Your search keyword '"Papermaking"' showing total 8,159 results

1. Starch‐based nanoparticles as a replacement for synthetic latex: A comprehensive assessment of printability and colorimetric characteristics.

Author

Altay, Bilge N., Carver‐Kubik, Al, Williams, Scott, Huq, Anamika, Sugiyama, Maya, Dhote, Yash, Zunjarrao, Apurva, Aydemir, Cem, and Karademir, Arif

Subjects

*SYNTHETIC latex, *DIELECTRIC relaxation, *ANIMAL coloration, *DIELECTRIC properties, *SURFACE roughness, *PAPERMAKING

Abstract

The papermaking, packaging, and printing industry are actively seeking sustainable material alternatives to address growing concerns about environmental consciousness and finite resources. Synthetic latex, a frequently utilized binder in paper coating formulations, present difficulties due to their dependence on fossil fuel resources and their reduced recyclability in comparison to eco‐friendly sustainable products. In this study, synthetic latex was replaced with a starch‐based nanoparticle (starch NP) binder at a 1:1 ratio in a coating formulation. Printing trials to assess colorimetric characteristics was made using electrophotography (EP) printing, given the current upward trajectory and expansion of EP technology into the label, packaging, and folding carton sectors. The in‐depth investigations reveal that incorporating starch NP binder result in improved optical, color, and dot characteristics. Moreover, it maintains consistent and comparable coefficients of friction. Partial replacement of synthetic latex with the starch NP binder yields significant enhancements in surface roughness and text quality. Importantly, the starch NP binder not only improves the dielectric relaxation properties of the paper and enhances toner transfer but also accelerates the distribution of the electrical field compared to synthetic latex, optimizing toner transfer and thereby enhancing color gamut volume. The study demonstrates that employing the starch NP binder leads to substantial improvements in colorimetric performance without any drawbacks in EP printing, making it highly advantageous to replace 50% of the synthetic binder. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vapor deposition strategy for implanting isolated Fe sites into papermaking nanofibers-derived N-doped carbon aerogels for liquid Electrolyte-/All-Solid-State Zn-Air batteries.

Author

Shen, Mengxia, Liu, Qingqing, Sun, Jiaojiao, Liang, Chanjuan, Xiong, Chuanyin, Hou, Chen, Huang, Jianfeng, Cao, Liyun, Feng, Yongqiang, and Shang, Zhen

Subjects

*VAPOR-plating, *AEROGELS, *PAPERMAKING, *CHEMICAL vapor deposition, *DOPING agents (Chemistry), *NANOFIBERS, *SUPERIONIC conductors

Abstract

[Display omitted] • Papermaking nanofibers-derived N -doped carbon aerogels were constructed with Cd crosslinking and volatilization. • Fe-SAC@N/CA-Cd with single-atom Fe-N 4 structure was developed via a CVD strategy. • The Fe-SAC@N/CA-Cd exhibited superb ORR activity due to plentiful active species, ultra-high S BET and hierarchical pore architecture. • The assembled LES-ZAB and ASS-ZAB provided encouraging performances. Single-atom catalysts (SACs), with precisely controlled metal atom distribution and adjustable coordination architecture, have gained intensive concerns as efficient oxygen reduction reaction (ORR) electrocatalysts in Zn-air batteries (ZAB). The attainment of a monodispersed state for metallic atoms anchored on the carbonaceous substrate remains the foremost research priority; however, the persistent challenges lie in the relatively weak metal-support interactions and the instability of captured single atom active sites. Furthermore, in order to achieve rapid transport of O 2 and other reactive substances within the carbon matrix, manufacturing SACs based on multi-stage porous carbon substrates is highly anticipated. Here, we propose a methodology for the fabrication of carbon aerogels (CA)-supported SACs utilizing papermaking nanofibers, which incorporates advanced strategies for N -atom self-doping, defect/vacancy introduction, and single-atom interface engineering. Specifically, taking advantages of using green and energy-efficient feedstocks, combining with a direct pore-forming template volatilization and chemical vapor deposition approach, we successfully developed N -doped carbon aerogels immobilized with separated iron sites (Fe-SAC@N/CA-Cd). The obtained Fe-SAC@N/CA-Cd exhibited substantially large specific surface area (S BET = 1173 m2/g) and a multi-level pore structure, which can effectively mitigate the random aggregation of Fe atoms during pyrolysis. As a result, it demonstrated appreciable activity and stability in catalyzing the ORR progress (E 1/2 = 0.88 V, E onset = 0.96 V). Furthermore, the assembled liquid electrolyte-state Zn-air batteries (LES-ZAB) and all-solid-state Zn-air battery (ASS-ZAB) also provides encouraging performance, with a peak power density of 169 mW cm−2 for LES-ZAB and a maximum power density of 124 mW cm−2 for ASS-ZAB. [ABSTRACT FROM AUTHOR]

Published

2024

3. Production of Long-Fiber Pulp from Enset Plant Residues by Soda Pulping.

Author

Berhanu Lemma, Hanna, Steffen, Friedrich, Yimam Ali, Abubeker, and Saake, Bodo

Subjects

*PLANT residues, *FILTER paper, *PAPER bags, *RAW materials, *PAPERMAKING

Abstract

This paper evaluates the modification of fiber morphology and the strength property development of paper from Enset fiber as a function of soda pulping conditions and refining energy. Soda pulping was conducted at pulping temperatures between 160 and 180 °C. The NaOH charge was 16, 20, and 24% based on the initial raw material. The beating of pulp was conducted using a Jokro mill. The refining of pulp was conducted in a laboratory refiner at different refining intensities. The mild Jokro mill beating was not effective on Enset fiber pulp. On the other hand, the laboratory refiner effectively refined the pulp. The fiber morphology was altered in the way of improving the paper formation and strength. The beating degree of the pulp was increased to about 49 °SR. The tensile index was enhanced to around 80 Nm/g using a refining energy input of 250 kwh/t. From the results, it can be concluded that Enset fiber pulp is suitable for packaging papers due to its high strength level. On the other hand, Enset fiber can be a potential raw material for specialty papers like filter paper and tea bags because of its high porosity. [ABSTRACT FROM AUTHOR]

Published

2024

4. 变刚度夹拔式棉秆整株拔取装置设计与试验.

Author

赵维松, 谢建华, 陈明江, 高琪珉, 曹肆林, 王振伟, and 陈永生

Subjects

*COTTON stalks, *AGRICULTURAL development, *SUSTAINABLE development, *RAW materials, *PAPERMAKING, *BIOMASS conversion

Abstract

Cotton stalk is one of the most high-quality biomass resources with a wide range of applications, such as building boards, chemical product raw materials, fuel, and papermaking. China is one of the major cotton-producing countries in the world. The planting area (3×106 hm²) has been ranked third in 2022, leading to the very abundant cotton stalk resources. The cotton stalks can be fully utilized to accelerate the green and low-carbon development of agriculture. Mechanical harvesting can be expected to efficiently remove the cotton stalks from the field. However, the current uprooting machine also needs to be improved and optimized for the cotton stalk. In this research, a clamping-type uprooting device with variable stiffness was designed for a high uprooting rate and low clamping breakage rate. The variable rigidity clamping was adjusted as follows. The flexible rubber clamping was used to prevent the cotton stalk from breaking; A rigid support structure was designed on the outside of the rubber block to obtain a greater clamping force. The better performance was achieved by clamping tightly without breaking the cotton stalk. The uprooting was also improved for the two scenarios of breakage and slippage. The device often consisted of a dividing disk, variable stiffness clamping and pulling mechanism, and tensioning guide mechanism. The dividing disk was used for the orderly feeding of cotton stalks; The variable stiffness clamping and pulling mechanism was used to realize the clamping and pulling of cotton stalks; The tensioning guide mechanism was to effectively control the clamping force and gap of cotton stalks. Two sets of chains were utilized to drive multiple clamping blocks, indicating a simple and reliable structure. Moreover, the frictional heating of traditional flexible belt mechanisms was avoided in this structure. A mechanical analysis was carried out on the cotton stalk pulling motion and the interaction between the variable stiffness clamp and the cotton stalk. The critical structural dimensions and operating parameter ranges were determined for the variable stiffness clamping device. A systematic investigation was made to clarify the influencing factors on the quality of clamping and pulling. The response surface method (RSM) was used to analyze the effects of the forward speed, the rotational speed of the active sprocket, and the clamping force on the stalk uprooting performance of the variable stiffness clamping and pulling device. The field test validated the simulation. The results showed that there was very consistency between the experimental and theoretical predictions, when the forward speed was 0.68 m/s, and the sprocket speed was 95 r/min. The tension force was 1 792 N, and the cotton stalk uprooting rate was 94.70%. The relative error between the measured and predicted uprooting rate value was 1.67%, which was less than 5%. The leakage rate and breakage rate of variable stiffness clamping and uprooting devices were 3.99% and 1.32%, respectively, compared with the existing devices of 5.19% and 3.68%, respectively. Therefore, the leakage rate and breakage rate of the device were reduced by 23.1% and 64.13%, respectively, compared with the former. The variable stiffness gripper effectively reduced the cotton stalk breakage to realize the whole stalk uprooting. The finding can provide new ideas to design the variable stiffness clamps, in order to optimize and improve the cotton stalk pullers. [ABSTRACT FROM AUTHOR]

Published

2024

5. Study on influencing factors of hygroscopic properties of rolled tobacco sheet.

Author

LIU Guangchao, DENG Sha, GAO Yihan, WU Tao, and DENG Ruijie

Subjects

*THERMODYNAMICS, *CORE materials, *ADSORPTION kinetics, *PAPERMAKING, *HUMIDITY

Abstract

To study the hygroscopicity of heated tobacco's core materials, rolled tobacco sheet was taken as the research object, the effects of external environmental relative humidity, glycerol mass fraction and particle size of tobacco powder on its hygroscopicity were investigated through the single factor experiment. The differences in hygroscopicity of tobacco sheets prepared by rolling method, thick pulp method and paper making method were compared. The first-order and second-order adsorption kinetic models were used to fit and analyze the moisture absorption kinetic characteristics of rolled tobacco sheet. Further investigation was conducted on the hygroscopic thermodynamic properties of rolled tobacco sheet using six common adsorption models. The results showed that environmental relative humidity and mass fraction had the greatest impact on hygroscopicity, the higher the environmental relative humidity and the glycerol mass fraction, the stronger the hygroscopicity. The effect of particle size of tobacco powder on hygroscopicity was insignificant. The hygroscopicity of rolled tobacco sheet was comparable to that of tobacco slices produced by thick pulp method, and both were stronger than that of tobacco slices produced by paper making method. The moisture absorption time curve of rolled tobacco sheet was more in line with the second-order adsorption kinetics model, and its moisture absorption isotherm curve was more in line with the Peleg model. [ABSTRACT FROM AUTHOR]

Published

2024

6. Contemporary Papermaking in the Tradition of Mahatma Gandhi.

Author

Hubbe, Martin A. and Madappa, Kavya

Subjects

*TEXTILE recycling, *AGRICULTURAL wastes, *TEXTILE fibers, *PAPERMAKING, *TEXTILE waste

Abstract

This editorial draws a parallel between important papermaking innovations that were implemented by Mahatma Gandhi and some more recent ventures in papermaking in India. Both of these examples share common themes of fostering the skills of local people, using local resources, and contributing to a better future. A key insight is the scaling of the equipment to be well matched with the size of the production team and enabling a broad range of product grades. The case study considered introduces a modern twist -- using papermaking to achieve circularity in the production of textiles. As in the early days of European papermaking, once again waste textile products are serving as the primary source of material. [ABSTRACT FROM AUTHOR]

Published

2024

7. Characteristics of Bast Fibers Derived from the Bark of Three Paper-Mulberry Cultivars in Korea.

Author

In-Hee Go, Ah-Hyeon Jo, Kyung-Ju Jang, and Seon-Hwa Jeong

Subjects

*WOOD, *BLEACHING materials, *RAW materials, *PAPERMAKING, *CULTURAL property

Abstract

Bast fiber from paper-mulberry (Broussonetia papyrifera) has long been utilized for handmade paper in Asia, serving as a prominent non-wood cellulose material. When restoring paper cultural assets, selecting a similar paper to the original ensures longevity and prevents deterioration issues like warping or tearing. The production of handmade paper involves several processes, including refining, steaming, and bleaching of raw materials. Once formed into sheets, the physical properties of the paper are dictated by these materials and remain unchanged unless the paper is newly made. Handmade paper production is labor-intensive and timeconsuming, emphasizing the need for careful raw material selection to match desired characteristics. This study evaluated the dendrological, morphological, anatomical, and chemical compositions of three papermulberry wood types cultivated in Korea and inferred their suitability as pulp for papermaking or repair of archival paper specimens. Papermulberry wood showed differences in fiber length according to molecular phylogenetic characteristics, but there were no differences in anatomical characteristics owing to the immaturity of the wood. This study investigated the characteristics of the bast fibers from the bark of papermulberry trees with different genetic traits to identify favorable factors likely to affect the pulp and papermaking process and paper quality. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of Pre-treatment with Commercial Cellulase and Hemicellulase and Laboratory Beating of Unbleached Pine Kraft Pulp on Freeness, Paper Strength, and Fiber Quality.

Author

Danielewicz, Dariusz

Subjects

*SULFATE pulping process, *CELLULASE, *PAPERMAKING, *PAPER industry, *TENSILE strength

Abstract

The effects of laboratory beating on unbleached regular grade pine kraft pulp (UPKP), pre-treated with commercial cellulase/hemicellulase enzymatic preparation (C/HEP) were assessed using degrees of Schopper-Riegler (°SR) and fibre-quality numbers (FQN). The tests showed a significant increase in the °SR (used in papermaking laboratories and industry to assess the degree of beating) of the UPKP after its enzymatic pre-treatment in the amount of 0.25 to 5.0 mL/kg of pulp and beating. However, only a several percent reduction of beating time was observed when the effect of this pretreatment of pulp on the speed of its beating was determined using another method. The treatment of the pulp selected for research with C/HEP before beating negatively influenced its strength properties after this process. The results correlated well with the most important basic fiber properties from the standpoint of papermaking. [ABSTRACT FROM AUTHOR]

Published

2024

9. Nanocellulose Production from Walnut Pruning Wastes Using Hydrated Deep Eutectic Solvent as Paper Strength Additives.

Author

Fidan, Hakan and Çetin, Nihat Sami

Subjects

*CHOLINE chloride, *SCANNING electron microscopy, *LACTIC acid, *INDUSTRIAL capacity, *PAPERMAKING, *EUTECTICS

Abstract

The valorization potential of industrial walnut pruning wastes was investigated as a value-added product. Nanofibrillated cellulose (NFC) was prepared from walnut pruning wastes via hydrated choline chloridelactic acid deep eutectic solvent (ChCl-LA DES) pretreatment followed by grinding, and these were used as paper strength additives. The effect of reaction time on NFC properties were investigated and compared. The structure of nanocellulose was determined by Fourier transform infrared, scanning electron microscopy (SEM), and rheological analysis. The results show that carboxylated NFC having high aspect ratio could be successfully isolated after DES-pretreatment with the average diameter of 39 to 77 nm. Prepared NFC was added to the bulk suspensions of papermaking slurries at various percentages (up to 8%) together with poly(diallyldimethylammonium chloride). The drainage and electrokinetic properties of the pulp and mechanical properties of fabricated handsheets were analyzed and compared. The addition of 1% NFC to the bulk suspensions increased tensile index by 14.2% and burst index by 6.3%. There were further increases observed up to 71.8% in tensile index and up to 72.3% in burst index at 8% NFC addition. Results indicate that DES pretreated cellulose nanofibrils have great potential as reinforcing agent in papermaking. [ABSTRACT FROM AUTHOR]

Published

2024

10. 基于方志史料的明至民国时期长江 中下游地区纸质物产研究.

Author

刘海峰, 肖 坤, and 席光兰

Subjects

PAPER products, QING dynasty, China, 1644-1912, PAPERMAKING, NATURAL resources, RAW materials

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

2024

11. 近现代商业档案用纸研究 ——以福建省为例.

Author

王欢欢, 姚 娇, and 刘广瑞

Subjects

ACCOUNT books, WHITE mulberry, PAPERMAKING, HISTORY of archives, FIBERS

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

2024

12. 日本和纸的演进和创新进展.

Author

张静语, 刘 鹏, and 黄艳燕

Subjects

TECHNOLOGICAL innovations, MECHANIZATION, PAPERMAKING, SUSTAINABLE development, STANDARDIZATION

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

2024

13. 古籍修复用纸生产现状、问题与 对策 ——基于全国非遗手工纸的实地考察.

Author

汪 帆 and 刘 华

Subjects

PRESERVATION of books, CULTURAL property, MANUFACTURING processes, FIELD research, PAPERMAKING

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

2024

14. 尼泊尔手工纸的热裂解特性分析.

Author

葛梦帆, 韩 宾, 时嘉瞳, 施继龙, and 杨益民

Subjects

PYRROLE derivatives, MANUFACTURING processes, RAW materials, STEROLS, PAPERMAKING

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

2024

15. Synthesis and characterization of precipitated calcium carbonate from marble waste for its application in papermaking.

Author

Dhakad, Vinod Kumar, Shrivastava, Prashant, Agarwal, Saakshy, and Jana, Susanta Kumar

Subjects

CONTACT angle, WASTE recycling, TRITON X-100, PAPERMAKING, VATERITE, CALCIUM carbonate

Abstract

CaCl2 solution and Ca(OH)2 slurry, both prepared from marble waste (MARWAS), were carbonated with CO2 gas in the presence of cetyltrimethylammonium bromide (CTAB), sodium dodecyl sulfate (SDS), Teepol-610s, Triton X-100, and Tween-80 as the surface modifiers in a semi-batch foam-bed reactor (FBR) to synthesize ultrafine or submicron precipitated calcium carbonate (PCC) particles with enhanced hydrophobicity. Nano/ultrafine PCC particles with and without surfactant were also synthesized in a semi-batch stirrer reactor (SR) using CaCl2 solutions made from MARWAS and NH4HCO3 as the carbonating agent by single or simultaneous application of ultrasonication (US) and surfactant, respectively. The products were characterized by SEM, TEM, XRD, FTIR, and drop-shape analyzer. In the presence of SDS in the FBR, distinct and smaller hydrophobic (water contact angle of 103.3°) vaterite particles (426 nm) could be produced using CaCl2 solution than those with the Ca(OH)2 slurry. However, in the SR, methanol was more effective than the aqueous solvent in synthesizing needle-like aragonite nanoparticles (215.6 nm with L/D = 8.55) from CaCl2 solution without any use of US or surfactant. Handmade papers were manufactured using ground MARWAS powder, modified- and unmodified-PCC. The physical, mechanical, and optical properties of these filler-loaded papers were determined. The use of surface-modified and unmodified PCC was superior to the commercial PCC in increasing filler retention, burst strength, tear strength, brightness, and opacity of the paper handsheets. Even the direct use of MARWAS powder was more effective than ground calcium carbonate in enhancing the optical properties with a slight decrease in the mechanical strength. Utilization of marble waste into papermaking [ABSTRACT FROM AUTHOR]

Published

2024

16. <italic>“Awe</italic>, <italic>Masekinders!”: Kullid</italic> Identities from Eden Park, Johannesburg in the Work of Bougaard.

Author

Bougaard and Bronner, Irene Enslé

Subjects

*MIXED media (Art), *INSTALLATION art, *IDENTITY (Psychology), *PAPERMAKING, *COMMUNITY life, *PRINTMAKING

Abstract

Bougaard, an emerging South African creative practitioner, examines games from her “Coloured” childhood community in Eden Park, Johannesburg, and how these games may offer a window into a reframed Kullid identity. She considers the rhymes used in these games and the role of language—specifically Afrikaaps—in identity formation, and explores through papermaking and art installations the social contexts and meanings embedded in these games. In this article, the authors analyse Bougaard’s use of sculpture, papermaking and printmaking techniques both to mediate and to subvert conventionalised tropes and stereotypes of “Coloured” communities as well as to empower a sense of her familial and community-based identity through an emergent Kullidness. The authors focus on selected paper works and on three mixed media installations (2021–2022). The authors complicate any reading of these works as uncritically affirmative of a declamatory and essentialist identity position by proposing Bougaard’s visual strategies as premised upon mediation, ambivalence, indexicality, and refuting iconicity. The authors identify Bougaard as deploying elements of strategic essentialism in her desire for community visibility and visual sovereignty, and the authors therefore critique the benefits and the limitations of this approach, concluding that Bougaard’s choice of mediating strategies avoids a simplistic narrative of community life. [ABSTRACT FROM AUTHOR]

Published

2024

17. Functionalized Double‐Gradient Janus Filters for Full‐Scale Capture and Inactivation of Multiscale Aqueous Bioaerosols.

Author

Zhou, Zhiqiang, Wang, Di, You, Tianle, Pan, Zhengyuan, Xu, Guilong, Liang, Yun, and Tang, Min

Subjects

*AIR filters, *AEROSOLS, *PAPERMAKING, *WETTING, *FIBERS

Abstract

Exposure to bioaerosols can result in severe infection and even death, prompting the development of numerous air filters to capture and inactivate bioaerosols. Although the wettability of filter media determines its bioaerosol‐capture efficiency, the dynamic collision behavior of multiscale aqueous bioaerosols on most filter media is poorly understood. A double‐gradient Janus paper (Janus paper) with a pore‐size gradient, asymmetric wettability, and biocidal and bioadhesion properties is fabricated in this study using an industrially available papermaking process. The dynamic collision behavior at the micrometer and millimeter scales indicates that the Janus paper enables the full‐scale blocking and/or capture of aqueous aerosols by a two‐step mechanism where the water‐repellent top layer blocks large‐size aqueous aerosols, while the hydrophilic bottom layer permits the adherence of small‐size aerosols to its fibers. The Janus paper exhibits a higher capture and inactivation capacity (inactivation efficiency: 98.3%), better dust‐holding capacity (> 21 g m−2), and a longer lifetime than commercial filter media. Commercial air purifiers comprising the Janus paper exhibit high potential for large‐scale commercial applications owing to the facile, low‐cost, and scalable fabrication method. This study enables future research on efficient and practicable Janus‐paper filter media. [ABSTRACT FROM AUTHOR]

Published

2024

18. Ecology, Pathology, and the Life of Paper.

Author

Gagné, John

Subjects

*PAPER, *BOOKS, *PAPERMAKING, *MATERIAL culture, *ART materials, *BACTERIOLOGY, *CHEMISTRY

Abstract

This essay charts the way that ideas of nature, life and disease generated new approaches to Europe's documentary culture between roughly 1650 and 1950. Training its focus on the medium of paper, specifically the essay, reveals conceptual intersections between caretakers of libraries and archives and naturalists or physicians whose focus was the entomology or bacteriology. The recognition of the fundamentally organic nature of books (animal, vegetable, mineral, in a Linnaean sense) invited fresh vocabularies and practices of care and preservation. The essay first explores how book lovers—often encouraged by learned societies or state agencies in the eighteenth century—campaigned against insects whose habitat lay between the covers of precious tomes. It then traces how nineteenth-century microscopy and bacteriology informed notions of sickness or 'pathology' in books. It ends by describing the efforts to remediate these impairments in the twentieth century: to deploy chemistry and medicine as therapies for bringing imperilled papers back to health. [ABSTRACT FROM AUTHOR]

Published

2024

19. Preparation and Printing Performance of Visible Light Photochromic Paper Based on PMoA-PWA/ZnO/PVP Composite.

Author

Zhao, Wanqing, Zhao, Hongmei, Feng, Wei, and Zhao, Honggang

Subjects

*VISIBLE spectra, *PHOTOCHROMIC materials, *PAPERMAKING, *HETEROPOLY acids, *CHARGE exchange

Abstract

The recyclable paper based on photochromic materials not only reduces the pollution in the paper manufacture process, but also reduces the pollution caused by the use of ink, which receives wide attention. In this paper, a series of phosphomolybdic acid–phosphotungstic acid/ZnO/polyvinylpyrrolidone (PMoA-PWA/ZnO/PVP) hybrid films, which had different ratio of PMoA/PWA, was prepared by the ultrasonic composite method. The results indicated that the hybrid film prepared when the ratio of PMoA to PWA was 3 had the best photochromic performance. In this system, ZnO was the photosensitizer, while PMoA/PWA was the chromophore. The photochromic mechanism of the PMoA-PWA/ZnO/PVP hybrid film was based on the photogenerated electron transfer mechanism. ZnO generated photoelectron under the excitation of visible light, then PMoA and PWA obtained the photoelectron and produced photoreduction reaction to generate heteropolyblue. The visible light photochromic paper was prepared by loaded PMoA-PWA/ZnO/PVP hybrid film (A3) on A4 paper. Application tests showed that the prepared paper had extremely stable, excellent and reversible visible light photochromic properties, whether it was printing patterns or words, and could replace ordinary paper to realize the reuse of paper. [ABSTRACT FROM AUTHOR]

Published

2024

20. Alkaline treatment and fractionation of OCC for strength improvement.

Author

Hossen, M. Nakib, Rahman, M. Mostafizur, Islam, Sharmin, and Jahan, M. Sarwar

Subjects

*PAPERMAKING, *FIBERS, *LIGNINS, *CARDBOARD, *CARBOHYDRATES

Abstract

The main drawback of recycled fibers is the deterioration of fiber bonding dependent papermaking properties (like tensile, tear and burst indexes) due to the hornification effect, as a results of drying during papermaking. In order to improve the papermaking properties through increasing fiber bonding, an alkaline treatment of Old Corrugated Cardboard (OCC) followed by fractionation were carried out in this investigation. Alkaline treatment dissolved 6.6 % organics (carbohydrates and lignin) and fibers became wider as a results of fiber swelling. The alkali treatment decreased fines from 39.9 % to 28.5 %, consequently, decreased drainage resistance from 26 °SR to 21 °SR. The papermaking properties of OCC pulp increased on alkaline treatment. Fiber fractionation of alkaline treated OCC further increased papermaking properties. At 40 °SR value, the tensile index, burst index and tear index of alkaline treated longer fiber fraction was 49 N m/g, 3.2 kPa m2/g, 7.2 mN m2/g, respectively while it was 40.4 N m/g, 2.1 kPa m2/g and 6.1 kPa m2/g, for non-treated longer fiber fraction, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

21. Treatment of secondary fiber papermaking wastewater with aerobic granular sludge cultured in a sequencing batch biofilter granular reactor.

Author

Fu, Qixin, Lei, Lirong, Wang, Caimeng, and Hou, Yi

Subjects

*PAPERMAKING, *BIOFILTERS, *SEWAGE, *WASTEWATER treatment, *MICROBIAL communities, *FIREPROOFING agents

Abstract

Secondary fiber papermaking wastewater (SPW) has received increasing interest because of its enormous discharge, typical high COD, and low biodegradability. The dense and compact structure of aerobic granular sludge (AGS) results in a high sludge concentration in the sequencing batch biofilter granular reactor (SBBGR), which provides superior conditions for the treatment of highly concentrated wastewater. This study constructed an SBBGR to treat SPW, investigated the changes in the species and structural characteristics of pollutants during wastewater treatment, and analyzed the dominant populations that can degrade pollutants in the SPW. The results showed that SBBGR had a good treatment effect on SPW and the removal rates of COD, TN, TP, SS, and color were 90.3 %, 81.9 %, 85.2 %, 73.1 %, and 75.1 % respectively with the influent organic load of 8.1 kg COD m−3 d−1, which was attributed to its outstanding biodegradability. The types and quantities of aromatic compounds in SPW were significantly reduced, according to the results of FTIR, UV–vis, and GC-MS. Microbial community analysis showed that the presence of Bacteroidetes, Proteobacteria, Macellibacteroides, Chlorobium, and Brachymonas in the SBBGR was responsible for the outstanding biodegradation of pollutants in the SPW. In summary, the treatment of SPW with SBBGR is extremely promising for applications. [ABSTRACT FROM AUTHOR]

Published

2024

22. 科教产融合背景下制浆造纸工程专业 实验教学体系构建与实践.

Author

吉兴香, 刘姗姗, 王宝斌, and 王 强

Subjects

EXPERIMENTAL methods in education, PAPERMAKING, INTERNSHIP programs, SYSTEM integration, ACHIEVEMENT

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

2024

23. 慈竹硫酸盐法蒸煮历程的研究.

Author

陈慧琴, 李兵云, and 李海龙

Subjects

DELIGNIFICATION, PAPERMAKING, HEMICELLULOSE, RAW materials, LIGNINS

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

2024

24. 纳米纤维素在造纸中的应用 研究进展.

Author

孙欣然, 李梦艳, 刘 柯, 张欣悦, 李俊超, 杨桂花, and 林兆云

Subjects

PAPER industry, RENEWABLE natural resources, PAPER pulp, PAPERMAKING

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

2024

25. ЄЛИСЕЙ ПЛЕТЕНЕЦЬКИЙ: ОСНОВНІ ВІХИ ЖИТТЯ Й ДІЯЛЬНОСТІ (ДО 400-х РОКОВИН СМЕРТІ АРХІМАНДРИТА КИЄВО-ПЕЧЕРСЬКОЇ ЛАВРИ).

Author

БІЛОУС, Наталія

Subjects

SEVENTEENTH century, SOCIAL history, SIXTEENTH century, MONASTIC life, PAPERMAKING

Abstract

The aim is to highlight the little-known facts of the biography and the main milestones of the life and work of the Archimandrite of Yelysei Pletenetskyi, the Kyiv-Pechersk Lavra, his role in the development of Ukrainian culture, science, and enlightenment in the first quarter of the seventeenth century, thereby honouring the memory of the great Lavra enlightener. The author uses various research methods along the lines of the new social history, as well as comparative historical, problematic chronological, microhistorical, and everyday history. The scientific novelty lies in the coverage of little-known facts of the archimandrite’s biography and activities, which allow us to speak more specifically about the origin of Yelysei Pletenetskyi and new archival finds that correct or expand the known information. Conclusions. The figure of the archimandrite of the Kyiv-Pechersk Monastery, Yelysei Pletenetskyi, is one of the most prominent figures in the Ukrainian cultural space of the turn of the sixteenth and seventeenth centuries, but he has not yet received a separate thorough study. Pletenetskyi’s undoubted merits include the foundation of the institute of preaching, the Lavra intellectual circle, the first school, the establishment of the Lavra printing and papermaking house in Radomyshl, participation in the restoration of the Orthodox hierarchy in 1620, the regulation and improvement of monastic life, and charitable activities. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effects of xylan-modified precipitated calcium carbonate filler on the properties of paper.

Author

Unlu, Onur and Aytac, Ayse

Subjects

*FOURIER transform infrared spectroscopy, *X-ray photoelectron spectroscopy, *CALCIUM carbonate, *PAPER pulp, *CHEMICAL properties

Abstract

The use of mineral-based fillers tends to reduce the mechanical properties of paper, which can limit their application. The filler surface modification is a significant treatment to overcome this limitation. This research aims to offer a novel modified mineral-based filler to provide its industrial application. The surface of precipitated calcium carbonate (PCC) was modified with xylan (XS), which is a type of hemicellulose, a polysaccharide consisting mainly of xylose residues. It is used as a filler at different filler dosage levels in paper pulp. Modified PCC(MPCC) was characterized with Fourier transform infrared spectroscopy, Thermogravimetric analysis, X-ray photoelectron spectroscopy, X-ray diffraction and Field-emission scanning electron microscopy analyses. The analysis demonstrated that the MPCC filler surface was coated with XS successfully. The effect of PCC and MPCC-filled hand-sheet paper physical, chemical and optical properties were studied. The experimental results showed that the mechanical (tensile, burst, tear strength) and optical (brightness, opacity) of hand-sheet paper filled with MPCC were significantly improved compared with unmodified PCC-filled paper at the same ash content. The filler retention of PCC and MPCC fillers in paper was investigated, and the MPCC filler showed better filler retention properties in paper stock than the PCC filler. [ABSTRACT FROM AUTHOR]

Published

2024

27. Preparation of Pulp, Microfibrillated Cellulose, and Paper Hand Sheets from Bakong (Hanguana malayana (Jack) Merr.).

Author

Acaso, Glenn Christian P., Razal, Ramon A., Migo, Veronica P., Alfafara, Catalino G., and Torres, Adela S.

Subjects

CELLULOSE fibers, CORPORATE bonds, ANALYTICAL chemistry, PAPERMAKING, HERBACEOUS plants, LIGNANS

Abstract

Bakong (Hanguana malayana (Jack) Merr.) is a perennial herbaceous plant that grows abundantly in certain parts of the Philippines. This study investigates Bakong fibers' potential as a pulp source for papermaking. Furthermore, microfibrillated cellulose (MFC) produced from the fibers was used as an additive in the Bakong fiber-based hand sheets at 2%, 6%, and 10% w/w, and their effects on their strength properties were observed. The soda pulping method produced Bakong pulp with a total yield of 47.36%. Proximate chemical analysis showed that the method reduced the lignin content from 13.19% to 8.76%, and the resulting pulp was successfully formed into paper hand sheets. The strength properties of the hand sheets were tested, and the resulting burst index, tear index, tensile index, and folding endurance values were 5.98 kPa/m2·g, 6.41 mN·m2/g, 105.97 N·m/g, and 626 double folds, respectively. Aside from the tear index, the Bakong hand sheets' strength properties were much higher than that of locally produced commercial printing paper. The addition of MFC on the hand sheets negatively affected the burst and tensile index values of the Bakong hand sheets but significantly improved the tear index up to 6% w/w. These results show that the pulp produced from the Bakong fibers can potentially be used as an alternative source of pulp for papermaking, but further optimization of the pulping process is recommended to increase the yield, lower lignin content, and improve compatibility with the MFC. [ABSTRACT FROM AUTHOR]

Published

2024

28. IC 厌氧反应器处理 OCC 废水 运行效率研究.

Author

李雄林 and 魏庆伟

Subjects

ANAEROBIC reactors, PAPERMAKING, SEWAGE, RF values (Chromatography)

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

2024

29. 六西格玛工具在生产白面牛卡纸时 干强剂用量优化中的应用.

Author

杨 雪, 贾文玲, 王 超, 邵光运, 谢 晶, and 王 艺

Subjects

DRYING agents, SIX Sigma, COST control, MANUFACTURING processes, PAPERMAKING

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

2024

30. 压力筛流体激振故障诊断案例分析.

Author

李志文

Subjects

FAULT diagnosis, MEDICAL screening, FOREIGN bodies, ROTOR vibration, PAPERMAKING

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

2024

31. Highly Stable, Bending-Tolerant, and Sustainable Flexible Heater through a Scalable Papermaking Procedure.

Author

Liu, Jiajie, Xiang, Huacui, Wang, Wei, Tao, Xiujuan, Bai, Zhou, Li, Zhijian, Wu, Haiwei, Yuan, Suochao, Zhou, Hongwei, and Liu, Hanbin

Subjects

*CELLULOSE fibers, *THERMODYNAMIC cycles, *POWER density, *PAPERMAKING, *HEATING

Abstract

Flexible electrothermal heaters have attracted abundant attention in recent years due to their wide applications, but their preparation with high efficiency remains a challenge. Here in this work, a highly stable and bending-tolerant flexible heater was fabricated with graphite nanosheets and cellulose fibers through a scalable papermaking procedure. Its electrothermal property can be enhanced by a hot-pressing treatment and introduction of cationic polyacrylamide (CPAM) during the papermaking protocol. The flexible heater may quickly reach its maximum temperature of 239.8 °C in around 1 min at a voltage of 9 V. The power density was up to 375.3 °C cm2 w−1. It appeared to have a high tolerance for bending deformation with various curvatures, and the temperature remained stable even under 100 bending with frequency of around 0.17 Hz. Over 100 alternatively heating and cooling cycles, it worked stably as well. It was proved to be used as wearable heating equipment, soft heaters, and aircraft deicing devices, suggesting its great prospect in the field of heat management. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Influence of the Composition of Pulp and the Number of Layers on the Strength Properties of Multi-Layer Papers Intended for the Production of Corrugated Paperboard.

Author

Radomska, Karolina, Olejnik, Konrad, and Pospiech, Piotr

Subjects

*CORRUGATED paperboard, *SULFATE pulping process, *CARDBOARD, *PAPERMAKING, *TENSILE strength

Abstract

This research investigated the influence of the layered structure of paper on its selected strength properties. Two types of cellulose pulp were used: unbleached kraft pine pulp (UBSK) and unrefined bleached birch kraft pulp (BHK). Multi-ply papers were obtained from layers of appropriate grammage formed separately and bonded in a wet state. Paper layers were formed from primary pulps (UBSK and BHK) or their mixtures (threeply UBSK-BHK paper and three-ply UBSK-BHK-UBSK paper), from which various variants of laboratory paper samples were made. This work focused on three-layer papers. The obtained laboratory sheets were analysed for changes in tear resistance, tensile strength, bursting strength, short span compression strength (SCT), and corrugating medium test (CMT). In most cases, three-layer structures were characterised by higher strength parameters than single-layer papers. The tear strength and SCT of papers consisting of three layers formed from both mixed pulps were slightly lower than those of solid papers. The results demonstrate the feasibility of producing three-ply paper with significantly reduced variability in parameters such as elongation and bursting strength, which are inherently subject to high variability. [ABSTRACT FROM AUTHOR]

Published

2024

33. Analyzing Fiber and Vascular Bundle Characteristics, and Micro-Mechanical Properties of Oligostachyum sulcatum.

Author

Kangjian Zhang, Peng Zhao, Linpeng Yu, Fukuan Dai, Yuxuan Chen, Genlin Tian, and Youhong Wang

Subjects

*MODULUS of elasticity, *NANOINDENTATION tests, *MANUFACTURING processes, *PAPERMAKING, *PHYLLOSTACHYS

Abstract

The structure of vascular bundles and the mechanical properties of fibers are crucial factors determining the utilization of bamboo. This study investigated the structure of vascular bundles and evaluated the morphological and micromechanical properties of the fibers in Oligostachyum sulcatum. The results showed that the fiber length and width of O. sulcatum meet the requirements of raw materials for the papermaking process. However, the fiber content in O. sulcatum is relatively low, which may increase the cost of papermaking. The vascular bundle growth exhibited non-uniformity, especially at the top part, with no discernible pattern in bundle area changes. The nanoindentation testing demonstrated that the bamboo's indentation modulus of elasticity (IMOE) and hardness values were comparable to those of moso bamboo (Phyllostachys edulis), suggesting its potential as a substitute in engineering applications. [ABSTRACT FROM AUTHOR]

Published

2024

34. Improved Vacuum Dewatering of Grease-proof Paper Utilizing a Multi-slit Vacuum Suction Box in Laboratory Scale.

Author

Öman, Björn and Sjöstrand, Björn

Subjects

*PAPERMAKING, *PAPER products

Abstract

Grease-proof paper is an energy-demanding paper product to manufacture, especially during refining and dewatering. Increases in energy efficiency in either stage could result in major savings. This article investigates the potential gains with addition of a stepwise progression vacuum suction box to the forming section during production. For both a lighter, 50 g/m², and a heavier paper grade, 100 g/m², with a pulpdrainability of 86 °SR, a stepwise progression vacuum suction box in four steps would result in increased dryness, simultaneously with decreased energy expenditure. The observed effects were higher for the lower basis weight paper (50 g/m²). Both basis weights experienced clogging of the forming fabric due to the high degree of refining. This adversely affected the dewatering rate, decreasing the amount of air pulled through the paper even when increasing the vacuum pressure. When a stepwise progression suction box in four steps was compared to a single vacuum suction box, there was a 14% increase in dryness for lighter paper, over an equal energy consumption, measured as amount of air pulled through the paper. For the 100 g/m² paper, the increase in dryness was 3% compared to the 50 g/m² paper run over a single vacuum suction box. The results show great promise for energy savings when utilizing stepwise progression suction box dewatering for grease-proof paper production. [ABSTRACT FROM AUTHOR]

Published

2024

35. Understanding Polyamidoamine Epichlorohydrin (PAAE) Retention in Paper.

Author

Ntifafa, Yao, Yun Ji, and Hart, Peter W.

Subjects

*SULFATE pulping process, *FACTORIAL experiment designs, *WETTING agents, *PAPERMAKING, *EPICHLOROHYDRIN, *ZETA potential

Abstract

Polyamidoamine epichlorohydrin (PAAE) is a permanent wet strength resin used in papermaking. When applied to paperboard, some amount of resin is retained in the sheet, and some is lost to the white water. The papermaker usually knows the amount of PAAE charged to the pulp but has no idea how much chemical is retained in the sheet. In addition, the influence of PAAE dosage, freeness, zeta potential, and pulp kappa number variability on PAAE retention is not well understood. Factorial design experiments using unbleached and bleached softwood (loblolly pine) kraft pulps were conducted to understand the factors that affect PAAE retention. The results revealed that PAAE retention, wet tear index, and tensile index not only depended on the PAAE charged of the pulp but also depended significantly on the pulp freeness. In lieu of freeness, zeta potential data can be used to predict PAAE retention. In addition, at similar freeness, bleached pulp has the highest retention of PAAE compared to low and high kappa unbleached kraft pulps. The results also suggest that lignin may have potential as a wet strength agent. [ABSTRACT FROM AUTHOR]

Published

2024

36. Sida hermaphrodita Rusby as a Papermaking Raw Material - Chemical and Morphological Characteristics.

Author

Kmiotek, Magdalena, Dybka-Stępień, Katarzyna, Molas, Roman, Kiełtyka-Dadasiewicz, Anna, Gapińska, Magdalena, Glińska, Sława, Siciński, Mariusz, and Imiela, Mateusz

Subjects

*ENERGY crops, *RAW materials, *PAPERMAKING, *WOOD, *CELL morphology

Abstract

A continually increasing demand for papermaking materials and simultaneously growing disproportion between the request for fiber and the limited resources of wood have forced scientists and the papermaking industry to search for the new sources of fibrous raw materials. A new promising set of raw materials for papermaking comes from energy crops. This paper presents Sida hermaphrodita Rusby L., as a non-woody raw material for papermaking. From the studies of chemical composition, it follows that cellulose content of more than 40% characterizes phloem of stems and branches, whereas in xylem exhibits more than 32%. The lowest is the concentration of cellulose in leaves and flowers of Sida. The content of lignin is lower than 24% and 16% in stem xylem and phloem, respectively. In Sida, hemicelluloses and mineral substances stand for being not more than 30% and 2%, respectively. The morphology of Sida cells is similar to hardwood, with fiber length of 0.383, 0.470 and 1.025 mm for parenchyma, xylem, and phloem, respectively. The chemical composition of Sida hermaphrodita together with its morphological characteristics make this raw material suitable for a production of papers intended for printing, writing and tissue. [ABSTRACT FROM AUTHOR]

Published

2024

37. Review on synthesis and biological activity of isothiazolinone and its derivatives.

Author

LI Qi, YANG Yizhou, and YAN He

Subjects

*BIOSYNTHESIS, *AGRICULTURAL productivity, *PAPERMAKING, *PESTICIDES

Abstract

The synthesis methods of isothiazolinone compounds, the modification methods of each site and the application progress in the fields of industry, agriculture and medicine are reviewed. The kind of compound has a wide range of biological activities, such as high efficiency, low toxicity and broad spectrum. It is mainly used in sterilization, algae killing, anticorrosion, antifouling and so on. It is a hot spot in the field of chemical research in recent years. At present, there are commercial products such as Kathon and Sea- Nine 211 (DCOIT). Isothiazolinone compounds play an important role in industrial and agricultural production and life. The application and research progress of isothiazolinone and its derivatives in medicine, pesticide, coating, textile, papermaking, leather making and other fields in recent years were discussed. Finally, the development direction and application prospect of isothiazolinone compounds were prospected. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effects of artificial management on culm properties of Dendrocalamus brandisii.

Author

Yingdan Yan, Chuanfei Yang, Yufang Wu, Jiaxin Liu, and Shuguang Wang

Subjects

BAMBOO, REAL estate management, PAPERMAKING, RAW materials, LIGNINS, CARBOHYDRATES

Abstract

The artificial cultivation and management were extensively carried out in Dendrocalamus brandisii stands. However, the influences of artificial management on the anatomical and chemical characteristics of the bamboo culms were unknown. In this study, the fiber morphology, chemical composition and sugar accumulation of the D. brandisii culms with management and without management were compared in order to determine the influences of artificial management on bamboo culms. The results indicated that artificial management had a significant influence on the fiber morphology, resulting in shorter fiber length, larger L/T ratio, and smaller W/Lu value. However, the management not only increased the contents of moisture, ash, SiO2, and extractive, but also increased the holocellulose contents and decreased the lignin contents, as compared to those without management. Moreover, the management significantly increased the endogenous carbohydrates storage in the culms so as to improve the shoot production. The bamboos under management conditions could still be utilized as a raw material for papermaking. This provided a theoretical basis for the artificial management of D. brandisii stands. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effect of Sheet Properties of Cellulosic Polyglycidyl Methacrylate-Grafted Fibers in a Cationic Polyacrylamide/SiO 2 /Anionic Polyacrylamide Retention Aid System.

Author

Wang, Yueyue, Ma, Pu, Huang, Jun, Guo, Lifang, Wang, Yu, Zhai, Huamin, and Ren, Hao

Subjects

*POLYACRYLAMIDE, *PAPERMAKING, *FIBERS, *PAPER industry, *MANUFACTURING processes, *CELLULOSE fibers, *CATIONIC polymers, *NANOFIBERS

Abstract

As increasing fiber hydrophobicity can significantly improve the paper dewatering process, we found that replacing SBKP and HBKP with 0.5% superhydrophobic CPGMA can significantly improve the dewatering of paper sheets. Therefore, it can be concluded that if CPGMA has little effect on paper properties, it will have potential industrial value in the papermaking industry. Consequently, it is necessary to further study the effect of the CPGMAs@CPAM/SiO2/APAM system on paper properties. To evaluate the application potential of the system in the papermaking industry, we investigated the effects of CPGMAs, which replaced the fibers in the stocks, on the paper properties in the CPAM/SiO2/APAM system. The findings demonstrate that as the CPGMA replacement increased, the paper's tensile strength, bursting strength, tear resistance, and folding endurance all declined. The trend can be segmented into two phases: a rapid decrease for substitution amounts below 0.5% and a gradual decline for substitution amounts exceeding 0.5%. When replaced with a small amount of CPGMAs, there was a negligible effect on these properties. Second, the paper air permeability increased with the CPGMA substitution amount in the stock. Furthermore, the trend of paper air permeability can be divided into two stages—a rapid stage with a substitution amount of <0.5% and a slow stage with a substitution amount of >0.5%. A small amount of CPGMAs could distinctly improve the paper's air permeability. Third, CPGMAs, which replaced fibers in the stock, minutely affected the paper formation. A small amount of CPGMAs substantially boosted the efficacy of the process of paper manufacture and certain characteristics of the paper, and it had a negligible impact on the strength of paper. The CPGMAs@CPAM/SiO2/APAM technology has the potential to improve the retention and filtration performance of CPAM/SiO2/APAM. [ABSTRACT FROM AUTHOR]

Published

2024

40. Semi-theoretical compression model of wet fiber web for the prediction of airflow rate in vacuum dewatering process of papermaking.

Author

Ren, Peng, Fang, Xiangjun, Chen, Sheng, and Wang, Bo-Wei

Subjects

*PAPERMAKING, *AIR flow, *STRAIN hardening, *FIBERS, *POROSITY, *POROELASTICITY

Abstract

This study expands the investigation of a mathematical method for predicting the airflow rate during the vacuum dewatering process of papermaking based on our previous research. By integrating poroelastic theory and initial saturation thickness, based on experimental data with a range of 20–60 kPa pressure difference and 20-200 g · m − 2 basis weight, a mathematical method with a semi-theoretical model for compression characteristics of the wet fiber web, the poroelastic porosity model (PEPM), was developed to support and expand on our previously established empirical model for porosity variations in wet fiber web, the variable porosity model (VPM). The accuracy of the mathematical method with the PEPM in predicting the airflow mass flux passing through the wet fiber web was validated using experimental data with a range of 0–60 kPa pressure difference and 20-200 g · m − 2 basis weight. The mean relative errors with the PEPM within the pressure difference range of 0-20 kPa and 0-60 kPa were 7.68% and 8.80%, respectively, compared to 17.44% and 11.67% for those with the VPM, demonstrating the improved applicability and generalization of the mathematical method, particularly in the zone of low pressure difference exceeding the range of the modeling experimental data. The PEPM effectively revealed the strain hardening behavior during the compression process and the diminishing returns of energy in the vacuum dewatering process with an increasing pressure difference. The developed mathematical method with the PEPM for the compression characteristics of the wet fiber web provides an effective and accurate way to predict the airflow rate during the vacuum dewatering process of papermaking. [ABSTRACT FROM AUTHOR]

Published

2024

41. The Potential Valorization of Corn Stalks by Alkaline Sequential Fractionation to Obtain Papermaking Fibers, Hemicelluloses, and Lignin—A Comprehensive Mass Balance Approach.

Author

Puițel, Adrian Cătălin, Bălușescu, Georgiana, Balan, Cătălin Dumitrel, and Nechita, Mircea Teodor

Subjects

*HEMICELLULOSE, *CORNSTALKS, *LIGNINS, *PAPERMAKING, *FIBERS, *TENSILE strength

Abstract

The current study deals with an examination of strategies for the sequential treatment of corn stalks (CSs) in an integrated manner aiming to obtain papermaking fibers and to recover both lignin and hemicelluloses (HCs). Several pathways of valorization were experimentally trialed, focusing on getting information from mass balance analysis in an attempt to reveal the potential outcomes in terms of pulp yield, chemical composition, and papermaking properties such as tensile and burst strength. The raw lignin amounts and purity as well as separated hemicelluloses were also characterized. In this work, pulp yields in the range of 44–50% were obtained from CSs, while lignin and hemicelluloses yielded maximum values of 10 g/100 g of CS and 6.2 g/100 g of CS, respectively. Other findings of mass balance analysis evidenced that besides the papermaking pulp, the lignin and HCs also have interesting output values. The recovered lignin yield values were shown to be less than 50% in general, meaning that even if 67 to 90% of it is removed from CSs, only about half is recovered. The removal rates of hemicelluloses were found to be in the range of approx. 30 to 60%. About 15 to 25% of the original HCs could be recovered, and polysaccharides-based products with 67 to 75% xylan content could be obtained. Some key opinions were developed regarding how the mass balance could turn as a result of the chosen CS valorization set-up. The determined antioxidant activity showed that both lignin and hemicelluloses had interesting values for IC50. [ABSTRACT FROM AUTHOR]

Published

2024

42. Production of recycled paper using harmless municipal sludge as a new biomass filler.

Author

Sun, Hao, Chen, Xiyu, Wei, Lingjun, Cui, Jieyu, Zhang, Wanlu, and Liu, Longfei

Subjects

*RECYCLED paper, *WASTE paper, *BIOMASS, *PAPER recycling, *PAPERMAKING

Abstract

Due to a shortage of resources, exploring new biomass fillers has become critical for paper making. In this study, we reported an eco-friendly strategy for fabricating low-cost and efficient recycled paper with high mechanical properties using corrugated cardboard waste paper and harmless municipal sludge (HMS). First, the characteristics of HMS, including the particle size, pH, specific surface area, organic functional groups and organic component content, were analyzed. Then, the influence of the amount of HMS on the properties of the recycled paper was studied. Finally, the strengthening mechanism of biomass filling recycled paper was discussed. The results showed that HMS, a biomass filler for recycled paper preparation, exhibited excellent physical and chemical properties, with a median particle size of 6.395 μm, a surface area of 39.974 m2 g−1 and organic functional groups. The tensile index of the recycled paper with 30 % HMS was 13.10 Nm/g, which was 16.4 % greater than that of the unfilled paper and showed better thermal stability. This excellent performance could be attributed to the uniform distribution of HMS on the fiber surface, which improved the accessibility of hydrogen bond formation between fibers. Thus, this study proved that HMS was an excellent biomass filler for producing recycled paper. [ABSTRACT FROM AUTHOR]

Published

2024

43. Structure and abrasion resistance properties of SSB forming fabric in high-speed paper manufacturing.

Author

CHEN Xiu, ZHOU Jixue, GU Bohong, and ZHANG Wei

Subjects

YARN, ABRASION resistance, PAPERMAKING, WEAVING patterns, TEXTILES

Abstract

To study the effect of the structure of self-supporting binding (SSB) forming fabrics for high-speed papermaking on heir abrasion resistance, we analyzed the mass loss rate of SSB forming fabrics with different parameters (weave pattern, bottom weft diameter, warp and weft yarn density, and insertion method, etc.) under the abrasion test conditions of 500, 750, 1 000, 2 500, and 5 000 cycles. The results show that the abrasion degree of SSB forming fabrics increases with the increase of friction cycles, and the influence of weaving pattern on the abrasion resistance of SSB forming fabrics varies with warp and weft densities. When the warp and weft densities are small, the mass loss rate is the highest with the bottom layer made of 10-variant warp satin pattern, whereas when the warp and weft densities are large, the mass loss rate is the lowest. Under the same conditions, the abrasion resistance of SSB forming fabrics is positively correlated with the bottom weft diameter and the warp and weft densities. The abrasion resistance of the main structure of SSB forming fabrics is better than hat of the inserted structure formed by the inserting process. [ABSTRACT FROM AUTHOR]

Published

2024

44. 置换蒸煮锅温差控制策略研究.

Author

徐 凯, 施权浩, 李 超, 孙馥明, 欧振华, 黄德志, 陈 思, and 陈奕坚

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

2024

45. A new recognition of the binding of cellulose fibrils in papermaking by probing interaction between nanocellulose and cationic hemicellulose.

Author

Lan, Xingyu, Fu, Shiyu, and Kong, Yi

Subjects

HEMICELLULOSE, QUARTZ crystal microbalances, CELLULOSE, PAPERMAKING, ELECTROSTATIC interaction, HYDROGEN bonding

Abstract

The paper industry is constantly seeking innovative ways to improve paper quality, increase process efficiency and reduce environmental impact. The unique properties of cationic modification of hemicellulose provide an opportunity to achieve these goals. Herein, eucalyptus hemicellulose was modified with quaternary ammonium groups to yield cationic hemicellulose (CH), which was used to elaborate structural and functional interactions between CH and cellulose nanofibrils (CNFs). These interactions were quantitatively monitored by a quartz crystal microbalance with dissipation (QCM-D). We empirically studied bonding motifs between CNFs and hemicellulose by forming films. The degree of substitution (DS) of CH was made between 0.095 and 0.254 by varying the molar ratio of the reaction, leading to a gamut of positive charges in hemicellulose. The adsorption of CH to a CNF surface was related to electrostatic interactions. The high DS of CH had higher adsorption rate and larger adsorption capacity within the CNF-surface, while CH as a reinforcing agent significantly increased the tensile strength of the film by hydrogen bonding, which was 71% higher than that of unmodified hemicellulose. The strong binding between CH and nanocellulose may highlight a platform to develop paper additives and nanocellulose composites for high-value applications. [ABSTRACT FROM AUTHOR]

Published

2024

46. Multicomponent Nanoparticles Decorating a Lignin-Derived Biochar Composite for 2-Nitrophenol Sensing.

Author

Bao, Tianshuang, Wang, Qi, Jiang, Yuhang, Zhao, Xiangchuan, Cao, Yue, Cao, Jun, Li, Qiaoling, and Si, Weimeng

Subjects

BIOCHAR, SULFATE waste liquor, LIGNINS, NANOPARTICLES, WOOD, PAPERMAKING, PHENOLIC resins, CARBON electrodes

Abstract

Lignin, which contains aromatic phenols, is the second most abundant renewable biomass material in the world. It is the main byproduct of the paper industry and is characterized by abundant sources, renewability, and low cost. The present study focused on the extraction of lignin from poplar wood through a straightforward papermaking approach, thereafter utilizing the resultant black liquor containing lignin for synthesizing lignin-based phenolic resins. During the polymerization process, cobalt (Co) and nickel (Ni) species were introduced and, subsequently, a CoNi/biochar catalyst was obtained through pyrolysis in a nitrogen atmosphere. The prepared catalyst possessed rough spherical structures. The incorporation of Co and Ni enhanced charge redistribution, thereby imparting the catalyst with strong electron acceptance capabilities. The prepared lignin-based phenolic-resin-derived carbon was used for the electrochemical sensing of 2-nitrophenol. The limit of detection (LOD) for 2-nitrophenol was calculated to be 0.0132 µM, with good repeatability, stability, and selectivity. [ABSTRACT FROM AUTHOR]

Published

2024

47. Study of pulp and paper making characteristic produces from sago fiber waste.

Author

Maurila, Talita Dara, Rahmayanti, Handika Dany, Ardiani, Septia, Hastuti, Novitri, and Indrawani, Dian Anggraini

Subjects

*PAPER pulp, *PAPERMAKING, *FIBERS, *TENSILE strength, *CHEMICAL properties

Abstract

This study is about the characterization of pulp and paper from sago fiber waste. The process has several stages: preparing a solution, sago fiber analysis, pulping process, and printing process. The required solutions are NaOH solution (technical), 10% BaCl2 solution, 0.1 N HCl solution, 60% ethanol solution, phenolphthalein indicator solution, 1% starch indicator solution, sindur methyl indicator solution of NaOH titration, borax solution, Na₂S solution (technical), and THIO solution (1 N; 0.1 N). The pulping process is carried out by inserting sago fiber and solutions into a rotary digester machine for 4 hours (170oC). Then, it is removed after 24 hours and dried by a spinner machine. Characterizations on the sample include: chemical and physical properties, mechanical properties, and optical properties. The result shows that sago fiber waste can be used as raw material for paper. The value of grammage of 62 g/m2, thickness of 0.1294 mm, water absorption capacity of 627.27 g/m2, water content of 9.83%, ash content of 26.26%, pH of 7.9, tensile strength of 14.22 MD and 13.33 CD, brightness of 19.8%, and opacity 22.78. The pore diameter of the paper is 4.608 nm. [ABSTRACT FROM AUTHOR]

Published

2024

48. Sida hermaphrodita Rusby as a Papermaking Raw Material – Chemical And Morphological Characteristics

Author

Magdalena Kmiotek, Katarzyna Dybka-Stępień, Roman Molas, Anna Kiełtyka-Dadasiewicz, Magdalena Gapińska, Sława Glińska, Mariusz Siciński, and Mateusz Imiela

Subjects

sida hermaphrodita r., chemical composition, morphology, papermaking, Biotechnology, TP248.13-248.65

Abstract

A continually increasing demand for papermaking materials and simultaneously growing disproportion between the request for fiber and the limited resources of wood have forced scientists and the papermaking industry to search for the new sources of fibrous raw materials. A new promising set of raw materials for papermaking comes from energy crops. This paper presents Sida hermaphrodita Rusby L., as a non-woody raw material for papermaking. From the studies of chemical composition, it follows that cellulose content of more than 40% characterizes phloem of stems and branches, whereas in xylem exhibits more than 32%. The lowest is the concentration of cellulose in leaves and flowers of Sida. The content of lignin is lower than 24% and 16% in stem xylem and phloem, respectively. In Sida, hemicelluloses and mineral substances stand for being not more than 30% and 2%, respectively. The morphology of Sida cells is similar to hardwood, with fiber length of 0.383, 0.470 and 1.025 mm for parenchyma, xylem, and phloem, respectively. The chemical composition of Sida hermaphrodita together with its morphological characteristics make this raw material suitable for a production of papers intended for printing, writing and tissue.

Published

2024

49. Improved Vacuum Dewatering of Grease-proof Paper Utilizing a Multi-slit Vacuum Suction Box in Laboratory Scale

Author

Björn Öman and Björn Sjöstrand

Subjects

grease-proof paper, vacuum dewatering, papermaking, triple vacuum suction box, basis weight, energy efficiency, Biotechnology, TP248.13-248.65

Abstract

Grease-proof paper is an energy-demanding paper product to manufacture, especially during refining and dewatering. Increases in energy efficiency in either stage could result in major savings. This article investigates the potential gains with addition of a stepwise progression vacuum suction box to the forming section during production. For both a lighter, 50 g/m2, and a heavier paper grade, 100 g/m2, with a pulp-drainability of 86 °SR, a stepwise progression vacuum suction box in four steps would result in increased dryness, simultaneously with decreased energy expenditure. The observed effects were higher for the lower basis weight paper (50 g/m2). Both basis weights experienced clogging of the forming fabric due to the high degree of refining. This adversely affected the dewatering rate, decreasing the amount of air pulled through the paper even when increasing the vacuum pressure. When a stepwise progression suction box in four steps was compared to a single vacuum suction box, there was a 14% increase in dryness for lighter paper, over an equal energy consumption, measured as amount of air pulled through the paper. For the 100 g/m2 paper, the increase in dryness was 3% compared to the 50 g/m2 paper run over a single vacuum suction box. The results show great promise for energy savings when utilizing stepwise progression suction box dewatering for grease-proof paper production.

Published

2024

50. 废旧棉纺织品再生浆绿色制备及性质研究.

Author

陈云玲, 陈若愚, 刘克印, 周哲, and 孔凡功

Subjects

COTTON textiles, COTTON fibers, WASTE recycling, TEXTILE waste, POLLUTION

Abstract

Copyright of China Pulp & Paper Industry is the property of China Pulp & Paper Industry Publishing House 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