Showing total 8,811 results

1. Paper Strip and Ceramic Potentiometric Platforms Modified with Nano-Sized Polyaniline (PANi) for Static and Hydrodynamic Monitoring of Chromium in Industrial Samples.

Author

Hassan SSM, Kamel AH, Amr AEE, Fathy MA, and Al-Omar MA

Subjects

Accidents, Occupational, Hydrodynamics, Hydrogen-Ion Concentration, Nanoparticles, Paper, Plasticizers chemistry, Polymers chemistry, Potentiometry, Spectrophotometry, Atomic, Aniline Compounds chemistry, Biosensing Techniques methods, Ceramics chemistry, Chromium analysis

Abstract

Screen-printed membrane sensors based on the use of paper and ceramic substrates are fabricated, characterized, and used for rapid batch and continuous monitoring of Cr III in the form of CrO 4 in some industrial products and wastewater samples. Strips of paper and ceramic platforms (15 × 5 mm) were covered with conductive carbon paint and then modified with polyaniline (PANI) film, to act as an ion-to-electron transducer, followed by a drop casting of plasticized poly (vinyl chloride) (PVC) Rhodamine-B chromate membrane as a recognition sensing material. In a 5.0 mmol L 2- Trizma buffer solution of pH ~8, the fabricated paper and ceramic based membrane sensors exhibited a near Nernstian response for Cr -1 Trizma buffer solution of pH ~8, the fabricated paper and ceramic based membrane sensors exhibited a near Nernstian response for Cr VI ion with slopes of -29.7 ± 0.5 and -28.6 ± 0.3 mV decade -1 , limit of detection 2.5 × 10 -5 and 2.4 × 10 -6 mol L -1 (1.3-0.12 µg mL -1 ), and linear concentration range 7.5 × 10 -3 -5.0 × 10 -5 and 7.5 × 10 -3 -1.0 × 10 -5 mol L -1 (390-0.5 µg mL -1 ), respectively. Both sensors exhibited fast and stable potentiometric response, excellent reproducibility, and good selectivity with respect to a number of common foreign inorganic species. Impedance spectroscopy and chronopotentiometry data revealed a small resistance and a larger double layer capacitance due to the presence of the intermediate polyaniline (PAN) conductive layer. Furthermore, the formation of a water layer between the ion selective membrane (ISM) and the underlying conductor polymer and between the conducting polymer and the carbon conducting surface was greatly reduced. The developed disposable solid-contact potentiometric sensors offer the advantages of simple design, long term potential stability, flexibility, miniaturization ability, short conditioning time, and cost effectiveness that enable mass production. The sensors were successfully used for static and hydrodynamic measurements of total chromium in some leather tanning wastewater and nickel-chrome alloy samples. The results compare favorably with data obtained by atomic absorption spectrometry., Competing Interests: The authors declare no conflict of interest.

Published

2020

2. Non-solvent displacement nonaqueous precipitation fabrication of novel foldable HAp ceramic paper without fiber and its performance.

Author

Feng, Guo, Huang, Xiaolong, Zheng, Entao, Jiang, Feng, Yang, Qing, Jin, Wenwei, Wu, Qian, Liu, Jianmin, Wang, Dahai, and Huang, Yongen

Subjects

*CERAMICS, *TRANSMISSION electron microscopy, *CERAMIC fibers, *FIREPROOFING agents, *SCANNING electron microscopy, *NANOFIBERS

Abstract

Novel highly foldable HAp ceramic paper with fire retardancy but without fiber was fabricated via novel non-solvent displacement nonaqueous precipitation strategy. The obtained HAp ceramic paper, characterized by highly smooth and glossy, is characterized via X-ray diffraction (XRD), field-emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM), curlability test, moisture absorbency and Pb2+ removal performance test. The results show that the ceramic paper is very straight, uniform, and smooth with high curlability and low moisture absorption. No fiber is detected in the ceramic paper. No defect is either detected except for at the edge area. The HAp ceramic paper is grown along the (002) crystal plane of the hydroxyapatite phase from hexagonal plate like single crystal sheets. The ceramic paper loaded for four times has formed a clear four-layer-structured, with a total thickness of about 832 nm. The thickness of each layer is very uniform, with an average thickness of about 208 nm per layer. HAp ceramic paper has excellent Pb2+ ions removal performance, curling performance, moisture absorption performance and flame retardant performance. These performances confirm this novel HAp ceramic paper has superior properties over the traditional ceramic paper with fibers and shows great application prospect in various fields. [ABSTRACT FROM AUTHOR]

Published

2024

3. Guest Editorial: Selected extended papers from the International conference of the 19th Asian BioCeramic Symposium.

Subjects

Congresses as Topic, Humans, Publishing, Societies, Scientific, Biocompatible Materials, Ceramics

Published

2020

4. Novel ceramic paper structures for diesel exhaust purification.

Author

Leonardi SA, Tuler FE, Gaigneaux EM, Debecker DP, Miró EE, and Milt VG

Subjects

Calcium Compounds, Catalysis, Cerium chemistry, Cobalt chemistry, Oxidation-Reduction, Oxides, Silicon Dioxide, Soot chemistry, Titanium, Vehicle Emissions prevention & control, Air Filters, Ceramics chemistry, Vehicle Emissions analysis

Abstract

The catalytic combustion of diesel soot is addressed with flexible and structured "paper catalysts". Two different series of catalysts were prepared either by drip impregnation or by a spray method to deposit a mixture of Co, Ba, and K or a mixture of Co and Ce onto SiO 2 -Al 2 O 3 ceramic paper matrixes. In every case, CeO 2 nanoparticles were added to bind the ceramic fibers. SEM images showed that the impregnation method generated catalytic particles concentrated as large chunks (> 10 μm), mainly at ceramic fiber crossings, whereas the spray method produced smaller catalytic particles (< 1 μm) well distributed throughout the ceramic paper. Besides, Co-Ba-K particles appeared better dispersed on the surface of ceramic fibers than Co-Ce due to the presence of K. Additionally, FTIR spectra showed the formation of O 2 2- and O 2 (binder) on the samples containing potassium which gave the Co-Ba-K-ceramic paper good catalytic properties, thus making the Co-Ba-K drop impregnated the best catalyst both considering activity and stability. Successive temperature programmed oxidation (TPO) runs up to 700 °C caused the formation of cobalt silicates in the catalytic ceramic paper prepared by the spray method, as indicated by TPR. The formation of these species was probably favored by the smaller size of cobalt particulates and their higher dispersion in the catalysts prepared by the spray method. This provoked the partial loss of the redox properties of Co - species associated with CeO 2 (binder) on the samples containing potassium which gave the Co-Ba-K-ceramic paper good catalytic properties, thus making the Co-Ba-K drop impregnated the best catalyst both considering activity and stability. Successive temperature programmed oxidation (TPO) runs up to 700 °C caused the formation of cobalt silicates in the catalytic ceramic paper prepared by the spray method, as indicated by TPR. The formation of these species was probably favored by the smaller size of cobalt particulates and their higher dispersion in the catalysts prepared by the spray method. This provoked the partial loss of the redox properties of Co 3 in Ba-containing ceramic paper, which could help in maintaining the catalyst activity after several TPO runs through the capacity of this mixed perovskite-type oxide to trap and release NO 4 . TPR experiments also indicated the formation of BaCoO 3 in Ba-containing ceramic paper, which could help in maintaining the catalyst activity after several TPO runs through the capacity of this mixed perovskite-type oxide to trap and release NO x .

Published

2018

5. Microstructure and mechanical properties of multilayer SiC nanofiber paper‐reinforced SiC composites by the NITE method.

Author

Chen, Hao, Chen, Jianjun, Yang, Jiahao, Ahmad, Zahoor, Zhu, Mingming, Xiong, Yilian, Tao, Jiyu, and Li, Jinxia

Subjects

*MICROSTRUCTURE, *FRACTURE toughness, *CERAMIC-matrix composites, *BORON nitride, *NANOFIBERS, *CERAMICS, *SINTERING

Abstract

In this work, stacked SiC fibers paper‐reinforced SiC ceramic matrix composites (SiCnf/SiC CMCs) were prepared by nanoimpregnation and transient eutectic (NITE) process using ultra‐long single‐crystal SiC nanofibers. The effect of the SiCnf surface modification via boron nitride (BN) interphase deposition as well as the sintering additive (Al2O3–Y2O3) content on the density, microstructure, and mechanical properties of SiCnf/SiC CMCs has been investigated systematically. The results revealed that the laminated SiCnf/SiC CMCs feature a significant saw‐tooth‐like curve on the load–displacement test, which indicates that the obtained laminated structure with the weak interlayer binding owning to the BN coating treatment possesses significant toughening to the SiC ceramics. Specifically, the SiCnf/SiC CMCs with the sintering additive content of 12 wt% revealed a fracture toughness of over 10 MPa m1/2 after 60 min of BN interface deposition, which is 104.31% higher than that of the composites prepared without BN coating. [ABSTRACT FROM AUTHOR]

Published

2024

6. Porous SiC ceramic obtained by spark plasma sintering of preceramic paper: Microstructure, mechanical properties and gas permeability.

Author

Sedanova, E.P., Kashkarov, E.B., Lider, A.M., and Travitzky, N.

Subjects

*CERAMICS, *MICROSTRUCTURE, *PERMEABILITY, *SINTERING, *BENDING strength, *SCANNING electron microscopy

Abstract

This paper describes the fabrication and characterization of porous SiC ceramics derived from highly-filled preceramic papers. The SiC ceramics were obtained by spark plasma sintering of stacked preceramic papers at temperatures of 2100 and 2200 °C under pressures of 5–60 MPa for 10 min. The microstructure and phase composition were analyzed by scanning electron microscopy and X-ray diffraction, respectively. Gas permeation tests were performed using hydrogen permeation cell at room temperature. It is revealed that the porosity of sintered SiC can be varied from 9 to 45 % depending on the sintering parameters. The shrinkage of the materials during spark plasma sintering occurs in four stages. The linear shrinkage value of the material increases from 7 to 47 % at 2100 °C and from 20 to 50 % for the samples sintered at 2100 and 2200 °C, respectively. Correlation dependencies between porosity and mechanical properties of the fabricated SiC were established. The obtained porous SiC ceramics exhibit high bending strength of 165 MPa and gas permeation flux of 78 molH 2 /m2/s at the porosity of 36 % that make it suitable for ceramic-based membranes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Sintering simulations for ceramic multilayer laminates with paper-derived ceramics: From sintering dilatometry to anisotropic sintering simulation.

Author

Manière, Charles, Lecourt, Jérome, Dermeik, Benjamin, Schmiedeke, Samuel, and Travitzky, Nahum

Subjects

*LAMINATED materials, *SINTERING, *DILATOMETRY, *THERMAL shock, *CERAMIC fibers

Abstract

Alumina-based multilayer laminates with layers of varied porosities and ceramic fiber reinforcements, which can be achieved by including paper-derived ceramic layers, are interesting candidates for chemically stable and thermal shock resistant materials. In order to investigate the complex sintering behavior of these laminates, the sintering of each alumina layer contained within a laminate, each one with its individual sintering anisotropy and sintering shrinkage, has to be considered separately. For this purpose, sintering curves are determined by dilatometry measurements, serving a consecutive examination by an analytical model. Modeling parameters specific to each layer, are applied in finite-element-type sintering simulations for symmetrical multilayer laminates. Differences in the sintering shrinkages may cause internal stresses at layer interfaces and, in turn, may influence the thermal and mechanical properties of multilayer laminates after sintering. Accordingly, the prediction of developing internal stresses within alumina-based multilayer laminates by the presented sintering simulations is a key aspect of this study. [Display omitted] • Individual laminates sintering dilatometry. • Anisotropic sintering assessment by analytic modeling. • Finite element simulation of multilayer laminates sintering. [ABSTRACT FROM AUTHOR]

Published

2024

8. Tailoring the micro- and nanostructure of polymer-derived ceramic papers.

Author

Peter, Johannes, Ionescu, Emanuel, and Kleebe, Hans-Joachim

Subjects

*CERAMICS, *TRANSMISSION electron microscopy, *CELLULOSE fibers, *NANOPARTICLES, *TRANSITION metals

Abstract

Through the pyrolysis of cellulose-based paper templates infiltrated with a suitable polymer precursor, ceramic composites exhibiting a paper-like structure can be conveniently prepared. Such polymer-derived ceramic papers (PDCPs) unite the unique morphology of regular cellulose papers with the properties of the ceramic system utilized. Here, two paper templates, made from eucalyptus and cotton, respectively, were infiltrated with two polysilazane-based polymer precursors modified with either Fe, Ni, or Pd and converted into multi-phasic ceramic papers. In addition to the type of paper template, precursor composition, and transition metal used, the present study aims to rationalize the influence of pyrolysis temperature and atmosphere on the morphology, microstructure, and phase composition of the ceramic papers generated. For this purpose, scanning electron microscopy, SEM, and (scanning) transmission electron microscopy, (S)TEM, in conjunction with EDS analyses were used to elucidate the microstructural features of the ceramic composites in great detail. It is shown that the transition metals precipitate as nanosized metallic particles and silicides in the case of Pd and Ni, while the introduction of Fe features oxide and carbide phases in addition to that. Moreover, the metals catalyze both the graphitization of the cellulose fibers and, at higher temperatures, the generation of whisker-like Si-based nanostructures composed of either SiC or Si 3 N 4 , depending on the processing atmosphere used. [ABSTRACT FROM AUTHOR]

Published

2023

9. Original scientific paper examination of influence sintering temperature on mineral compounds

Author

Đorđević Nataša and Mihajlović Slavica

Subjects

ceramics, cordierite, x-ray diffraction, sem, eds, Geology, QE1-996.5

Abstract

Mineral materials, such as corundum, quartz and periclase are very often used in technological processes. Due to its characteristics, and chemical reaction in solid state, these minerals form very interesting and useful material, cordierite. The mineral ratio in this compound (MgO : Al2O3 : SiO2) is 2:2:5. They form cordierite, electronic ceramic, which can be sintered in a narrow temperature range, at about 1375 °C. Composition of this electronic ceramics material is is 2MgO-2Al2O3-5SiO2 (MAS) and in this research 20% mass Bi2O3 was added in the aim of decrease the sintering temperature. The effects of sintering, the composition and morphology were followed by x-ray diffraction, scanning electron microscopy and EDS analysis, as a function of sintering temperature. MAS ceramics were sintered at 1000ºC, 1100ºC and 1200ºC.

Published

2022

10. Accelerated thermal aging of Kraft papers impregnated with dielectric liquids.

Author

Chairul, Imran Sutan, Bakar, Norazhar Abu, Ab Ghani, Sharin, Khiar, Mohd Shahril Ahmad, Rahim, Nor Hidayah, and Arshad@Hashim, Syahrun Nizam Md

Subjects

KRAFT paper, LIQUID dielectrics, INSULATING oils, TENSILE strength, METAL catalysts, POPULATION aging, CERAMICS

Abstract

Accelerated thermal aging was conducted on Kraft papers impregnated with mineral insulating oil (MO) and palm insulating oil (PO), and the effect of aging time on the oils and Kraft papers was observed. Each sample consisted of insulating oil, dried Kraft paper, and weighed metal catalysts (copper, iron, zinc, and aluminum) in a bottle. Prior to aging, the bottles were left for 24 h at room temperature for impregnation to take place. The thermal aging experiments were carried out at 130 °C for 250, 500, and 750 h. The properties of the MO and PO (moisture content, acidity, and ultraviolet-visible absorption spectra) and the properties of the Kraft papers (tensile strength and colour) were determined. Results showed that the aged PO had higher moisture content compared with the aged MO. However, the Kraft papers impregnated with PO had better tensile strength after 750 h of aging, which may be attributed to the affinity of PO to moisture. This slows down the hydrolytic degradation mechanism. In terms of colour, the Kraft papers were darker than their original colour as the tensile strength decreased. To conclude, the Kraft paper impregnated with PO had higher tensile strength compared with those impregnated with MO. [ABSTRACT FROM AUTHOR]

Published

2023

11. Paper industry slag for the production of building ceramics.

Author

Zalyhina, Volha, Cheprasova, Victoria, and Romanovski, Valentin

Subjects

PAPER industry, CERAMICS, SAND, HEAT treatment, MOLDING of plastics, SLAG

Abstract

Background: Re‐use of wastes as a part of sustainable development is one of the most important aspects of a healthy human life and environmental protection. This study examines the viability of using paper industry slag for the production of building ceramics. Results: Paper industry slag was used in the production of ceramic bricks as a burnable additive in amounts of 5, 10 and 15 wt%. The slag was introduced without and after three different preparatory operations: dried, dried and ground, granulated and dried. Clay was used as a raw material and quartz sand as a lean additive. The samples were made by plastic molding. Drying was carried out at a temperature of 100 °C. To determine the optimal heat treatment temperature, firing was carried out at 900, 950, 1000 and 1050 °C with holding at the maximum temperature for 30 min, followed by determination of the properties of the samples. Conclusions: It has been established that the samples obtained using the slag have good physical and mechanical properties and comply with current standards. At the same time, the use of slag in the production of ceramic bricks makes it possible to solve the problem of waste management, as well as to obtain a secondary material resource from the slag – a burnable additive, which leads to savings in raw materials and energy resources in the production of ceramic bricks. © 2022 The Authors. Journal of Chemical Technology and Biotechnology published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry (SCI). [ABSTRACT FROM AUTHOR]

Published

2022

12. Ceramic Papers as Structured Catalysts: Preparation and Application for Particulate Removal.

Author

Leonardi, Sabrina A., Miró, Eduardo E., and Milt, Viviana G.

Subjects

*CERAMICS, *CERAMIC fibers, *OXIDE ceramics, *CATALYSTS, *POLYELECTROLYTES, *FIBERS

Abstract

Fibers represent a type of structure of great interest in catalysis since they combine high area to volume ratio and can be fabricated from many types of materials, such as ceramic oxides, polymers, and alloys. They can be used in isolated form or structured, as in the case of the ceramic papers synthesized in this work, following a modified papermaking technique. The addition of cationic and anionic polyelectrolytes improved the retention of ceramic fibers during the ceramic paper formation stage by adsorption processes, through the formation of floccules. In the complex aqueous system containing charged macromolecules, the amounts of polyelectrolytes to be added were determined by titrations. To enhance mechanical properties of ceramic papers, different classes of nanoparticle suspensions can be used as binders. As a novel alternative, we have used different borate-type compounds. Among them, we selected natural ulexite, which was purified and used as a binder of ceramic fibers. In order to improve mechanical resistance and flexibility, measured from tensile indexes and elastic module, the amounts of NaCaB5O6(OH)6.5H2O and the calcination temperature were varied. In this contribution, to take advantage of the unique characteristics of the ulexite-containing ceramic papers, they were impregnated with Co,Ce and Co,Ba,K and tested for diesel soot combustion. [ABSTRACT FROM AUTHOR]

Published

2022

13. Western Ceramic Traditions: Prehistoric and Historic Native American Ceramics of the Western U.S.: edited by Suzanne Griset. 224 pp., 19 maps, 25 photographs, 14 charts, 3 drawings, 46 tables, Preface, References, List of Contributors. University of Utah Anthropological Papers Number 135, University of Utah Press, Salt Lake City, 2022, $40.00 (Paper). ISBN 9781647690427. eBook available

Author

Reed, Lori Stephens

Subjects

*NATIVE Americans, *ELECTRONIC books, *CERAMICS, *CULTURAL pluralism, *DESERTS, *GROUP identity

Abstract

The book "Western Ceramic Traditions: Prehistoric and Historic Native American Ceramics of the Western U.S." edited by Suzanne Griset explores the diversity of ceramic traditions and social identities reflected in pottery production in the far southwestern desert and coastal region of the U.S. The book features 11 chapters that critically examine traditional typologies of plainware pottery and explore new datasets for dating and identifying the composition of pottery. The volume provides important discussions on the sociocultural aspects of pottery technology and challenges the limitations of typological classification. The book is recommended for researchers working with plainware or other ceramic wares, although the technical ceramic data presented may be daunting for readers without an archaeological or ceramic analyst background. [Extracted from the article]

Published

2023

14. Additive manufacturing of continuous carbon fiber reinforced high entropy ceramic matrix composites via paper laminating, direct slurry writing, and precursor infiltration and pyrolysis.

Author

Zhang, Lu, Wang, Wenqing, Gao, Xiong, Li, Suwen, Gui, Kaixuan, Wang, Gang, and He, Rujie

Subjects

*CARBON fibers, *CERAMICS, *ENTROPY, *PYROLYSIS, *POWDERS, *LAMINATED materials, *SLURRY

Abstract

In this study, continuous carbon reinforced C f /(Ti 0.2 Zr 0.2 Hf 0.2 Nb 0.2 Ta 0.2)C–SiC high entropy ceramic matrix composites were additively manufactured through paper laminating (PL), direct slurry writing (DSW), and precursor infiltration and pyrolysis (PIP). (Ti 0.2 Zr 0.2 Hf 0.2 Nb 0.2 Ta 0.2)C high entropy ceramic (HEC) powders were synthesized by pressureless sintering and ball milling. A certain proportion of HEC powder, SiC powder, water, binder, and dispersant were mixed to prepare the HEC-SiC slurry. Meanwhile, BN coating was prepared on the 2D fiber cloth surface by the boric acid-urea method and then the cloth was cut into required shape. Additive manufacturing were conducted subsequently. Firstly, one piece of the as-treated carbon fiber cloth was auto-placed on the workbench by paper laminating (PL). Then, the HEC-SiC slurry was extruded onto the surface of the cloth by direct slurry writing (DSW). PL and DSW process were repeated, and a C f /HEC-SiC preform was obtained after 3 cycles. At last, the preform was densified by precursor infiltration and pyrolysis (PIP) and the final C f /HEC-SiC composite was prepared. The open porosity of the C f /HEC-SiC composites, with the HEC volume fractions of 15, 30 and 45%, were 7.7, 10.6, and 11.3%, respectively. And the density of the C f /HEC-SiC composites, with the HEC volume fractions of 15, 30 and 45%, were 2.9, 2.7 and 2.3 g/cm3, respectively. The mechanical properties of the C f /HEC-SiC composites increased firstly and then decreased with the HEC content increase, reaching the maximum value when the HEC volume fraction was 30%. The mechanical properties of the C f /HEC-SiC composites containing 45, 30 and 15% HEC were as follows: flexural strength (180.4 ± 14 MPa, 183.7 ± 4 MPa, and 173.9 ± 4 MPa), fracture toughness (11.9 ± 0.17 MPa m1/2, 14.6 ± 2.89 MPa m1/2, and 11.3 ± 1.88 MPa m1/2), and tensile strength (71.5 ± 4.9 MPa, 98.4 ± 12.2 MPa, and 73.4 ± 8.5 MPa). From this study, the additive manufacturing of continuous carbon fiber reinforced high entropy ceramic matrix composites was achieved, opening a new insight into the manufacturing of ceramic matrix composites. [ABSTRACT FROM AUTHOR]

Published

2023

15. Ce-Mn oxides synthesized with citric acid on ceramic papers used as diesel particulate filters.

Author

Sacco, N.A., Bortolozzi, J.P., Milt, V.G., Miró, E.E., and Banús, E.D.

Subjects

*DIESEL particulate filters, *CITRIC acid, *CERAMICS, *PARTICULATE matter, *CERAMIC fibers, *CERAMIC materials

Abstract

[Display omitted] • Cerium – Manganese Catalytic Ceramic Paper very active for soot oxidation. • Spray method showed to be efficient for anchoring catalytic species on fibers. • Experiments at bench scale showed good soot filtration capacities. • Citric Acid addition during impregnation improved catalytic distribution on fibers. Diesel Particulate filters are considered one of the most efficient technologies to reduce particulate matter emitted by diesel engines. In this paper we study the development of catalytic ceramic papers based on Mn-Ce and their applications as soot particle filters in bench scale tests. Ceramic papers were prepared by a dual polyelectrolyte papermaking method and were impregnated with Mn and Ce precursors through a wet-spray procedure using a commercial fogger. Catalytic ceramic papers were tested as catalysts for the combustion of soot, which was obtained both from the burning of diesel fuel and directly from a bench test. In addition, the filtering capacity of catalytic ceramic papers was tested through opacity measurements by placing the ceramic papers in a suitable case at the end of the engine. Mn-Ce based catalysts were active in the soot combustion. The addition of citric acid considerably improved the catalytic performance of all the systems studied. This beneficial effect of citric acid is related to an improvement in the distribution of the catalytic material onto the ceramic fibers, being the mixed equimolar oxide Mn-Ce the most active catalyst. [ABSTRACT FROM AUTHOR]

Published

2022

16. Conversion of a polysilazane‐modified cellulose‐based paper into a C/SiFe(N,C)O ceramic paper via thermal ammonolysis.

Author

Ott, Alexander, Peter, Johannes, Wiehl, Leonore, Potapkin, Vasily, Kramm, Ulrike I., Kleebe, Hans‐Joachim, Riedel, Ralf, and Ionescu, Emanuel

Subjects

*CELLULOSE fibers, *AMMONOLYSIS, *CERAMICS, *SCANNING electron microscopy

Abstract

Cellulose‐based paper samples were surface‐modified by a polymeric single‐source precursor prepared from perhydropolysilazane (PHPS) and iron(III)acetylacetonate (Fe(acac)3) and ammonolyzed at 500°C, 700°C, 900°C, and 1000°C, leading to C/SiFe(N,C)O‐based ceramic papers with in situ‐generated hierarchical micro/nano‐morphology. As reference, cellulose‐free samples were prepared under the same conditions. Upon thermal treatment, the microstructure evolutions of the resulting ceramic paper and the reference sample were comparatively investigated. Scanning electron microscopy (SEM) showed that for all temperatures, the ceramic papers exhibit the same morphology as the template, however, with noticeable shrinkage and curling, particularly evident at higher temperatures. X‐ray diffraction (XRD) measurements of the reference samples and the ceramic papers showed a similar crystallization behavior and phase evolution in both materials. In the ceramic paper, the crystallization process seems to occur at a later time. The results provide a comprehensive understanding of the investigated C/SiFe(N,C)O‐based ceramic system. It was shown that use of the cellulose‐based paper template has the benefit of retaining the microstructure and furthermore, apart from transforming the cellulose fibers into turbostratic carbon, does not change the phase evolution during the polymer‐to‐ceramic transformation, allowing at the same time the manufacturing of novel morphologically complex parts by a convenient one‐pot synthesis approach. [ABSTRACT FROM AUTHOR]

Published

2022

17. Flexible ceramic based 'paper separator' with enhanced safety for high performance lithium-ion batteries: Probing the effect of ceramics impregnation on electrochemical performances.

Author

Das, Mononita, Ghosh, Kuntal, and Raja, Mir Wasim

Subjects

*CERAMIC materials, *LITHIUM-ion batteries, *ALUMINUM oxide, *CERAMICS

Abstract

Cellulose is now considered as an appealing environment friendly material for the development of sustainable separators for rechargeable batteries. This study thus aims to develop high performance paper based ceramic separators with superior electrolyte wettability (>170 %), high thermal stability (>200 °C) and excellent flame safety. While developing paper based ceramic separator, extensive studies are carried out to understand thenature and functionality of different nano-structured ceramic materials (Al 2 O 3 , BaTiO 3 and ZrO 2) impregnated in paper matrix. Nano-ZrO 2 facilitates an effective pathway for Li +-ion transport (t Li + = 0.51), whereas BaTiO 3 and Al 2 O 3 ceramics show moderate Li +-ion transport properties (t Li+ of 0.29 and 0.30 respectively). Electrochemical Impedance Spectroscopy (EIS) measurement clearly reveals that ZrO 2 exhibits more interfacial compatibility with the electrodes (MCMB and LiNi 1/3 Mn 1/3 Co 1/3 O 2) compared to the other two ceramic separators during full cell operation. The developed paper separators show excellent electrochemical properties in terms of cycling (tested 300 cycles), multi-electrode compatibility and rate capabilities at different current densities of 0.1–1.2 mAcm−2. The pre- and post-electrochemical EIS data reveal that ZrO 2 based impregnation offers significantly lower charge transfer resistance compared to the other two separators. The study thus demonstrates a real promise for its successful application in Li-ion battery towards achieving sustainability and safety. [Display omitted] • Sustainable, flexible and high safety ceramic based paper separators for LIBs. • Separators were developed using easy to scale up wet-coating process. • Ceramic impregnation affects physical and electrochemical properties of the separators. • Paper separators show superior electrolyte wettability and high thermal stability. • Better electrochemical performances and flame safety are other important advantages. [ABSTRACT FROM AUTHOR]

Published

2024

18. Functionally graded laminated composites fabricated from MAX-phase filled preceramic papers: Microstructure, mechanical properties and oxidation resistance.

Author

Kashkarov, E.B., Krotkevich, D.G., Mingazova, Y.R., Pushilina, N.S., Syrtanov, M.S., Lider, A.M., and Travitzky, N.

Subjects

*LAMINATED materials, *CERAMICS, *SIALON, *FUNCTIONALLY gradient materials, *MICROSTRUCTURE, *ALUMINUM oxide, *CORROSION resistance

Abstract

This paper describes the fabrication and characterization of novel preceramic paper-derived functionally graded materials (FGMs) based on Ti 3 (Si,Al)C 2 MAX phase. The FGMs with different architecture were fabricated via spark plasma sintering of stacked preceramic papers at 1250 °C for 5 min. Microstructure, phase composition and elemental distribution were analyzed by scanning electron microscopy, X-ray diffraction and energy-dispersive X-ray spectroscopy, respectively. Oxidation tests were performed in air at 1300 °C for 5 h. FGMs containing Al- and Si-enriched MAX-phase layers were formed. The fabricated materials exhibit high flexural strength (over 600 MPa), which are dependent on microstructure and composition of individual layers as well as the architecture of composites. It was found that texturing of MAX phase grains during SPS results in anisotropic hardness of the composite. The difference in the composition of the individual layers also provides a hardness gradient in the composite. It was shown that the formation of the outer layer from the Al-enriched Ti 3 Al(Si)C 2 MAX phase increases the corrosion resistance of Ti 3 SiC 2 -based composites. The high corrosion resistance of FGMs is due to the growth of a continuous and dense Al 2 O 3 oxide layer. [ABSTRACT FROM AUTHOR]

Published

2022

19. Micro‐/nanostructure evolution of C/SiFeO(N,C) polymer‐derived ceramic papers pyrolyzed in a reactive ammonia atmosphere.

Author

Peter, Johannes, Ott, Alexander, Riedel, Ralf, Ionescu, Emanuel, and Kleebe, Hans‐Joachim

Subjects

*AMMONIA, *CERAMICS, *TRANSMISSION electron microscopy, *CERAMIC coating, *CERAMIC fibers, *SCANNING electron microscopy

Abstract

SiFeO(N,C)‐based ceramic papers were prepared via a one‐pot synthesis approach by dip‐coating a cellulose‐based paper template with a polymeric perhydropolysilazane precursor modified with iron(III)acetylacetonate. The preceramic composites were subsequently pyrolyzed in ammonia atmosphere at 500, 700, and 1000°C, respectively, and the characteristics of the three resulting ceramic papers were comparatively investigated. Scanning electron microscopy revealed that in each sample, the morphology of the template is successfully transferred on the ceramic system, with the cellulose‐derived fibers being converted to elemental carbon encased by a SiFeO(N,C) coating. Electron transparent cross‐sectional samples for transmission electron microscopy (TEM) were prepared from the ceramic papers, employing a standard ultramicrotomy slice cutting procedure, allowing for a detailed characterization of their in situ generated micro‐/nanostructure as well as occurring crystalline phases. TEM imaging and diffraction revealed that depending on pyrolysis temperature a different microstructure with a distinct phase assemblage is generated in the polymer‐derived ceramic papers. Crystallization from the polymer precursor starts with the precipitation of wüstite (Fe(1‐x)O) nanoparticles at 700°C inside the ceramic coating and secondary ε‐FexN at the fiber‐coating interface. Upon pyrolysis at 1000°C however, the sample primarily accommodates metallic α‐iron nanocrystals that impart ferromagnetic characteristics to the ceramic paper. The results show that the template‐assisted polymer‐derived ceramic route is a feasible approach in the production of complex ceramic compounds with fibrous paper‐like morphology. By adjusting the pyrolysis temperature, microstructure and phase composition of the ceramic paper can be conveniently tailored to the needs of its respective application. [ABSTRACT FROM AUTHOR]

Published

2022

20. Preparation and properties of antibacterial food‐preservative paper incorporating ceramic pigments.

Author

Lu, Dongyan, Ning, Yuping, Liu, Xiangyao, Ren, Shixue, Ni, Baoxin, Song, Yang, Li, Jian, Li, Zhiqiang, and Liu, Wenbo

Subjects

ESCHERICHIA coli, ELECTROLESS plating, FOOD preservatives, CERAMICS, CERAMIC powders, VITAMIN C

Abstract

Ag@ceramic composite papermaking pigment was prepared by coating silver onto red ceramic powder using the electroless plating method. SEM and XRD showed that the ceramic pigments have a porous crystalline structure and that silver particles had been successfully loaded onto the surface and into the pores of the Ag@ceramic. Untreated ceramic pigment and Ag@ceramic pigment were incorporated into paper sheets by coating, filling and filling‐coating. Using spinach as an example, the ability of the different papers to preserve food was then evaluated. Four indicators were used to assess the preservative effect of the papers: inhibition of growth of Staphylococcus aureus and Escherichia coli, weight loss of the spinach and retention of vitamin C and chlorophyll in the spinach. Although the ceramic preservative paper has no antibacterial properties, it reduced weight loss from the spinach and increased retention of vitamin C and chlorophyll. The antibacterial preservative papers inhibited the growth of E. coli and S. aureus by >99%, and because of their additional antibacterial activity, these papers preserved the spinach more effectively. The experimental results showed that the antibacterial food‐preservative paper incorporating ceramic pigments had great potential in food packing applications. [ABSTRACT FROM AUTHOR]

Published

2024

21. Poly(vinylidene fluoride-hexafluoropropylene) polymer electrolyte for paper-based and flexible battery applications

Published

2016

22. Development, characterization, and biological study of bioglass coatings 45S5 and BioK on zirconia implant surfaces.

Author

Avelino SOM, Alvares Sobral-Silva L, Thim GP, de Almeida-Silva LA, Dos Santos Lupp J, Campos TMB, and de Vasconcellos LMR

Subjects

Rats, Animals, Rats, Wistar, Osseointegration, Surface Properties, Titanium pharmacology, Titanium chemistry, Coated Materials, Biocompatible pharmacology, Coated Materials, Biocompatible chemistry, Microscopy, Electron, Scanning, Prostheses and Implants, Dental Implants, Ceramics, Zirconium

Abstract

Zirconia implants are gaining attention as a viable alternative to titanium implants due to their comparable osseointegration development, improved soft tissue adaptation, and enhanced aesthetics. An encouraging avenue for improving zirconia implant properties involves the potential application of bioactive coatings to their surfaces. These coatings have shown potential for inducing hydroxyapatite formation, crucial for bone proliferation, and improving implant mechanical properties. This study aimed to evaluate the effect of coating zirconia implants with two bioactive glasses, 45S5 and BioK, on osteogenesis in vitro and osseointegration in vivo. Zirconia samples and implants were prepared using Zpex zirconia powder and blocks, respectively. The samples were divided into three groups: polished zirconia (ZRC), zirconia coated with 45S5 bioglass (Z + 45S5), and zirconia coated with BioK glass (Z + BK). Coatings were applied using a brush and sintered at 1200°C. Chemical analysis of the coatings was carried out using x-ray diffraction and Fourier Transform Infrared Spectroscopy. Surface topography and roughness were characterized using scanning electron microscopy and a roughness meter. In vitro experiments used mesenchymal cells from Wistar rat femurs, and the coated zirconia implants were found to promote cell viability, protein synthesis, alkaline phosphatase activity, and mineralization, indicating enhanced osteogenesis. In vivo experiments with 18 rats showed positive results for bone formation and osseointegration through histological and histomorphometric analysis and a push-out test. The findings indicate that bioactive glass coatings have the potential to improve cell differentiation, bone formation, and osseointegration in zirconia implants., (© 2024 Wiley Periodicals LLC.)

Published

2024

23. Valorization of paper mill lime sludge via application in building construction materials: A review.

Author

Vashistha, Prabhat, Kumar, Vivek, Singh, S.K., Dutt, Dharm, Tomar, Gaurav, and Yadav, Pooja

Subjects

*SILICA fume, *CONSTRUCTION materials, *BUILDING design & construction, *PAPER mills, *FLY ash, *CERAMICS

Abstract

Highlights • Lime sludge utilization in concrete, mortars, fired bricks, ceramics and cement. • 10–30% cement replacement in concrete and mortars by lime sludge is optimum. • 25–30% replacement of fine aggregates by lime sludge is optimum. • Bricks and ceramic production with lime sludge conserves less energy. • Lime sludge eco clinker synthesizes with less carbon footprint and temperature. Abstract This review paper encompasses the inclusive approach of lime sludge valorization in construction materials. Research studies based on cement and aggregate replacement by lime sludge concludes that 10–30% lime sludge is gainfully utilized in sustainable concrete and mortar. Additional prospect for lime sludge application in construction material is the production of cement and ceramics. Significant use of lime sludge in combination with supplementary cementitious materials such as silica fume, nanosilica and fly ash is recommended for the production of cement components and ceramics. The recommendations are also suggested in accordance with the outcome of the study. [ABSTRACT FROM AUTHOR]

Published

2019

24. Effects of a Virtual Reality-Based Pottery Making Approach on Junior High School Students' Creativity and Learning Engagement

Author

Guan, Jue-Qi, Wang, Liang-Hui, Chen, Qu, Jin, Kai, and Hwang, Gwo-Jen

Abstract

Pottery making in technology education aims to foster students' practical and creative ability. In a typical pottery making class, students receive the teacher's instruction on the fundamental techniques used in pottery making and have opportunities to practice. It is meaningful to construct an observation-doing-reflection process for students in a pottery making class to promote their learning experience and performance. Therefore, in this study, a Virtual Reality (VR)-based pottery making approach was applied to technology education in a junior high school to examine its effects on students' creativity and learning engagement. A total of 97 seventh graders from three classes participated in pottery making in class. One class of 34 students was assigned to be the experimental group learning with the VR-based approach, while the other two classes were assigned to be the control groups, with 30 students learning with the paper-and-pencil approach and 33 students with the clay-based approach. The results showed that the students learning with the VR-based approach were not only more creative in terms of their products, but also had higher cognitive engagement than those in the control groups. Moreover, the VR-based approach improved the students' behavioral, emotional and social engagement compared to the paper-and-pencil approach.

Published

2023

25. Life cycle approach applied to the production of ceramic materials incorporated with ornamental stone wastes.

Author

Barbosa MZ, de Oliveira Dias J, Marvila MT, and de Azevedo ARG

Subjects

Animals, Clay, Life Cycle Stages, Solid Waste, Ceramics, Greenhouse Gases

Abstract

The use of the ornamental stone wastes, such as the originated from granite or marble, has been the subject of technological studies that evaluated its application in ceramic and cement materials; however, some complementary assessments, such as its life cycle assessment, are still not well explored in the literature. Therefore, the objective of this study was to discuss the main environmental impacts related to the manufacture of ceramic specimens, comparing conventional production versus the production of specimens incorporated with ornamental stone wastes. For this, the life cycle assessment was conducted in accordance with ISO 14.040 and 14.044. For this research, the ornamental stone wastes from the municipality of Cachoeiro do Itapemirim-ES and clay from the municipality of Campos dos Goytacazes-RJ were used. The system was modeled, using the SimaPro 9.0 software and the Ecoinvent database 3.3, for the life cycle assessment of the ceramic specimens and the potentiality regarding the use of ornamental stone wastes in ceramic materials using alternative input energy for burning, contributing to the effectiveness of the solid wastes reuse by the ceramic industry. The evaluation identified that the ornamental stone wastes incorporated into the ceramic specimens had significant potential in reducing environmental impacts and that the alternative input energy in burning stage makes them even more relevant. The study points out as the main result, the reduction of 35.74% of the impacts related to the category of the emission of greenhouse gases, and scarcity of mineral resources, 14.83% reduction, when compared to specimens to conventional brick production and alternative brick production, which emphasizes that the ceramic materials with wastes contribute to the mitigation of impacts., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

26. COMPARATIVE STUDY OF TWO COMMERCIAL STONEWARE PASTES FOR PLASTIC SHAPING BY POTTERY WHEEL.

Author

BARABÁS, Réka, CADAR, Oana, and BIZO, Liliana

Subjects

STONEWARE, MOISTURE content of food, POTTERY, X-ray powder diffraction, CELLULOSE fibers, CERAMICS, RECYCLED paper

Abstract

Two commercial stoneware pastes traditionally used to produce ceramic objects were evaluated. The objective was the comparative characterization of the pastes and to find the most suitable to obtain fine ceramic objects using the pottery wheel. Both ceramic pastes were characterized by X-ray powder diffraction (XRPD), particle size analyses (laser diffraction) and thermal analyses (thermogravimetry-TG, its derivative-DTG, and differential thermal analysis-DTA). The technological properties like linear drying and firing shrinkage, moisture content and plasticity were also determined. The results showed that both pastes have appropriate properties making them suitable for plastic shaping by pottery wheel. In addition, the stoneware paper clay paste is "greener" due to its content of cellulose fibers which can come even from recycled paper. [ABSTRACT FROM AUTHOR]

Published

2023

27. Thermophysical properties of fired clay bricks with waste ceramics and paper pulp as pore-forming agent.

Author

Cobîrzan, Nicoleta, Thalmaier, Gyorgy, Balog, Anca-Andreea, Constantinescu, Horia, Timiş, Ionel, and Streza, Mihaela

Subjects

BRICKS, CERAMICS, THERMOPHYSICAL properties, PAPER pulp, THERMAL conductivity

Abstract

In the present study, four fired clay bricks recipes with addition of recycled waste ceramics resulted from building demolition and waste paper pulp as pore-forming agent in different proportions are investigated. The purpose of the work is to analyse the impact of pore-forming agent and wastes on the physical, mechanical and thermal properties of the resulting products. The raw materials and the samples were analysed from chemical, mechanical and thermophysical point of view by XRD, SEM with EDX analysis, lock-in thermography and PPE calorimetry techniques, mercury porosimetry and image analysis. It was found that the compressive strength decreases from 53 MPa for a porosity of 3.5% until 7 MPa for a porosity of 35%, while the thermal conductivity varies from 0.75 to 0.58 W m−1 K−1. [ABSTRACT FROM AUTHOR]

Published

2018

28. Paper-based sensors for rapid detection of virulence factor produced by Pseudomonas aeruginosa.

Author

Alatraktchi, Fatima AlZahra’a, Noori, Jafar Safaa, Tanev, Georgi Plamenov, Mortensen, John, Dimaki, Maria, Johansen, Helle Krogh, Madsen, Jan, Molin, Søren, and Svendsen, Winnie E.

Subjects

PSEUDOMONAS aeruginosa infections, MICROBIAL virulence, ELECTROCHEMICAL sensors, BACTERIAL cultures, BACTERIAL proteins

Abstract

Pyocyanin is a toxin produced by Pseudomonas aeruginosa. Here we describe a novel paper-based electrochemical sensor for pyocyanin detection, manufactured with a simple and inexpensive approach based on electrode printing on paper. The resulting sensors constitute an effective electrochemical method to quantify pyocyanin in bacterial cultures without the conventional time consuming pretreatment of the samples. The electrochemical properties of the paper-based sensors were evaluated by ferri/ferrocyanide as a redox mediator, and showed reliable sensing performance. The paper-based sensors readily allow for the determination of pyocyanin in bacterial cultures with high reproducibility, achieving a limit of detection of 95 nM and a sensitivity of 4.30 μA/μM in standard culture media. Compared to the similar commercial ceramic based sensors, it is a 2.3-fold enhanced performance. The simple in-house fabrication of sensors for pyocyanin quantification allows researchers to understand in vitro adaptation of P. aeruginosa infections via rapid screenings of bacterial cultures that otherwise are expensive and time-consuming. [ABSTRACT FROM AUTHOR]

Published

2018

29. Experimental study on the tribological behavior of ceramic disks for application in mixer taps under different lubrication conditions

Author

Ziegler, Marlene Kristin, Rothammer, Benedict, Bartz, Marcel, Wartzack, Sandro, Beau, Patrick, Patzer, Gregor, Henzler, Stephan, and Marian, Max

Published

2023

30. Green liquor dregs and slaker grits residues characterization of a pulp and paper mill for future application on ceramic products.

Author

Ribeiro dos Santos, Verônica, Dezena Cabrelon, Marcelo, de Sousa Trichês, Eliandra, and Quinteiro, Eduardo

Subjects

*PAPER pulp, *PULP mills, *PAPER mills, *GRITS, *CERAMICS, *LIQUORS

Abstract

Green liquor dregs and slaker grits are pulp and paper mill residues usually landfilled. Whit high calcium carbonate content, its use as alternative raw materials in traditional ceramic products becomes an interesting study field. In order to evaluate its incorporation potential, the residues characterization with diverse approaches was performed and for the first time reunited exploring this eco-friendly intent. Green liquor dregs and slaker grits were characterized by its chemical and mineralogical composition (XRF, XRD, FT-IR); physical and morphological characteristics (particle size, BET surface area, density, SEM) and thermal properties (TGA). Chemical and mineralogical analysis reveals the high calcium carbonate content in calcite form especially on slaker grits, that has less inorganic and organic contaminants than green liquor dregs. Smaller irregular-shaped particles and bigger surface area was found on this last residue, comparing with slaker grits. The thermal analysis indicated a lower calcite decomposition for green liquor dregs (720 °C), while this event on slaker grits occurred 40 °C above (760 °C). Thus, it was observed the residues behavior and characteristics are much alike calcium carbonate itself, especially slaker grits, considering its composition, morphology and thermal events. As conclusion, the potentiality uses of green liquor dregs and slaker grits as alternative raw materials on ceramic products was revealed. Being able to incorporate clay, concrete, glasses and great majority of other ceramic products, these residues use will generate excellent benefit-cost ratio to industries and environment. Image 1 • Green liquor dregs and slaker grits were characterized by diverse approaches. • High calcium carbonate content in calcite form on both wastes was confirmed. • Residues behavior and characteristics are much alike calcium carbonate itself. • Slaker grits is purer than green liquor dregs. • Wastes revealed great potentiality use as alternative calcium carbonate source. [ABSTRACT FROM AUTHOR]

Published

2019

31. Comments on the paper 'Studies of structural, dielectric and electrical characteristic of Bi(Fe0.85Y0.15)O3 ceramics by L. Thansanga et al., and published in 'Phase Transitions' 94, 47 (2021).

Author

Tomaszewski, Paweł E.

Subjects

PHASE transitions, UNIT cell, DIELECTRICS, CERAMICS, BISMUTH iron oxide

Abstract

My comments concern the severe errors in the crystallographic part of the commented paper. The correct formula is proposed to be Bi1–xYxFeO3 ('Bi0.85Y0.15FeO3') instead of BiFe0.85Y0.15O3. It is found that the studied sample is bi-phasic with nearly equal amounts of BiFeO3:Y and Bi25FeO39:Y. The actual composition of the studied crystals is not known. Moreover, the type of unit cell is not correct. [ABSTRACT FROM AUTHOR]

Published

2021

32. Fast fabrication of high-quality electrolyte separators based on ceramic papers and its electrochemical performance in thermal batteries.

Author

Cao, Yong, Zhang, Chenguang, Gao, Chenyang, Xie, Yong, Wang, Chao, Lan, Wei, Chang, Fang, Zhang, Xu, Zhao, Yu, Cui, Yanhua, Cui, Yixiu, and Liu, Xiaojiang

Subjects

*THERMAL batteries, *CERAMICS, *ELECTROLYTES, *LITHIUM cells, *FUSED salts, *AQUEOUS solutions, *SOLVENTS, *MOLTEN carbonate fuel cells

Abstract

[Display omitted] • A route is proposed to load nanoparticles and electrolyte into ceramic paper separator. • The proposed route is efficient and safe, which can be promoted to used in large scales. • Electrochemical performance of thermal batteries can be obviously improved with ceramic paper as separator. Composites consisted of ceramic paper, nanoparticles as well as molten salt electrolyte, are developed as the new electrolyte separators to substitute the traditional ones in thermal batteries, due to their flexible manufacture and good exhibition in electrochemical performance. However, the existed methods for fabricating the composites by roughly dip-coating with aqueous solutions, are suffering from drawbacks such as inefficiency, low consistence, or high temperature risk. Therefore, a new approach based on a melting-absorption-diffusion process, by using precursors without solvent, is developed. Firstly, the salts are accurately weighted. Then they melt on surfaces of ceramic papers and diffuse inside. After being treated at appropriate temperature for hours, high quality electrolyte separators based on ceramic papers are achieved. Compared to the traditional approaches, the new method can obviously increase and accurately control the amount of loaded nanoparticles and molten salts for each time. The achieved electrolyte separators also exhibit good electrochemical performance in single cells of thermal batteries compared with the traditional ones. With advantages like easy operation, high efficiency, and improved performance, this melting and in situ loading method holds broad prospect in preparing electrolyte separators at large scale. [ABSTRACT FROM AUTHOR]

Published

2022

33. Investigations on effect of pore architectures of additively manufactured novel hydroxyapatite coated PLA/Al2O3 composite scaffold for bone tissue engineering

Author

Choudhary, Neha, Ghosh, Chandrachur, Sharma, Varun, Roy, Partha, and Kumar, Pradeep

Published

2023

34. Utilization of diverse cheap materials as pore generating agent to manufacture low-cost porous ceramic.

Author

Salman, M. M., Radhi, N. S., Sabr, O. H., and Nhabih, H. T.

Subjects

KAOLIN, WOOD waste, WASTE paper, CORNSTARCH, ALBITE, CERAMICS, SCANNING electron microscopy

Abstract

Copyright of Ceramica is the property of Associacao Brasileira de Ceramica 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

2020

35. Indirect restorative systems-A narrative review.

Author

Bonfante EA, Calamita M, and Bergamo ETP

Subjects

Humans, Dental Materials, Dental Porcelain chemistry, Dental Prosthesis Design, Ceramics chemistry

Abstract

Objective: The background and clinical understanding of the properties of currently available indirect restorative systems and fabrication methods is, along with manufacturer and evidence-based literature, an important starting point to guide the clinical selection of materials for tooth and/or implant supported reconstructions. Therefore, this review explores most indirect restorative systems available in the market, especially all-ceramic, along with aspects of manufacturing process, clinical survival rates, and esthetic outcomes., Overview: Progressive incorporation of new technologies in the dental field and advancements in materials science have enabled the development/improvement of indirect restorative systems and treatment concepts in oral rehabilitation, resulting in reliable and predictable workflows and successful esthetic and functional outcomes. Indirect restorative systems have evolved from metal ceramics and polymers to glass ceramics, polycrystalline ceramics, and resin-matrix ceramics, aiming to improve not only biological and mechanical properties, but especially the optical properties and esthetic quality of the reconstructions, in attempt to mimic natural teeth., Conclusions: Based on several clinical research, materials, and patient-related parameters, a decision tree for the selection of indirect restorative materials was suggested to guide clinicians in the rehabilitation process., Clinical Significance: The pace of materials development is faster than that of clinical research aimed to support their use. Since no single material provides an ideal solution to every case, professionals must continuously seek information from well designed, long-term clinical trials in order to incorporate or not new materials and technological advancements., (© 2023 Wiley Periodicals LLC.)

Published

2023

36. In situ synthesis of paper-derived Ti3SiC2.

Author

Lorenz, Hannes, Thäter, Johannes, Matias Carrijo, Mylena Mayara, Rambo, Carlos R., Greil, Peter, and Travitzky, Nahum

Subjects

PRECERAMICS, CERAMICS, FABRICATION (Manufacturing), X-ray diffraction, ELECTROMAGNETIC wave diffraction

Abstract

A novel approach based on the preceramic paper method was used for the fabrication of Ti3SiC2-based material. Elemental powders of Ti, TiC, Si, C, and organic additives were used as starting materials. The Rapid Köthen process was used to fabricate the preceramic papers. The high-loaded green body of preceramic papers was heat-treated up to varying temperatures of 1300, 1400, 1500, and 1600 °C for 1 h in an Ar atmosphere. By using an excess amount of Si powder in the basic composition, the amount of Ti3SiC2 in the sintered specimen could be increased while the amount of TiC could be reduced. X-ray analysis showed that the paper-derived sample with the basic powder composition 3Ti/3TiC/3Si/C was a single phase within the resolution limit of the instrument used. The high purity of Ti3SiC2 can be explained by the partial formation of amorphous C which could not be detected by X-ray diffraction. Scanning electron microscopy analysis of fracture surfaces showed the characteristic lamellar structure of the paper-derived MAX phase. [ABSTRACT FROM AUTHOR]

Published

2017

37. Concurrent reaction-bonded joining and densification of additively manufactured silicon carbide by liquid silicon infiltration.

Author

Du, Wenchao, Ma, Beihai, Thomas, Jonova, and Singh, Dileep

Subjects

*LIQUID silicon, *SILICON carbide, *CARBON paper, *CERAMICS

Abstract

In this study, additive-manufactured silicon carbide preforms were joined and densified by reaction bonding via liquid silicon infiltration. The silicon carbide preforms were first printed by binder jetting additive manufacturing. To demonstrate concurrent joining and densification, two preforms with carbon or parchment papers at the interface were concurrently joined and infiltrated by liquid silicon. Results showed a robust interface with thicknesses ranging from 150 to 500 µm, depending on the paper type and the number of paper layers. High-energy synchrotron X-ray revealed that β-phase silicon carbide was formed inside the interface. Finally, two additively manufactured samples with complicated channel geometry were successfully joined. Energy dispersive spectroscopy of the interface of the channeled samples showed a consistent and robust joining. This concurrent approach of joining and densification enables efficiency improvement of fabricating silicon carbide parts with complicated geometries and widens geometry freedom for additive manufacturing of silicon carbide. [ABSTRACT FROM AUTHOR]

Published

2023

38. The influence of laser power and scanning speed on the microstructure and surface morphology of Cu2O parts in SLM

Author

Ullah, Abid, Ur Rehman, Asif, Salamci, Metin Uymaz, Pıtır, Fatih, and Liu, Tingting

Published

2022

39. Phase modification and dielectric properties of a cullet-paper ash-kaolin clay-based ceramic.

Author

Samah, K. A., Sahar, M. R., Yusop, M., and Omar, M. F.

Abstract

Novel ceramics from waste material made of (x) paper ash-(80 - x) cullet-20 kaolin clay (10wt% ≤ x ≤ 30wt%) were successfully synthesized using a conventional solid-state reaction technique. Energy-dispersive X-ray analysis confirmed the presence of Si, Ca, Al, and Fe in the waste material for preparing these ceramics. The influence of the cullet content on the phase structures and the dielectric properties of these ceramics were systematically investigated. The impedance spectra were verified in the range from 1 Hz to 10 MHz at room temperature. The phase of the ceramics was found to primarily consist of wollastonite (CaSiO3), along with minor phases of γ-dicalcium silicate (Ca2SiO4) and quartz (SiO2). The sample with a cullet content of 55wt% possessed the optimum wollastonite structure and exhibited good dielectric properties. An increase of the cullet content beyond 55wt% resulted in a structural change from wollastonite to dicalcium silicate, a decrease in dielectric constant, and an increase in dielectric loss. All experimental results suggested that these novel ceramics from waste are applicable for electronic devices. [ABSTRACT FROM AUTHOR]

Published

2018

40. Incorporation of paper sludge in clay brick formulation: Ten years of industrial experience.

Author

Cusidó, J.A., Cremades, L.V., Soriano, C., and Devant, M.

Subjects

*SEWAGE sludge, *SOIL remediation, *WASTE recycling, *CERAMICS, *LEACHING, *MANUFACTURING industries

Abstract

The large amounts of sewage sludge (11 million tonnes in Europe in 2005) produced in paper manufacturing plants require the introduction of recycling and/or alternative recovery solutions to minimize the amounts of generated waste, such as its use in soil remediation or in the cement industry. A feasible alternative to valorize that waste is the use of paper sludge as raw material in the production of structural ceramic or clay bricks. Previous studies tried to incorporate sewage sludge from different sources into ceramic matrices, unfortunately with little success in the final result for most types of sludge. However, those experiments carried out using as additive sludge from the paper industry succeeded in producing a material suitable for the red ceramic industry. In this paper, binary mixtures of clay and paper sludge under different formulations were produced and their physico-chemical properties were studied. Increasing the paper sludge content in the clay mixture provides the material with improved properties regarding its thermal and acoustic insulation, but in turn it decreases its mechanical strength. However, this fragility of the material is compensated by an increased ductility. Regarding metal leaching, the studied ceramics have no environmental restrictions as far as their use as building material is concerned, as the obtained results were virtually identical to those for the blank samples (100% clay). Results showed that the presence of dichloromethane (373.2 μg m − 3 ) and propanone (61.2 μg m − 3 ) in the samples with added sludge was relatively relevant with respect to concentrations in samples made of 100% clay. All monocyclic aromatics detected showed a concentration level far below their odor threshold. In general, thus, it can be concluded that volatile organic compound (VOC) emissions during firing of the new ceramic material do not involve any particular problem. Finally, the experience obtained after more than 10 years of industrial production of this new mixed ceramic product was also analyzed. This analysis allowed confirmation that clay brick production with incorporation of paper sludge waste is a feasible solution from a technical point of view. As a key outcome, this fact has helped the reduction in a large proportion the amount of sludge produced by the Spanish paper industry ending up in landfills. [ABSTRACT FROM AUTHOR]

Published

2015

41. Discovery of a new type of sillenite structure. Comments on the papers by Nitin Kumar et al. On the BiFeO3 crystal co-doped by Co/Ti and Ni/Ti ions and published in Ceramics International 45, 822 (2019) and 47, 22147 (2021).

Author

Tomaszewski, Paweł E.

Subjects

*UNIT cell, *CRYSTALS, *CERAMICS, *BISMUTH iron oxide, *IONS

Abstract

My comments concern the significant error in the crystallographic part of the commented papers. It was discovered that the studied nanocrystals are of sillenite type and the correct formula should be Bi 25 FeO 39 :Co,Ti and Bi 25 FeO 39 :Ni,Ti instead of BiFeO 3. Moreover, the type of unit cell is not correct. Due to the doping the new type of unit cell, previously unknown, was proposed for such crystals. It was found that the studied sample contains two slightly different phases of the sillenite type. The actual chemical composition of the studied crystals is not known. [ABSTRACT FROM AUTHOR]

Published

2022

42. Comment on the paper by S. K. Parida on the effect of Cu and W dopants in CaMnO3 ceramics [Phase Transitions 94, 1033 (2021)].

Author

Tomaszewski, Paweł E.

Subjects

*PHASE transitions, *DOPING agents (Chemistry), *CERAMICS, *LATTICE constants, *X-ray diffraction

Abstract

My comments concern the significant errors in the crystallographic part of the commented paper. [ABSTRACT FROM AUTHOR]

Published

2022

43. Influence of thermal and pH cycles on surface characteristics lithium disilicate glass-ceramic dental crowns milled with CAD/CAM process

Author

Singh, Yajvinder and Gulati, Vishal

Published

2022

44. 镀陶纸陶瓷颜料的制备及其 抑菌性能研究.

Author

宁语苹, 郭瑞, 宋阳, 李剑, and 刘文波

Subjects

ESCHERICHIA coli, SINTERING, POROSITY, ADSORPTION capacity, CERAMIC industries, CRYSTAL structure, GAS storage

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher 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

2022

45. Thermal-flow characteristics analysis of a novel resilient capacity ceramic insulated winding dry type transformer.

Author

Li, Haomin, Zhang, Qirui, Lei, Li, Geng, Yingsan, and Wang, Jianhua

Subjects

VISCOSITY, CERAMICS, FLOW velocity, THERMAL conductivity, AIR flow, FORCED migration, PARTIAL discharges

Abstract

With the increasing demand for the resilient capacity of transformers in high-proportion renewable energy grids, the overload capacity of transformers and the thermal conductivity of winding insulation materials have been put forward as important requirements. In response to these requirements, a novel ceramic high temperature tolerance insulation winding is proposed in this paper and is applied in a ceramic insulated winding transformer. A combination of simulation and experimentation is used to analyze the thermal-flow characteristics of this transformer. The temperature and flow field distribution characteristics of transformers with both winding insulation methods (ceramic and Nomex paper) are compared. The internal mechanism of reflux near the iron core and high voltage winding under forced air cooling is clarified. A superior outside cooling condition is obtained. A prototype ceramic insulated winding transformer is developed and tested to verify the accuracy of the simulation model. The results show that the hotspot temperature of the ceramic insulated winding transformer under natural cooling is 10.7% lower than that of the Nomex paper insulated winding transformer. With forced air cooling of 2, 3, 4, 5, and 6 m/s applied at the bottom, the hotspot temperature of the ceramic insulated winding transformer is 11.4%, 10.5%, 9.7%, 14.0%, and 17.8% lower than that of the Nomex paper insulation winding transformer, respectively. Under forced air cooling, a reflux phenomenon is observed in both transformers in the vicinity of the iron core and high voltage winding due to the formation of adverse pressure gradient region and wall viscous force blocking. The strength of the reflux is affected by the magnitude of the forced air cooling flow velocity and the construction of the transformer. The optimal range of the external cooling flow velocity for the ceramic insulated winding transformer is 3–4 m/s. The errors between the simulated temperature and the measured temperature at the nine monitoring points of the prototype are all less than 5%, which verifies the effectiveness of the simulation model. The experimental and theoretical basis for the design and application of resilient capacity dry type transformers is provided by this research. [ABSTRACT FROM AUTHOR]

Published

2024

46. Synthesis and characteristics of aluminate spinel ceramic pigments based on spent aluminium-cobalt-molybdenum catalyst

Author

Zaichuk, Aleksandr Viktorovich, Amelina, Aleksandra Andreevna, Hordieiev, Yurii Sergeevich, Frolova, Liliya, and Ivchenko, Viktoriia Dmitrievna

Published

2021

47. High temperature erosion behavior of plasma sprayed Al2O3 coating on AISI-304 stainless steel

Author

Prashar, Gaurav and Vasudev, Hitesh

Published

2021

48. New Formulations of Ni-ContainingCeramic Papers toEnhance the Catalytic Performance for the Oxidative Dehydrogenationof Ethane.

Author

Bortolozzi, J. P., Banús, E. D., Milt, V. G., and Miro, E. E.

Subjects

*NICKEL catalysts, *OXIDATIVE dehydrogenation, *SILICA-alumina catalysts, *CERAMICS, *ETHANES, *TENSILE strength

Abstract

Ceramicpapers composed of silica–alumina fibers structuredusing colloidal suspensions as binders constitute interesting materialsto be used as flexible supports of catalytic materials. The depositionof Ni as the active ingredient together with Zr or Ce promoters resultedin active and selective structured catalysts for the oxidative dehydrogenationof ethane; these structured catalysts also exhibited acceptable mechanicalproperties. The employed binder agents (nanoparticles of ceria, zirconia,or yttria-stabilized zirconia) homogeneously covered the fiber surface,contributing to the dual function of building a three-dimensionalarrangement and favoring the anchoring of the catalytic formulations.The prepared papers showed nickel oxide as the active phase. The incorporationof cerium or zirconium as promoters enhanced the catalytic properties.The former element mainly produced an increase in ethane conversion,whereas the latter markedly improved ethylene selectivity. In bothcases, an ethylene productivity was obtained in the promoted systemswhich was higher than that in the unpromoted samples. It is likelythat the formation of the solid solutions Ni–Ce–O andNi–Zr–O, as suggested by X-ray diffraction and laserRaman spectroscopy analyses, plays an important role in these effects.The best catalyst was the one containing nickel as the active phase,Ce as the promoter, and ZrY as the binder agent, for which ethyleneproductivity at 400 °C was ca. 513 g ethylene/(kgcath). The binder agent addition was necessary to join the fibers,thus improving the mechanical properties of the papers, but they alsoaffected the catalytic performance through the coverage of ceramicfibers and the resulting interaction with the catalytic compounds.The performed tensile index tests showed that the colloidal suspensionof ceria produced papers with mechanical properties better than thoseof zirconia or zirconia–yttria because they exhibited greaterresistance and flexibility. [ABSTRACT FROM AUTHOR]

Published

2014

49. Variations in American marketing practices of early 19th-century ceramic importers and dealers, reflecting culture and identity

Author

Ewins, Neil

Published

2020

50. Additive manufacturing revolution in ceramic microsystems

Author

Nawrot, Witold and Malecha, Karol

Published

2020