized powders are mixed in different proportions, a more significant proportion of micron-sized powders will decrease the viscosity. With an increase in the nano-sized powders, the slurry exhibits the shear thinning behavior; otherwise, the shear thickening behavior is observed. Thus, the prediction model is built based on the use of the pelican optimization algorithm-deep extreme learning machine (POA-DELM), and the model in then compared with the fitted and traditional models to validate the effectiveness of the method. A more accurate viscosity prediction model will contribute to better fluid dynamic simulation in future work. [ABSTRACT FROM AUTHOR]

Published

2024

25. Impact of Shield Tunneling Residues on Concrete Compressive Strength: Influencing Laws and Prediction Models.

Author

Xia, Junwu, Yang, Han, Geng, Ou, Yu, Linli, Yang, Nianxu, and Wang, Yujing

Subjects

*PREDICTION models, *TUNNEL design & construction, *CONCRETE, *SLURRY, *MANUFACTURING processes, *COMPRESSIVE strength

Abstract

In recent years, the recycling and reutilization of shield tunneling residues (STR) have received extensive attention in underground engineering. To optimize the method of resource utilization of STR, this paper introduces a replacement method of STR slurry. The STR are incorporated into concrete and prepared as STR concrete (STRC) using a coarse and fine aggregate shell production process. By optimizing the mixing method of STR slurry, we obtained the best mixing process, and studied the influence of STR dosage and water–binder ratio (w/b) on the compressive strength of STRC. The results revealed that the air-dried STR preliminarily crushed to about 15 mm can be used to prepare STRC by extending the mixing time of STR slurry. The compressive strength of the concrete significantly depends on the dosage of STR slurry. The strength decreases significantly with the increase of STR dosage, and the recommended dosage is about 10%. The influence of the w/b on compressive strength is similar to that of ordinary concrete. A predictive model for the compressive strength of STRC was established by analyzing the relationship between the dosage of STR, w/b , age, and the strength of STRC. [ABSTRACT FROM AUTHOR]

Published

2024

26. Fabrication of Y2O3–CaO composite ceramics with controllable hydration resistance by a novel gel casting method.

Author

Ren, Pei, Han, Meiqi, Wang, Xingan, Zhang, Mu, and Sun, Xudong

Subjects

*GELCASTING, *PRECISION casting, *CERAMIC materials, *TURBINE blades, *SLURRY, *HYDRATION

Abstract

Y 2 O 3 and CaO are ideal ceramic materials for precision casting of TiAl alloy, overcoming challenges associated with intricate component removal, such as turbine blades, leveraging the stability of Y 2 O 3 and the water solubility of CaO. To address these challenges, we employed Isobam104 in a novel gel casting method, serving as both a dispersant and a gelling agent. This method enabled us to create a stable Y 2 O 3 –CaCO 3 slurry with high solid content (up to 55 vol%) and low viscosity (101.51 mPa·s at a shear rate of 10 s−1). Following sintering at 1500 °C for 2 h, Y 2 O 3 –CaO composite ceramics were produced. Surprisingly, two distinct characteristics of CaO were noted. One showed a rod-shaped morphology with high chemical reactivity crucial for water solubility, while the other displayed a flat-like feature, forming a well-maintained interface due to its coherent or semi-coherent matching relationship with Y 2 O 3 , thereby providing excellent hydration resistance. Ultimately, we acquired composite ceramics showcasing a 30-day "shelf life" alongside exceptional water solubility. This establishes the theoretical groundwork for storing and employing soluble ceramic cores in the precision casting of TiAl alloy. [ABSTRACT FROM AUTHOR]

Published

2024

27. Contrasting Aqueous Dispersion State of Kaolinite with Different Organic Modification Surfactants.

Author

Peng, Kebo, Huang, Zongwang, and Zhang, Yi

Subjects

SILICA sand, SEDIMENTATION & deposition, CENTRIFUGATION, SURFACE active agents, SLURRY, KAOLINITE

Abstract

Flocculation sedimentation state observation could be used to facilitate interaction visualization in laboratories and establish theories for industrial manufacture. Herein, kaolinite was obtained from different sources and labeled as K1 and K2. Those characteristic characterizations indicated that silica sand was difficult to remove from refined commercial kaolinite with different sources. Some biosafe and removable surfactants have been used to evaluate the flocculation sedimentation state of kaolinite-surfactant slurry for a long time, indicating those surfactants could accelerate the settling velocities within a certain range, which could be attributed to sufficient surfactant-kaolinite interactions, but decelerate the settling velocities with the excess surfactant addition, which could be attributed to the surfactant-water colloidal characteristic. Then, the flocculation sedimentation mechanism was illustrated in detail based on the kaolinite-surfactants interaction, indicating that the excellent flocculation sedimentation state was beneficial to silica removal with sedimentation method, but the difficult flocculation sedimentation state was beneficial to size classification with differential centrifugation. [ABSTRACT FROM AUTHOR]

Published

2024

28. Computational Investigation of the Influencing Parameters on the Solidification of Thermoplastic Beryllium Oxide Slurry in a Cylindrical Shell.

Author

Sattinova, Zamira, Assilbekov, Bakytzhan, Bekenov, Tassybek, and Ramazanova, Gaukhar

Subjects

CONTINUOUS casting, CYLINDRICAL shells, REGULARIZATION parameter, UNIFORM spaces, PHASE transitions, SLURRY

Abstract

This article presents a computational study of the influencing parameters on the solidification of the thermoplastic beryllium oxide slurry in an annular forming cavity. The main purpose of this paper is to study the effect of cooling and casting conditions on the solidification of the BeO suspension by considering the temperature-dependent rheological and physical properties. The results of calculations of the Bingham–Papanastasiou rheological model with experimental data in the intervals of phase transitions with different casting rates of beryllium ceramics have been validated. The use of the regularization parameter made it possible to approximate the flow of the slurry at all levels of its shear rates as highly viscous, followed by a continuous transition to a solid state. The speed of heat removal from the molding during the solidification period is determined by the speed of movement of the slurry and the temperature field on which the width of the transition region depends. The process of solidification of the slurry mass has been evaluated by changing its heat flow distribution and density along the length of the concentric channel. The obtained model calculation results make it possible to control the casting process and eventually realize a uniform structure of castings. [ABSTRACT FROM AUTHOR]

Published

2024

29. 高压射流磨处理对全组分香菇浆品质的影响.

Author

廖崇印, 邓利珍, 胡秋连, 陈 军, 戴涛涛, 梁瑞红, and 李 俶

Subjects

ZETA potential, ABSOLUTE value, SHIITAKE, SLURRY, RAW materials

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

30. Experimental study on the stratum applicability and mechanisms of bubble-slurry for earth pressure balance shields.

Author

Wang, Lu, Zhu, Wei, and Qian, Yongjin

Subjects

EARTH pressure, SLURRY, ANIONIC surfactants, WATER pressure, SHEARING force, PERMEABILITY

Abstract

Soil conditioning is essential for addressing the stratum applicability problem of earth pressure balance (EPB) shields. Under high water pressures, EPB shields spew water and soil when excavating coarse-grained strata. Typically, foam combined with polymers and slurry is used to solve spewing. However, in current techniques, slurry, foam, and the other agents are mixed with soil separately, their synergistic effect is seldom realized. In this study, an anionic surfactant was used to foam in bentonite slurry to form bubble–slurry to maximize the synergy between bubbles and slurry. The slump, volume stability, and permeability test of bubble–slurry-conditioned sand was conducted to examine the conditioning effect, and the stratum applicability of bubble–slurry was determined from the perspective of permeability. It was found that the conditioning effect of bubble–slurry in coarse gravel soil was excellent and could expand the applicability of EPB shields. The main stabilization mechanism of bubble–slurry is that bentonite particles provide a space barrier for bubbles. And three seepage modes of bubble–slurry-conditioned sand were innovatively defined, and the occurrence conditions of the three seepage modes were analyzed according to the permeability coefficient of sand, initial dynamic shear force of bubble–slurry, and hydraulic gradient. [ABSTRACT FROM AUTHOR]

Published

2024

31. 基于泥水盾构废浆的新型同步注浆浆液性能 及影响因素初探.

Author

涂 果, 王士民, 王 亚, 林志宇, and 何 川

Subjects

WASTE recycling, SUSTAINABLE development, COMPRESSIVE strength, POLLUTION, GROUTING, SLURRY

Abstract

Copyright of Railway Standard Design is the property of Railway Standard Design Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. Insight into Carbon Black and Silica Fume as Cement Additives for Geoenergy Wells: Linking Mineralogy to Mechanical and Physical Properties.

Author

Sammer, Thomas, Nasiri, Arash, Kostoglou, Nikolaos, Ravi, Krishna, and Raith, Johann G.

Subjects

CEMENT admixtures, PORE size distribution, SILICA fume, YOUNG'S modulus, SLURRY

Abstract

The geoenergy industry has challenging demands on cements used as downhole materials. Once placed in the annular space, the cement sheath must be very low permeability and mechanically durable. Its characteristics are strongly influenced by its microstructure. A holistic approach, including combined mineralogical, physical, and mechanical investigations, provides a better understanding of how these characteristics interplay. Class G cement was investigated and compared to cement formulations containing carbon black or silica fu me, trying to tailor its performance. The addition of carbon black and silica fume has some effect on the modal and chemical phase composition and results in a much denser microstructure. Furthermore, porosity is reduced while the pore size distribution remains similar. Samples containing carbon black have a reduced Young's modulus, indicating a more plastic behavior. The addition of silica fume increased both mechanical strength and permeability. However, comparable results can also be achieved by carefully tuning the water/cement ratio of the initial slurry. [ABSTRACT FROM AUTHOR]

Published

2024

33. Smart Piezoresistive Plaster of Paris for Real-Time Monitoring of Curing and Compressive Stress Changes Quantified Using Vipulanandan Models.

Author

Vipulanandan, C., Maddi, A. R., and Mohan, Chandra

Subjects

CARBON fiber testing, STANDARD deviations, TECHNOLOGICAL innovations, COMPRESSION loads, COMPRESSIVE strength, SLURRY

Abstract

Based on the physical and thermal properties, plaster of paris (P-O-P) has been used in many applications including the medical field and infrastructure constructions for over thousands of years around the world. With the increased applications developing new technology to real-time monitor, the changes from slurry to the solidified materials are important for evaluating the curing processes and the performances under various applications. Based on the newly developed Vipulanandan electrical characterization method, the resistivity was identified as the critical material property for the P-O-P with water-to-binder ratio of 0.5. In order to make the highly sensing piezoresistive P-O-P, another innovative approach, up to 0.05% of carbon fibers (CF), was added and tested. The measured initial resistivity immediately after mixing was sensitive to the amount of carbon fiber addition. During curing, the changes in resistivity were monitored using the two probe method and alternative current at 300 kHz. During curing, the resistivity changes were sensitive to the amount of fibers added to the P-O-P and was modeled using the Vipulanandan curing model. Solidified P-O-P with and without carbon fibers were tested under compressive loading after 1, 7 and 28 days of curing under the room condition (23 °C and relative humidity of 50%). The one day and 28 days the average compressive strengths of P-O-P without fibers were 2.14 and 6.04 MPa, respectively. The piezoresistive compressive strain at failure for the P-O-P without CF was less than 1%, and with the addition of 0.02 and 0.05% CF, it not only increased the compressive strength but also substantially increased the piezoresistive compressive axial strain at peak stress. After 28 days of curing, the P-O-P with 0.05% CF the axial piezoresistive strain at the peak stress was 345%, it increased by over 500 times (50,000%) compared to the P-O-P without CF, clearly showing the very high sensitivity of the P-O-P develop in this study with CF addition (smart P-O-P). Vipulanandan piezoresistive p-q model was used to predict the piezoresistive behavior of the smart P-O-P and it predicted the behavior very well based on the root mean square error. Vipulanandan correlation model was used to predict the changes in the compressive strength and compressive piezoresistive failure strain with curing time and also the long-term property limits were predicted. [ABSTRACT FROM AUTHOR]

Published

2024

34. Study on the Force Transfer Process of Bolt–Slurry Interface of Full-Length Bonding Anchor System at Earthen Sites.

Author

Wan, Jiaxing, Wang, Donghua, and Cui, Kai

Subjects

CHEMICAL bond lengths, ANALYTICAL solutions, ANCHORAGE, QUANTITATIVE research, DEBONDING, SLURRY

Abstract

The debonding and sliding of the bolt–slurry interface is the main failure form of the full-length bonding anchor system (FLBAS) of earthen sites, so it is urgent to carry out a quantitative study of the force transfer process of the anchorage interface. Based on field test results and existing research results, it was found that the bilinear bond–slip model is in line with the description of the constitutive relationship of the bolt–slurry interface. The whole process of debonding slip is discussed accordingly; the expressions for the slip, the axial strain of the bolt, and the load displacement at the bolt–slurry interface corresponding to the different loading stages are deduced; and the calculations of the ultimate load-carrying capacity and the effective anchorage length are given at the same time. On this basis, the bond–slip model parameters were calibrated by identifying the characteristic points of the bond–slip curve; a multi-parameter cross-comparison validation of the reasonableness of the theoretical analytical model was carried out on the basis of in situ pull-out tests; and the law of the influence of anchor bond length and axial stiffness on the anchorage performance was analyzed. The analytical model proposed in this study is widely applicable to the analysis of force transfer processes at the bolt–slurry interface in the presence of complete debonding phenomena and provides a useful reference for optimizing the design of anchors while minimizing interventions. [ABSTRACT FROM AUTHOR]

Published

2024

35. Friction reduction in pipe flow of coarse slurry by fines addition – experimental study.

Author

Matoušek, Václav, Chára, Zdeněk, Konfršt, Jiří, Krupička, Jan, and Novotný, Jakub

Subjects

*FRICTION, *SLURRY, *FLUID flow, *PRESSURE drop (Fluid dynamics), *BASALT

Abstract

Very coarse basalt-water slurry forming fully stratified flow with a sliding bed and producing considerable friction loss was tested in a laboratory pipe. A considerably finer fraction of sand was added in steps to gradually increase the concentration of this fraction in the flowing slurry. The frictional pressure drop was measured together with the slurry discharge and slurry density. Furthermore, solid particles and their motion were observed at the bottom of the pipe. This observation indicated that finer particles in basalt-based bimodal slurry flows positioned themselves below the coarse particles at the pipe wall. The experimental results show that a quite small amount of fines is sufficient to produce a considerable friction reduction in settling slurry flow. Furthermore, the results indicate that there is a certain optimum quantity of fines at which the maximum reduction is reached and further addition of the fines does not bring any further improvement. [ABSTRACT FROM AUTHOR]

Published

2024

36. Tuning the cathode/solid electrolyte interface for high‐performance solid‐state Na‐ion batteries.

Author

Thirupathi, Raghunayakula, Sharma, Saurabh, Bhattacharyya, Sandipan, and Omar, Shobit

Subjects

*SOLID electrolytes, *SODIUM ions, *SLURRY, *CATHODES, *ELECTROLYTES

Abstract

This study examines and compares the impact of various interfacial modification strategies in optimizing the contact resistance between the rigid ceramic electrolyte and cathode active material (AM) in solid‐state sodium‐ion batteries (SSBs). All the cells are fabricated using Na3.1V2P2.9Si0.1O12, Na3.456Mg0.128Zr1.872Si2.2P0.8O12, and Na as a cathode AM, solid electrolyte (SE) and anode, respectively. The AM/SE interface is modified by (1) wetting the interface with organic liquid electrolyte (LE), (2) slurry casting and sintering a thin layer of composite cathode, and (3) infiltrating AM precursors inside the porous SE structure followed by drying and sintering. Despite exhibiting a stable cyclability performance, the SSBs prepared using the LE modification and composite cathode approach possess a low AM loading of < 1 mg·cm−2. On the other hand, the SSBs with infiltrated‐cathode exhibit a superior discharge capacity of ∼ 102 mAh·g−1 at 0.2C and less than 5% capacity fading after 50 cycles at room temperature. Notably, these cells contain a high AM loading of 2.12 mg·cm−2. The microstructural analysis reveals the presence of AM particles inside the pores of the porous SE, allowing for the efficient insertion/removal of sodium ions. The porous scaffold of SE not only provides continuous sodium‐ion conduction pathways inside the cathode structure but also renders stability by accommodating stress induced by volume change during repeated cycling. The outcomes of this work demonstrate the effectiveness of the wet‐chemical infiltration technique in improving the AM loading and storage capacity performance of SSBs working at 25°C. [ABSTRACT FROM AUTHOR]

Published

2024

37. Study of the Rheological Behavior of Pisha Sandstone Slurry Based on Dynamic Oscillatory Shear

Author

ZHOU Lin, HU Feinan, XU Chenyang, DU Wei, and ZHANG Yanan

Subjects

dynamic oscillatory shear, slurry, linear viscoelastic region, flow point, pisha sandstone, Environmental sciences, GE1-350, Agriculture

Abstract

[Objective] With global warming and increased occurrences of heavy precipitation, the frequency of landslide mudflow disasters in the Pisha sandstone area will increase significantly. Understanding how water-soil interaction affect the loosening and deformation of fragile soils, ultimately leading to mudflow development, is a crucial scientific question in the evolutionary process. [Methods] This study focuses on investigating the rheological properties of Pisha sandstone (PS) slurry using a rheological method that involves dynamic oscillatory shear. The primary objective is to examine the liquefaction process and initial rheological properties of PS slurry. [Results] (1) With the increase of shear strain, the energy storage modulus (G′) and loss modulus (G″) of the four PS slurries decreased and exhibited strain thinning characteristics. (2) In the samples with lower water content (w

Published

2024

38. Influence of Swine Wastes Rates on Selected Soil Physical Properties and Cultivation of Amaranthus in Awka, South East- Nigeria

Author

Tochukwu Nwosu

Subjects

amaranthus, application rates, slurry, soil, swine wastes, Science, Agriculture

Abstract

Environmental threats most times occur due to indiscriminate disposal of swine wastes into the environment however effective disposal of these waste materials into the soil as an amendment for vegetable production remains a vital solution for the challenge. This research investigated different application rates of swine wastes on selected soil physical properties and cultivation of Amaranthus in Awka. The research was conducted at the Soil Science and Land Resources Management Research and Teaching Farm, Faculty of Agriculture, Nnamdi Azikiwe University, Awka- Nigeria. The field experiment was laid out in a Randomized Complete Block Design. Soil samples were taken from each plot with core samplers undisturbed and randomly and was taken to the laboratory for soil physical analysis prior to the application of treatment. The treatment used was swine wastes at rates of 0 kg/plot (zero application), 4.5 kg/plot, 9.0 kg/plot and 13.5 kg/plot. The test crop used was Amaranthus hybridus. The results obtained from the laboratory were subjected to statistical analysis and the treatment means were separated using Turkey test at 5% probability level. The results showed that the soils of the studied area was sandy loam. There was a significant difference in bulk density when the soil treated with 9.0 kg/plot was compared with 0 kg/plot (zero application) and it ranged from 1.75-1.97 g/cm3 , the total porosity of soil in the studied area was significant when the soils treated with 9.0 kg/plot was compared with 0 kg/plot (zero application) and this ranged from 23.5 - 29.59 %, the moisture content of soil in the studied area was significantly different when soils treated with 9.0 kg/plot was compared with 0 kg/plot (zero application) and it ranged from 1.95- 3.22 %. The aggregate stability of soils in the area studied ranged from 0.37- 0.44 %, hydraulic conductivity of soils in the studied area was in the range of 0.01- 0.05 cm/hr. From this research, it was observed that 13.5 kg/plot of swine wastes applied improved the yield of Amaranthus when compared to other treatment rates

Published

2024

39. Research on new magnetic epoxy resin composite slurry materials and localization grouting diffusion mechanism.

Author

Li, Zhao, Cai, Huan, Liu, Jie, Yu, Fan, Bao, Xiaopeng, and Yang, Yunan

Subjects

*SLURRY, *EPOXY resins, *GROUTING, *MAGNETIC flux density, *COMPOSITE materials, *DYNAMIC viscosity

Abstract

A significant number of steep cracks are frequently encountered in underground engineering, posing a threat to operation. The high-pressure grouting method is a commonly utilized repair technique. Nevertheless, conventional grout is prone to displacement due to its weight, making it challenging to ensure adequate filling of the cracks. Therefore, this study aims to develop a grouting material with targeted displacement and anchoring properties. Firstly, an optimal magnetic slurry composition was determined through an orthogonal test. Subsequently, XRD and SEM were used to analyze the impact of the magnetic field on the composition distribution, internal pore structure, and transient viscosity of the slurry. Afterwards, a model for localized grout diffusion under magnetic was established. The results show that the application of a magnetic field caused the slurry to compact due to magnetic forces, reducing its porosity. Moreover, the dynamic viscosity of the slurry increased exponentially with rising magnetic induction intensity. Notably, a 40.5% increase in the diffusion area was observed when the magnetic field intensity rose from 2500 to 4500 GS. The error between the measured and theoretical values of the magnetic slurry diffusion model was only 8.91%, indicating the model's accuracy in describing the slurry diffusion process under magnetic field influence. [ABSTRACT FROM AUTHOR]

Published

2024

40. Preparation and optimization of silicon nitride slurries for digital light processing.

Author

Sha, Qi, Xie, Jianjun, Duan, Yesen, Tang, Wenyu, and Zhang, Jingxian

Subjects

*REFRACTIVE index, *SLURRY, *LIGHT absorption, *SILICON surfaces, *THREE-dimensional printing, *SILICON nitride

Abstract

Digital light processing (DLP) three‐dimensional printing has the advantages of both high printing resolution and efficiency and has been used to manufacture high‐precision, small, and complex shaped ceramic parts. One of the challenges of DLP is to develop photosensitive ceramic slurries with high solid content and low viscosity, especially for non‐oxide ceramics such as silicon nitride due to the dispersion and light absorption problem. This study mainly explores the dispersibility of silicon nitride in ultraviolet (UV)‐cured resins and the photocured properties of the slurry. Rheological measurements were utilized to characterize and screen different dispersants in the resin. It was found that DISPERMP is an effective dispersant. In order to improve the curing depth of Si3N4 photosensitive paste, the surface of silicon nitride powder was treated by oxidation, and organic compounds with different refractive indices were also introduced to increase the light penetration depth. It was found that glycerol with a refractive index of 1.474 resulted in the greatest improvement in the curing depth of Si3N4 photosensitive paste. Finally, a proposed slurry composition was developed to successfully print silicon nitride ceramics through UV‐curing molding technology. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effect of chemical action on shear thickening polishing of YAG.

Author

Fang, Wei, Gu, Jiajie, Tang, Zewei, Song, Zhilong, Zhao, Wenhong, and Lyu, Binghai

Subjects

*SLURRY, *YTTRIUM aluminum garnet, *X-ray photoelectron spectroscopy, *SURFACE roughness, *CHEMICAL bonds

Abstract

The shear-thickening polishing (STP) method, a flexible polishing technique developed in recent years, was utilized to obtain high surface quality of yttrium aluminum garnet (YAG) crystal effectively. The effect of polishing slurry pH value, which characterizes the chemical action between slurry and YAG crystal, on the material removal rate and surface roughness of YAG crystal was investigated, and the mechanism of the chemical action between YAG and slurry in STP process was revealed through X-ray photoelectron spectroscopy (XPS) analysis. The influence of polishing speed and abrasive concentration, which were relating with mechanical action, on the polishing effects was also studied. The experimental results show that when the pH value of the polishing slurry is lower than 11, the dissociation of chemical bonds and the formation of new bonds on the surface of the YAG crystal are predominantly found, resulting in a lower material removal rate. While the pH value of polishing slurry reaches 13, a reaction layer consisting of Al 2 SiO 5 and Y 2 SiO 5 , which has lower hardness than abrasive, is formed on the surface, and this reaction layer can be removed by mechanical action efficiently. The surface roughness S a decreases from 60 ± 10 nm to 0.38 ± 0.06 nm in 15 min with MRR reaches 117.30 nm/min, which is 4.3 times higher than that of chemical mechanical polishing. Based on the results of XPS analysis, the material removal mechanism of YAG polished by STP is proposed. As revealed by the results, STP with chemical action provide a high efficiency polishing method for the high surface quality YAG crystal. [ABSTRACT FROM AUTHOR]

Published

2024

42. Preparation of high-performance zirconia toughened alumina doped with Cr2O3 and SrO for artificial joints by spray granulation.

Author

Yan, Xu, Zhang, Bowen, Wang, Yu, Hong, Huan, Li, Haiwen, Cheng, Bo, Yang, Jing, Li, Binbin, and Wang, Xinyu

Subjects

*ARTIFICIAL joints, *GRANULATION, *ARTHROPLASTY, *BIOMEDICAL materials, *CHROMIUM oxide, *POWDERS, *SLURRY

Abstract

Zirconia-toughened alumina (ZTA) ceramics have attracted much attention in the medical field as joint replacement materials due to their good mechanical properties and biocompatibility. However, the flexural strength of conventional ZTA is still slightly insufficient in traditional preparation techniques. In this study, by improving the slurry system, the effects of the solid content of the slurry, additives, and the pH of the slurry on the slurry system were investigated. ZTA powders with a uniform particle size distribution, high degree of sphericity and high flowability were prepared by spray granulation. The mechanical properties, microstructure and biocompatibility of the ZTA pressing were investigated after degreasing and sintering processes. The results showed that the hardness of the prepared ZTA ceramics was 1658.24 ± 28.04 H V, the fracture toughness was 4.016 ± 0.027 MPa m1/2, and the biaxial bending strength was 501.43 ± 21.44 MPa, and the three-point bending strength reached 635 MPa. The ZTA ceramics also possessed good biocompatibility and a low haemolysis rate, which aligns with the requirements of clinical biomedical implant materials. [ABSTRACT FROM AUTHOR]

Published

2024

43. Slurry erosion resistance, morphology, and machine learning modeling of plasma-sprayed Si3N4+TiC+VC and CrNi based ceramic coatings.

Author

Singh, Vikrant, Bansal, Anuj, Jindal, Marut, Sharma, Pallavi, and Singla, Anil Kumar

Subjects

*CERAMIC coating, *MACHINE learning, *ARTIFICIAL neural networks, *SLURRY, *PROTECTIVE coatings, *PLASMA spraying, *EROSION

Abstract

This study presents a comprehensive analysis of the morphology, mechanical properties, erosion resistance, and machine learning modeling of Si 3 N 4 +TiC + VC and CrNi based ceramic coatings deposited via plasma spraying. The cross-sectional morphology analysis revealed good mechanical interlocking between the coatings and the substrate, with pores predominantly observed in the Si 3 N 4 +TiC + VC coating. The coating thicknesses were measured as follows: 260 μm for Si 3 N 4 +TiC + VC, 243 μm for Si 3 N 4 +TiC + VC blended with CrNi, and 232 μm for pure CrNi coating. Mechanical characterization showed that microhardness values ranged from 1933 HV for Si 3 N 4 +TiC + VC coating to 499 HV for pure CrNi coatings. Slurry erosion tests demonstrated that pure Si 3 N 4 +TiC + VC coating exhibited superior erosion resistance at 90° impingement angle compared to other coatings. Additionally, a rigorous evaluation of over 20 machine learning regression models revealed that Gaussian Process Regressors and Artificial Neural Network (ANN) with a layer size of 20, displayed satisfactory performance in modeling mass loss prediction. The erosion mechanisms observed in the coatings provided valuable insights into their response to slurry erosion, highlighting the influence of coating composition and impingement angles. The findings underscore the potential of Si 3 N 4 +TiC + VC ceramic coatings to enhance the erosion resistance of stainless steel, offering promising applications in various industries. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

44. Y2O3-doped BST flexoelectric ceramic energy harvester.

Author

Yan, Dongxian, Fu, Zhipeng, Liu, Jun, Bi, Kai, Tang, Jian, and Liu, Hongguang

Subjects

*ELECTRIC power, *ENERGY harvesting, *SANDWICH construction (Materials), *WIND power, *RENEWABLE energy sources, *ENERGY conversion, *SLURRY

Abstract

The study employed the water-based casting technique to prepare BST sheets, which were then combined with PDMS to BST composite sheets for wind energy harvesting. By adding 0.3–1.2 mol% Y 2 O 3 as an additive, the dielectric constant and the flexoelectric coefficient of the BST sheets were significantly enhanced. The Y 2 O 3 and BST powders were mixed to form a casting slurry with the appropriate viscosity, which was then cast into a sheet. After the sintering process, silver electrodes were coated on both surfaces of the sheet. To enhance the flexibility of the sheet, PDMS was applied to the silver-coated surfaces, creating a "sandwich structure" composite sheet. The flexoelectric properties of the composite sheets are characterized utilized the micro cantilever beam method. The energy harvesting experiments, conducted in a simulated wind tunnel environment, demonstrate that the composite sheets exhibit varying flexoelectric properties and energy conversion efficiencies, depending on their thickness. When the doping amount of Y 2 O 3 is 0.6mol%, the composite sheets with a BST layer thickness of 200 μm exhibit the highest flexoelectric coefficient of 1.1 μC/m; the composite sheets with a BST layer thickness of 100 μm exhibit the strongest current output capability of 4.2 nA. These findings indicate that the developed composite sheets could be promising for applications in renewable energy harvesting, particularly for capturing and converting wind energy into useable electrical power. [ABSTRACT FROM AUTHOR]

Published

2024

45. Study on the formation and dewatering process of the surface filter cake of geotextile on the lateral boundary of geotextile tubes under constant flow grouting.

Author

Mingqiang Sheng, Qixin Zhu, Faming Huang, Chun Zou, Yang Gao, Xinxin Liu, Jifei Cui, Yajun Li, and Ruping Luo

Subjects

GROUTING, SLURRY, CAKE, TUBES, SILT, COMPUTER simulation, DRAINAGE

Abstract

In this article, physical model test and numerical simulation are used to study the formation of filter cake and the filtration performance of the geotextile on the lateral boundary of the ultra-fine tailings grouting geotextile tubes from macro and micro levels. At the macro level, the effects of different grouting flow rates and tailings slurry mass concentrations on the surface filter cake formation and the dehydration performance of geotextile on the lateral boundary of the geotextile tubes were analyzed. At the micro level, the use of CFD-DEM method for fluid and particle of two-way coupling numerical simulation research, lateral drainage boundary of superfine tailings in tubes filter cake forming process is analyzed. The research shows that the increase of grouting flow rates and tailings slurry mass concentrations will make the thickness of filter cake great and the structure more compact, which will lead to more serious silting of the surface layer of geotextile and greatly reduce the dehydration performance; The numerical simulation results regularity is consistent with the results regularity of physical model test on the formation of filter cake on geotextile surface of geotextile tubes: the larger the slurry inlet speed and particles concentrations, the more complete the formation of filter cake on geotextile surface, the denser the cake structure, and the less tailings loss. By studying the effects of grouting flow rates and slurry mass concentrations on the surface filter cake formation and tubes dehydration, this article aims to find suitable slurry filling construction conditions and explore the main influencing factors caused by dehydration and consolidation of ultra-fine tailings grouting geotextile tubes, so as to provide some help for the subsequent flocculating of ultra-fine tailings to solve the problem of surface drying and internal wetting of geotextile tubes. [ABSTRACT FROM AUTHOR]

Published

2024

46. Bedding material properties and slurry C/N ratio affect the availability of nitrogen in cattle slurry applied to soil.

Author

Andersson, Karin, Dahlin, A. Sigrun, Sørensen, Peter, and Delin, Sofia

Subjects

SANDY loam soils, AGRICULTURAL productivity, SLURRY, WOOD waste, STRAW

Abstract

Introduction: Cattle slurry used as fertilizer in crop production is a mix of feces, urine, water, and bedding material from the housing system. Previous studies have shown that slurry nitrogen (N) availability to crops is dependent onC/Nratio. As the bedding material can contribute a significant part of total slurry carbon (C), its characteristics may affect the C/N ratio of the slurry. There is increasing interest in using the solid fraction from mechanical slurry separation as bedding material, and therefore this study investigated the potential effect of this fraction on slurry N availability, compared with more commonly used bedding materials such as straw and sawdust. Methods: In two parallel 28-day laboratory incubations, net mineral N release and Cmineralization fromslurries applied to sandy loam soil weremeasured. The slurries comprised a liquid fraction (LF) from mechanical cattle slurry separation with a screw-press and different added bedding materials. Liquid fraction was mixed with two types of bedding material, solid slurry fraction (SF) and chopped straw, in different proportions, resulting in C/N ratios of 10, 12, and 14 in the slurry. In additional treatments, two other bedding materials, ground straw and sawdust, with slurry C/N ratio 12, were used. Results: For SF and chopped straw, similar negative linear correlations were seen between slurry C/N ratio and net mineral N release after 28 days. Carbon mineralization, expressed as a percentage of total C added, was higher from the mixture containing SF than that containing straw, while no clear relationship with C/N ratio was found. At slurry C/N ratio 12, net release of mineral N was 28-39% of total N and decreased in the order: sawdust>chopped straw=SF=ground straw. Net C mineralization at the same slurry C/N ratio was 33-46% and decreased in the order: SF=ground straw>chopped straw>sawdust. Discussion: For bedding materials with similar fiber composition (i.e., SF and straw), differences in C availability due to particle size or degree of degradation by microorganisms did not influence slurry N availability measurably. For sawdust, with high lignin content, the results indicate that limited C availability may lead to lower slurry N immobilization. [ABSTRACT FROM AUTHOR]

Published

2024

47. 十二烷基化淀粉浆料的制备及浆纱性能.

Author

沈阿妮, 尹伊秋, 乔锦玉, 王瑞瑞, 沈艳琴, 姚一军, and 武海良

Subjects

*COTTON yarn, *COTTON fibers, *INFRARED spectroscopy, *SLURRY, *YARN

Abstract

In order to improve the shortcomings of brittle and hard corn starch slurry. the corn starch was oxidized and etherified with bromododecane under alkaline conditions to prepare do- decylated starch slurry with excellent toughness. Infrared spectroscopy was used to characterize the prepared dodecylated starch slurry, and the performance indexes of slurry and slurry film were tested. The sizing properties of 14. 6 tex cotton yarn were sipped with a slurry formulation contai- ning dodecylated starch and phosphate starch. respectively. The results show that the alkyl chain was successfully introduced into the starch structure to obtain a dodecylated starch slurry. The dodecylated starch slurry forms a film, the film is soft, and the adhesion to cotton fiber is good; By using dodecylated starch sizing. the hairiness reduction rate and yarn reinforcement rate of yarn were better than those of phosphate starch sizing. [ABSTRACT FROM AUTHOR]

Published

2024

48. Continuous Biogas Slurry Substitution of Chemical Fertilizer with Wheat/Maize Straw Return Alters Surface and Subsoil Physicochemical and Aggregate Properties Differently.

Author

Pan, F. F., Pan, S., Tang, J., and Chen, B. H.

Subjects

*BIOGAS, *SLURRY, *FERTILIZERS, *STRAW, *SOIL fertility, *SUBSOILS, *WHEAT straw, *POTASSIUM

Abstract

Biogas slurry is increasingly adopted as a substitute for chemical fertilizer to improve soil fertility and control soil degradation. But little is known about its long-term effects on different soil layers. This study aims to test if biogas slurry substitution alters soil nutrients and aggregates differently in different layers and how the effects are influenced by straw return. A five-year field trial of a winter wheat–summer maize rotation was established to evaluate the effects of biogas slurry substitution [treatments: control without fertilizer (CK); chemical fertilizer (CF); 50% biogas slurry substitution (BSCF); 100% biogas slurry substitution (BS)] on two soil layers (0–20 and 20–40 cm) under equal N, P, and K fertilization in a Fluvisol. The result showed that compared with CK, fertilization was necessary to maintain soil available nitrogen (AN) and available potassium (AK) in the 0–20 cm layer. Also, fertilization had positive effects on soil EC, TN, and AP, especially in the topsoil. In terms of increasing the degree of water-stable macroaggregation, improving aggregate stability and reducing their crushing rates, CF was superior to biogas slurry substitution because of the greater accumulations of soil N, the most important physicochemical factor regulating soil macroaggregation and stability. The effects of biogas slurry substitution changed with soil layers. In surface soil, BD, water-stable macroaggregates, and aggregate stability significantly increased due to the positive regulatory effects of straw, AP, and EC; whereas in subsoil, they decreased. Inorganic fertilization with straw return functions well in soil structural degradation control and N fertility improvement, especially in the topsoil. Whereas in fields without straw return, biogas slurry substitution may be a feasible and economical choice to improve topsoil structure and also an excellent supplement to provide P and K. [ABSTRACT FROM AUTHOR]

Published

2024

49. Enhancement of Fermentation Performance in the Anaerobic Co-Digestion of Chicken Manure and Corn Straw under Biogas Slurry Reflux via Air Stripping of the Digestate.

Author

Zhu, Jiaoning, Zhang, Jingxuan, Tang, Yun, Zhang, Xiaoyuan, Shi, Xiangyuan, Wang, Xiuhong, and Li, Yongping

Subjects

*POULTRY manure, *CORN straw, *ANAEROBIC digestion, *BIOGAS, *SLURRY, *BIOGAS production

Abstract

Ammonium inhibition is a key limiting factor for anaerobic digestion when using chicken manure as the main substrate, especially in a digestion system with biogas slurry reflux. Air stripping is usually used as a recycled biogas slurry treatment. In this study, we carried out the anaerobic co-digestion of chicken manure and corn straw. The fermentation performance was investigated with and without air stripping at different biogas slurry reflux ratios and with an increasing organic loading rate. The results show that air stripping enhanced biogas production, system stability, and volatile solid removal efficiency via the mitigation control of ammonium inhibition. The total ammonium nitrogen in the digesters with air stripping was 20.24–46.40% lower than in those without air stripping. The highest specific biogas production and volatile solid removal efficiency values were obtained in the digesters at an organic loading rate of 3.3 g volatile solid (VS)/(L·d) and a reflux ratio of 75% with air stripping, reaching 480.43 mL/gVSadd and 63.36%, respectively. Moreover, air stripping also improved the organic loading rate and reflux ratio. Stable operation was achieved at an organic loading rate of 5.3 gVS/(L·d) and a reflux ratio of 75%, with specific biogas production of 392.35 mL/gVSadd and a volatile solid removal efficiency of 50.33%. The fermentation performance deteriorated when the organic loading rate was increased to 8.0 gVS/(L·d) at a reflux ratio of 75%, even when air stripping was conducted, indicating that a slighter lower reflux ratio (50%) could be more feasible at a higher organic loading rate (8.0 gVS/(L·d). Additionally, the methanogen community structure varied according to the use of air stripping, with a shift in the methanogenic pathway from hydrogenotrophic to acetoclastic methanogens. Overall, our findings support the adoption of air stripping for ammonium mitigation in anaerobic digestion with biogas slurry reflux. [ABSTRACT FROM AUTHOR]

Published

2024

50. Assessing Water Erosion Improvement in Beach Sand Treated with Bioslurry Using a Surface Percolation Technique.

Author

Schmillen, Peter E., Booshi, Saeed, Macias, Joana, Kosovac, Amar, Crowley, Raphael, Ellis, Terri N., and Wingender, Brian

Subjects

*BEACH erosion, *BEACHES, *PERCOLATION, *SLURRY, *COASTAL changes, *SAND, *SCANNING electron microscopy, *RESEARCH personnel

Abstract

Over the last 15 years, microbially induced calcite precipitation (MICP) has emerged as a possible solution to mitigate coastal erosion. To date, most MICP soil treatments that have been studied involve column injection using a pump. In recent years, MICP application through surface percolation has gained traction as an alternative technique, but data using this technique are limited. More recently, a new treatment recipe/technique was developed, and this technique was termed bioslurry. Like most MICP studies, research with bioslurry has concentrated on the column injection method, and surface percolation has received very limited attention. This paper discusses the treatment of Florida beach sand by surface percolating bioslurry. Researchers experimented with variations of the bioslurry recipe to optimize erosion resistance, which was assessed using a pocket erodometer combined with physical measurements. In addition, treated specimen morphology was preliminarily examined using X-ray diffraction and scanning electron microscopy. Results showed that erosion resistance was maximized when 15% to 25% of the specimens' pore volumes were filled with bioslurry and that this erosion resistance may be sufficient to withstand worst-case storm events after only one treatment. In addition, previous researchers always used a relatively long (i.e., ∼12 h) stir time when preparing bioslurry. Results presented here show that it may be possible to produce comparable data with much shorter stir times (i.e., 1 to 2 h). [ABSTRACT FROM AUTHOR]

Published

2024