Your search keyword '"Paper Properties"' showing total 459 results

1. Enhancing Subsequent Kraft Fiber Dewatering Properties by using Fiber Polyamide-epichlorohydrin (PAE) Treatment to Prepare a Dry Pulp Product

Author

Antti Korpela, Atsushi Tanaka, and Jaakko Asikainen

Subjects

market pulp, dewatering, bulking aid, energy consumption, pae, paper properties, Biotechnology, TP248.13-248.65

Abstract

The energy needed for the dewatering and drying of wet paper web represents around half of the energy consumption of papermaking processes. The present work examined whether the dewatering and drying of paper could be enhanced during a previous pulp drying process by pretreating the fibers with polyamide-epichlorohydrin (PAE). According to the hypothesis, the cured PAE restrains swelling and water absorption of water-wetted fibers by forming a fiber-bound, self-crosslinked polymer-network on the fiber surfaces. The hypothesis was tested by adding PAE to never-dried kraft pulp slurry followed by pulp thickening, drying, and final curing of the PAE-resin. After this, the PAE-treated fibers were dispersed in water, and their water retention values (WRV) and Shopper-Riegler values (○SR) were measured. The PAE pretreatments notably decreased the fibers´ WRV and ○SR, indicating improved water removal of paper web in the paper machine forming and drying section. Compared to chemical crosslinking pretreatments, which also can be used to decrease fibers WRV and ○SR-value, a notable advantage of PAE-pretreatment is milder required curing conditions of the PAE, which makes implementation of the method easier in practice. Due to decreased fiber-to-fiber bonding capability, the PAE-treated specialty fibers could take advantage especially as a bulking aid of paperboard, tissue, and absorbent materials.

Published

2024

2. Enhancing Subsequent Kraft Fiber Dewatering Properties by using Fiber Polyamide-epichlorohydrin (PAE) Treatment to Prepare a Dry Pulp Product.

Author

Korpela, Antti, Tanaka, Atsushi, and Asikainen, Jaakko

Subjects

*SULFATE pulping process, *CONSUMPTION (Economics), *PAPER pulp, *ENERGY industries, *ENERGY consumption

Abstract

The energy needed for the dewatering and drying of wet paper web represents around half of the energy consumption of papermaking processes. The present work examined whether the dewatering and drying of paper could be enhanced during a previous pulp drying process by pretreating the fibers with polyamide-epichlorohydrin (PAE). According to the hypothesis, the cured PAE restrains swelling and water absorption of water-wetted fibers by forming a fiber-bound, self-crosslinked polymernetwork on the fiber surfaces. The hypothesis was tested by adding PAE to never-dried kraft pulp slurry followed by pulp thickening, drying, and final curing of the PAE-resin. After this, the PAE-treated fibers were dispersed in water, and their water retention values (WRV) and Shopper-Riegler values (°SR) were measured. The PAE pretreatments notably decreased the fibers' WRV and °SR, indicating improved water removal of paper web in the paper machine forming and drying section. Compared to chemical crosslinking pretreatments, which also can be used to decrease fibers WRV and °SR-value, a notable advantage of PAE-pretreatment is milder required curing conditions of the PAE, which makes implementation of the method easier in practice. Due to decreased fiber-to-fiber bonding capability, the PAE-treated specialty fibers could take advantage especially as a bulking aid of paperboard, tissue, and absorbent materials. [ABSTRACT FROM AUTHOR]

Published

2024

3. 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

4. The Modern Paper

Author

Manfredi, Vail and Manfredi, Vail

Published

2024

5. Determining the Pulping Conditions and Properties of Unbleached Pulp from Uruguayan Pinus Taeda.

Author

Palombo, Viviana, Clavijo, Leonardo, and Cabrera, María Noel

Subjects

LOBLOLLY pine, SULFATE waste liquor, SULFATE pulping process, WOOD-pulp, WOOD, WOOD chips

Abstract

Copyright of Ingeniería (0121-750X) is the property of Ingenieria 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

6. Determining the Pulping Conditions and Properties of Unbleached Pulp from Uruguayan Pinus Taeda

Author

Viviana Palombo, Leonardo Clavijo, and Maria Noel Cabrera

Subjects

kraft pulp, paper properties, pinus taeda, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Context: In Uruguay, numerous Pinus taeda plantations are at final-turn age, but they still do not have commercial destination and are exported as green-wood logs. For the development of this sector, it is necessary to strive towards a comprehensive processing of this resource. Method: This work focused on analyzing the use of Pinus taeda wood available in the country to produce brown kraft pulp with a kappa number of 80, which can be used to make packaging paper. As raw materials, we employed by-products from the mechanical wood-transformation industry (wood chips and thinning wood) and final-turn wood. Pulping tests were carried out, varying the alkali charge and the H-factor while aiming for a kappa number of 80. The viscosity, pulping, and rejection yield were measured in the pulps, and the pH and residual alkali content were evaluated in black liquor. Results: Based on the results, the best pulping conditions were an active alkali charge of 14% (Na2O) and an H-factor of 1260 for sawmill chips and thinning wood, as well as an active alkali charge of 14% (Na2O) and an H-factor of 1080 for final-turn wood. The pulp obtained with sawmill chips exhibited the most resistant fibers, and the final-turn wood pulp was the most sensitive to the refining process. Under the aforementioned conditions, the paper properties of laboratory-produced pulp are comparable with those of commercial pulp. Conclusions: This indicates that it is technologically possible to produce brown kraft pulp from Uruguayan Pinus taeda wood, with adequate quality to produce packaging paper

Published

2024

7. Legibility of Sans-Serif Typeface on Different Paper Grades Made from Invasive Alien Plant Species.

Author

Možina, Klementina, Kovačević, Dorotea, and Možina, Klemen

Subjects

INTRODUCED species, FONTS & typefaces, BLACK locust, JAPANESE knotweed, CORPORATE bonds, INK

Abstract

Featured Application: Papermaking and printing industry, usability, i.e., legibility of printed text. Invasive alien plant species (IAPS) may cause threats to native biodiversity in ecosystems. Researchers have been investigating all the possible ways that they can be used effectively for other purposes. Since IAPS are capable of forming cellulose fibre nets, in this research, papers were made from three different types of IAPS (Japanese knotweed, giant goldenrod, and black locust). This research examined these IAPS papers and their effectiveness when used as printing substrates. In comparison to commercial office paper, the differences in basic, surface, optical, and microscopic properties were measured. As a widely used technology, inkjet printing was applied. We tested a commonly used sans-serif typeface (which has been established as being more legible than other typefaces in previous research) in three different type sizes (i.e., 8, 10, and 12 pt). According to the results, paper made from IAPS could offer some usable properties and acceptable legibility, especially when printing typefaces with specific attributes, such as moderate counter size, higher x-height, and minimal differences in the letter stroke width, are used. An appropriate typographic tonal density should be achieved in combination with an adequate letter size, e.g., 10 pt type size when a sans-serif typeface is used. [ABSTRACT FROM AUTHOR]

Published

2024

8. Enhancing Paper Packaging's Wet Strength Using the Synergy between Chitosan and Nanofibrillated Cellulose Additives.

Author

Andze, Laura, Skute, Marite, Zoldners, Juris, Andzs, Martins, Sirmulis, Gatis, Irbe, Ilze, Milbreta, Ulla, Dabolina, Inga, and Filipova, Inese

Subjects

*CELLULOSE, *PACKAGING materials, *ADDITIVES, *CHITOSAN, *RESEARCH personnel, *PACKAGING

Abstract

The demand for eco-friendly packaging materials has urged researchers to look for alternatives to petroleum-based polymers. In this regard, paper-based products have turned out to be a promising choice; however, their weak resistance to water has limited their application. The use of various additives to enhance paper's moisture resistance is a common practice. However, considering the growing global agenda for sustainable development, the search for new bio-based paper additives has become increasingly important. This study investigated the potential synergistic impact of the addition of nanofibrillated cellulose (NFC) and chitosan additives (CHIT) to different fiber combinations to improve paper's properties, in particular, their wet strength. The efficacy of the additive application order was examined and was found to be crucial in achieving the desired outcomes. The results showed that incorporating CHIT after NFC enhanced the paper's tensile and burst indicators, as well as the paper stretch in the dry state, by 35–70%, 35–55%, and 20–35%, respectively. In addition, the tensile index and stretch in the wet state improved 9–13 times and 2.5–5.5 times over, respectively. The air permeability decreased 2.5–12 times over. These findings demonstrate that the sequential addition of the NFC and CHIT additives yield a greater enhancement of paper's properties than using each additive separately. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effect of Sheet Properties of Cellulosic Polyglycidyl Methacrylate-Grafted Fibers in a Cationic Polyacrylamide/SiO2/Anionic Polyacrylamide Retention Aid System

Author

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

Subjects

cellulose fiber, GMA, CPGMAs, papermaking, paper properties, CPAM/SiO2/APAM, Organic chemistry, QD241-441

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%. 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.

Published

2024

10. Pulp and Paper

Author

Heinemann, Sabine, Arndt, Tiemo, Miletzky, Frank, Zelm, Roland, Merkle, Dieter, Managing Editor, Niemz, Peter, editor, Teischinger, Alfred, editor, and Sandberg, Dick, editor

Published

2023

11. Effect of Chemical Crosslinking on the Biodegradation Rate of Kraft Paper

Author

Antti Korpela, Atsushi Tanaka, and Jaakko Asikainen

Subjects

paper, crosslinking, biodegradability, paper properties, kraft fibers, Biotechnology, TP248.13-248.65

Abstract

Wood-based paper fibers are inherently biodegradable. In contact with moist soil and in compost, papermaking fibers are readily broken down by soil microbes. Resistance to biodegradation is needed, as paper is used for special applications such as mulching in agriculture and forestry, the coating of construction materials, and for packing and wrapping under conditions where packaging materials may be exposed to contact with moist soil or other type microbial active contamination. A preceding study showed that paper chemical crosslinking with glyoxal, citric acid (CA), or methylated 1,3-dimethylol-4,5-dihydroxyethylene urea (mDMDHEU) results in substantially improved paper wet strength and lower paper water absorbency. The present study examined the efficiency of chemical crosslinking treatments with CA and with mDMDHEU to decrease the biodegradation rate of laboratory paper sheets and a sack paper, both made of kraft fibers. The biodegradation was examined using a 48-h enzymatic degradation test and a 2-month soil burial test. The results indicate that chemical crosslinking is an effective non-biocidal method for making sulphate kraft paper more resistant to biodegradation. In some end-uses, improved resistance to biodegradation, along with improved paper wet performance, can enhance paper performance comparable to plastic films.

Published

2023

12. Archival Performance of Paper as Affected by Chemical Components: A Review

Author

Martin A. Hubbe, Crystal Maitland, Moumita Nanjiba, Tali Horst, Kyujin Ahn, and Antje Potthast

Subjects

permanence of paper, aging, decomposition, hydrolysis, storage stability, conservation, paper properties, Biotechnology, TP248.13-248.65

Abstract

For about two millennia, paper has served as a main medium for preservation of people’s ideas, stories, contracts, and art. This article reviews what is known about the various components that make up paper from the perspective of their long-term stability under typical storage conditions. Literature evidence is considered relative to the susceptibility of different paper components to embrittlement, acid hydrolysis, microbiological attack, and discoloration, among others. The cellulose that makes up a majority of most paper items is demonstrably stable enough to persist for many hundreds of years on the shelves of archival collections, though it is susceptible to acid-catalyzed hydrolysis, which can be accelerated by byproducts of decomposition. Though less attention has been paid to the archival performance of various minor components of modern paper products, evidence suggests that at least some of them are subject to likely breakdown, embrittlement, or decay in the course of prolonged storage. Based on these considerations, one can envision different categories of paper that can be expected to meet different levels of storage stability: ancient recipes for handmade papermaking, e.g. washi and hanji, archival-grade paper products, ordinary modern alkaline paper products, and paper manufactured without concerns for its longevity.

Published

2023

13. 酸性环境下温湿度对文献纸张 性能影响研究.

Author

黄四平, 高振海, 陈有路, 郑晨曦, 黄雨蒙, and 杨 波

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

2023

14. Effect of surfactants on the cellulosic fiber characteristics during paper recycling.

Author

Ren, Hui, Mo, Wenxuan, and Li, Bo

Subjects

RECYCLED paper, SURFACE active agents, CATIONIC surfactants, NONIONIC surfactants, ANIONIC surfactants, PREMATURE infants

Abstract

As a kind of chemical additives, surfactants are widely used in the processes of papermaking, which played roles of wetting, dispersing, emulsifying etc. to adjust and maintain the product performance. However, there are few reports about the effect of surfactants on fiber properties, especially during paper recycling. This work investigated the effects of three types of surfactants on the cellulosic fibers and paper properties during five-time recycling. Properties of recycled paper with five times were presented as the index of papermaking potential. The results showed that cetyl trimethyl ammonium bromide (CTAB), a cationic surfactant, had an obvious negative effect on paper properties. For continuous surfactant supplements, the burst, tearing, and tensile index decreased by 50.2%, 41.6%, and 43.6%, respectively. Sodium dodecyl benzene sulfonate (SDBS), an anionic surfactant, had a significant positive effect on fibers' WRV and inhibited the fibers' hornification to some extent. However, it had a negative effect on paper properties by affecting the bonding between the fibers. Triton X-100 (TX-100), a nonionic surfactant, improved paper properties according to the papermaking potential. For adding surfactant only once, the burst, tearing, and tensile index increased by 15.0%, 8.59%, and 7.2%, respectively. For these three types of surfactants, TX-100 was generally more beneficial for fiber and paper. This paper revealed the effects of surfactants on the fiber and paper properties and perfected the theory of surfactants applied for fiber and paper in papermaking. [ABSTRACT FROM AUTHOR]

Published

2023

15. Archival Performance of Paper as Affected by Chemical Components: A Review.

Author

Hubbe, Martin A., Maitland, Crystal, Nanjiba, Moumita, Horst, Tali, Ahn, Kyujin, and Potthast, Antje

Subjects

*PAPER products, *PAPERMAKING, *PAY for performance, *EMBRITTLEMENT

Abstract

For about two millennia, paper has served as a main medium for preservation of people’s ideas, stories, contracts, and art. This article reviews what is known about the various components that make up paper from the perspective of their long-term stability under typical storage conditions. Literature evidence is considered relative to the susceptibility of different paper components to embrittlement, acid hydrolysis, microbiological attack, and discoloration, among others. The cellulose that makes up a majority of most paper items is demonstrably stable enough to persist for many hundreds of years on the shelves of archival collections, though it is susceptible to acid-catalyzed hydrolysis, which can be accelerated by byproducts of decomposition. Though less attention has been paid to the archival performance of various minor components of modern paper products, evidence suggests that at least some of them are subject to likely breakdown, embrittlement, or decay in the course of prolonged storage. Based on these considerations, one can envision different categories of paper that can be expected to meet different levels of storage stability: ancient recipes for handmade papermaking, e.g. washi and hanji, archival-grade paper products, ordinary modern alkaline paper products, and paper manufactured without concerns for its longevity. [ABSTRACT FROM AUTHOR]

Published

2023

16. Effect of Chemical Crosslinking on the Biodegradation Rate of Kraft Paper.

Author

Korpela, Antti, Tanaka, Atsushi, and Asikainen, Jaakko

Subjects

*KRAFT paper, *BIODEGRADATION, *PACKAGING materials, *PLASTIC films, *MICROBIAL contamination

Abstract

Wood-based paper fibers are inherently biodegradable. In contact with moist soil and in compost, papermaking fibers are readily broken down by soil microbes. Resistance to biodegradation is needed, as paper is used for special applications such as mulching in agriculture and forestry, the coating of construction materials, and for packing and wrapping under conditions where packaging materials may be exposed to contact with moist soil or other type microbial active contamination. A preceding study showed that paper chemical crosslinking with glyoxal, citric acid (CA), or methylated 1,3-dimethylol-4,5-dihydroxyethylene urea (mDMDHEU) results in substantially improved paper wet strength and lower paper water absorbency. The present study examined the efficiency of chemical crosslinking treatments with CA and with mDMDHEU to decrease the biodegradation rate of laboratory paper sheets and a sack paper, both made of kraft fibers. The biodegradation was examined using a 48-h enzymatic degradation test and a 2-month soil burial test. The results indicate that chemical crosslinking is an effective non-biocidal method for making sulphate kraft paper more resistant to biodegradation. In some end-uses, improved resistance to biodegradation, along with improved paper wet performance, can enhance paper performance comparable to plastic films. [ABSTRACT FROM AUTHOR]

Published

2023

17. Converting Operations Impact on Tissue Paper Product Properties – A Review

Author

Joana Costa Vieira, Paulo Torrão Fiadeiro, and Ana Paula Costa

Subjects

converting operations, embossing, finishing, paper properties, perforation, tissue paper, winding, Biotechnology, TP248.13-248.65

Abstract

Tissue paper is deep-rooted in our daily life because of its different types of products that allow various applications. Tissue paper is a low grammage paper that is mainly characterized by softness, tensile strength, liquid absorption, and elasticity. These characteristics are essential when producing products such as toilet paper, kitchen rolls, hand towels, napkins, and facials. The tissue paper production involves two stages: formation of the tissue paper sheet itself and its converting into different finished products. Converting is characterized by several operations, namely: unwinding, winding, embossing, lamination, perforation, cutting, packaging, and palletizing. The most impacting operation is the embossing, which consists of marking a pattern on the paper sheet by applying pressure, with the intent to produce papers more aesthetically pleasing to the final consumer and/or a way to identify a particular brand. Also, it affects final properties, increasing the liquid absorption capacity and bulk but reducing softness and tensile strength. Converting is complex and has a huge impact on the finished products properties. In this review, the authors explored the different steps of converting and how they impact the different properties of finished tissue products.

Published

2023

18. 麦草化机浆与废纸浆配抄制备瓦楞原纸.

Author

张宗威, 周建文, 李建国, 胡会超, and 陈礼辉

Subjects

WASTE paper, WHEAT straw, PAPER pulp, ADDITIVES

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

2023

19. Properties and Application of Kraft Pulp Prepared from Waste Bamboo Powder

Author

Hua Chen, Yiying Wang, Jiao Qiu, Junsheng Song, Jianhua Wang, Mingfang Liu, Qizhong Wo, Liuhao Jiang, and Ting Yang

Subjects

occ pulp, bamboo powder, bamboo pulp, paper properties, mechanical properties, Biotechnology, TP248.13-248.65

Abstract

As a by-product of bamboo processing, bamboo powder is incinerated or buried due to its ineffective utilization, which contributes to pollution. The large amount of waste bamboo powder generated during the processing of bamboo products cannot be effectively utilized. Meanwhile, multiple recycling leads to the loss of fiber quality of corrugated cardboard (OCC) pulp, reducing the mechanical properties of paper. In an effort to obtain high value from waste bamboo powder, this study pulped it using the kraft process. Scanning electron microscope (SEM) observations showed that the surface of bamboo fiber had more cracks, which made bamboo fiber have better air permeability. The permeability of bamboo paper was 146% that of the OCC. X-ray diffraction (XRD) analysis showed that the crystallinity of bamboo pulp was 133% that of the OCC pulp. The results of physical testing of paper showed that the tensile strength of bamboo paper was 116% that of the OCC. The tear strength of bamboo paper was 61.7% that of the OCC, and the bursting strength of bamboo paper was 59.1% that of the OCC. Based on the above results, bamboo powder can be used as raw material for making OCC pulp.

Published

2022

20. Legibility of Sans-Serif Typeface on Different Paper Grades Made from Invasive Alien Plant Species

Author

Klementina Možina, Dorotea Kovačević, and Klemen Možina

Subjects

colorimetric properties, inkjet printing, invasive alien plant species, legibility, paper properties, printing substrate, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Invasive alien plant species (IAPS) may cause threats to native biodiversity in ecosystems. Researchers have been investigating all the possible ways that they can be used effectively for other purposes. Since IAPS are capable of forming cellulose fibre nets, in this research, papers were made from three different types of IAPS (Japanese knotweed, giant goldenrod, and black locust). This research examined these IAPS papers and their effectiveness when used as printing substrates. In comparison to commercial office paper, the differences in basic, surface, optical, and microscopic properties were measured. As a widely used technology, inkjet printing was applied. We tested a commonly used sans-serif typeface (which has been established as being more legible than other typefaces in previous research) in three different type sizes (i.e., 8, 10, and 12 pt). According to the results, paper made from IAPS could offer some usable properties and acceptable legibility, especially when printing typefaces with specific attributes, such as moderate counter size, higher x-height, and minimal differences in the letter stroke width, are used. An appropriate typographic tonal density should be achieved in combination with an adequate letter size, e.g., 10 pt type size when a sans-serif typeface is used.

Published

2024

21. Fiber morphology, chemical composition, and properties of kraft pulping handsheet made from four Thailand bamboo species

Author

Somwang Khantayanuwong, Piyawan Yimlamai, Korawit Chitbanyong, Kapphapaphim Wanitpinyo, Sawitree Pisutpiched, Sarawood Sungkaew, Prakit Sukyai, and Buapan Puangsin

Subjects

bamboo fiber, bamboo kraft pulping, chemical composition, fiber morphology, papermaking, paper properties, Science, Textile bleaching, dyeing, printing, etc., TP890-933

Abstract

The microstructural, morphological, chemical, pulp, and paper properties of four fast growing Thai bamboo species, Bambusa vulgaris, Bambusa longispiculata, Dendrocalamus membranaceus, and ×Thyrsocalamus liang, were characterized to evaluate their potential as alternative fibrous raw materials in pulping and papermaking. It was found that the chemical composition of the four bamboo species was not significantly different. The alpha cellulose, lignin, and ash contents were between 46% and 50%, 27% and 29%, and 2% and 3%, respectively. The average fiber length ranged between 1.74 and 2.16 mm and had long fibers similar to softwood fibers. The bamboo fibers were thick-walled, narrow, had a small lumen, and were rigid. The pulp yield of all the bamboo species, prepared by kraft pulping, was high between 45% and 50% and had a low rejection of 0.12–0.33%. The handsheets were prepared from the bamboo pulp using various beating time to develop strength properties. It was observed that the handsheet quality improved with increasing beating time. We conclude that these properties indicate a great potential for these bamboo species for pulp and paper production.

Published

2023

22. Converting Operations Impact on Tissue Paper Product Properties - A Review.

Author

Vieira, Joana C., Fiadeiro, Paulo T., and Costa, Ana P.

Subjects

*PAPER products, *TOILET paper, *WATERMARKS, *TENSILE strength, *TISSUES, *PACKAGING materials

Abstract

Tissue paper is deep-rooted in our daily life because of its different types of products that allow various applications. Tissue paper is a low grammage paper that is mainly characterized by softness, tensile strength, liquid absorption, and elasticity. These characteristics are essential when producing products such as toilet paper, kitchen rolls, hand towels, napkins, and facials. The tissue paper production involves two stages: formation of the tissue paper sheet itself and its converting into different finished products. Converting is characterized by several operations, namely: unwinding, winding, embossing, lamination, perforation, cutting, packaging, and palletizing. The most impacting operation is the embossing, which consists of marking a pattern on the paper sheet by applying pressure, with the intent to produce papers more aesthetically pleasing to the final consumer and/or a way to identify a particular brand. Also, it affects final properties, increasing the liquid absorption capacity and bulk but reducing softness and tensile strength. Converting is complex and has a huge impact on the finished products properties. In this review, the authors explored the different steps of converting and how they impact the different properties of finished tissue products. [ABSTRACT FROM AUTHOR]

Published

2023

23. Hydrogels -- a desirable alternative to water paper restoring procedures: impacting paper properties.

Author

Baublytė, Monika, Kupčiūnaitė, Justė, Liubinienė, Milda, and Beganskienė, Aldona

Subjects

*WATER immersion, *WATER acidification, *HYDROGELS, *FILTER paper, *PAPER chemicals, *AGAROSE, *DISTILLED water

Abstract

Water immersion is a common practice for treating paper media. However, this treatment could irreversibly damage paper and the information written on it -- such procedures are advised if the documents do not contain water-resistant components such as inks or paints and the form is mechanically stable. Thus, polymeric materials are an attractive alternative to water immersion cleaning. Various polymers are used to produce hydrogels, but there is not much information on cleaning effects before and after aging. Due to their highly rigid properties, Kelcogel, TopVision Agarose and Phytagel™ hydrogels could be applied to clean fragile paper media instead of water immersion. The hydrogel could safely clean without any residue or change of paper properties. Selected polymers were analysed for composition, water discharge and acidity according to the corresponding requirements for restoration processes: to establish changes in chemical and physical paper properties after hydrogel cleaning, filter paper samples were analysed with SEM, TGA, FTIR and pH-meter and compared to the benchmarks of filter paper cleaned with distilled water. [ABSTRACT FROM AUTHOR]

Published

2022

24. Comparison of fibers obtained from industrial corncob residue by two delignification methods and their application in papermaking.

Author

Niu, Bao-Ze, Yuan, Tao, Zhang, Tao, and Song, Xian-Liang

Subjects

*CELLULOSE fibers, *PLANT fibers, *DELIGNIFICATION, *CORNCOBS, *PAPERMAKING, *SODIUM carboxymethyl cellulose

Published

2022

25. Influence of DNA as additive for market pulp on tissue paper.

Author

Ferreira, A. Cláudia S., Aguado, Roberto, Carta, Ana M. M. S., Bértolo, Raquel, Murtinho, Dina, and Valente, Artur J. M.

Subjects

*PAPER pulp, *CELLULOSE fibers, *PLANT fibers, *DNA

Published

2022

26. Influences of Fiber and Pulp Properties on Papermaking Ability of Cellulosic Pulps Produced from Alternative Fibrous Raw Materials

Author

Edyta Małachowska, Aneta Lipkiewicz, Marzena Niemczyk, Marcin Dubowik, Piotr Boruszewski, and Piotr Przybysz

Subjects

fiber dimensions, pulp properties, paper properties, cellulosic pulp, alternative fibrous raw materials, Science, Textile bleaching, dyeing, printing, etc., TP890-933

Abstract

The analyzes of cellulosic fibers and properties of cellulosic pulps are extremely important in the process of paper production. If the set point is known, we can predict fairly accurately the effects of fiber dimensions and pulp properties on the final product, which would consequently help in the precise selection of fibrous raw material types suitable for specific recipes and paper applications. In this study, the correlations between the dimensions of cellulosic fibers of alternative fibrous raw materials, pulp properties, and paper were investigated to predict paper strength based on the parameters characterizing the pulp.

Published

2021

27. Investigation of pulp and paper production from hemp (Cannabis sativa L.) stalks

Author

Mustafa Çiçekler, Ahmet Tutuş, Tamer Sözbir, Bekir Yemşen, and Sibel Bilgiç Kara

Subjects

kenevir sapı, kağıt hamuru, kağıt, kağıt özellikleri, hemp stalk, pulp, paper, paper properties, Forestry, SD1-669.5

Abstract

In this study, the use of bast fibers removed hemp (Cannabis sativa L.) stalks in pulp and paper production and some physical and optical properties of the produced papers were investigated. The chemical components and fiber morphological properties of hemp stalks free of bast fibers were determined and their suitability for pulp and paper production was examined. The holocellulose, cellulose and lignin contents of the hemp stalks were 79.7%, 52.0% and 22.2%, respectively, while fiber length, fiber width and lumen diameter were 0.60 mm, 28.8 µm and 13.4 µm, respectively. In line with these data, pulp production was carried out by cooking the hemp stalks with the Kraft cooking method. The yield, kappa number and viscosity values of pulp obtained from hemp stalks were determined as 48.2%, 39 and 1400 cm3/g, respectively. The breaking length and brightness values of the papers produced from these pulps were measured as 6.87 km and 33.34% ISO, respectively. Consequently, high yield and strength pulps can be produced from hemp stalks free of bast fibers, and since it has a low kappa number and high viscosity, it can be easily bleached.

Published

2021

28. 生物酶法竹渣填料的制备及其 抄纸应用性能研究.

Author

刘 强, 韩 卿, 陈 卓, 庄 堃, and 罗建雄

Subjects

WATER quality, BAMBOO, THERMAL stability, PAPERMAKING, 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

2022

29. Effect of Different Size Ratio and Filling Method on the Characteristics of Calcium Silicate-filled Paper.

Author

Sheng Xu, Peng Xu, Pu-Qi Zhao, and Yu-Ting Du

Subjects

*CALCIUM silicates, *FLY ash, *PAPER pulp, *CALCIUM, *RAW materials, *PAPERMAKING

Abstract

Process conditions were investigated relative to the use of the fly ash predesilication-alkali lime sintering method to extract calcium silicate, which is a by-product of alumina co-production technology, for use as paper filler. The ratio of different fiber raw materials, filler filling ratio, and filling method were studied, and papermaking experiments were conducted. The results showed that calcium silicate filler at a higher proportion (40%) paper can still maintain high mechanical properties. Under the same filling ratio and filling method of calcium silicate filler, the comprehensive performance of softwood pulp and hardwood pulp papermaking paper was found to be better than that of deinked pulp paper. [ABSTRACT FROM AUTHOR]

Published

2022

30. 硫酸盐竹浆与木浆的打浆特性 和纸张性能对比研究.

Author

朱宗伟, 李兵云, and 李海龙

Subjects

WOOD-pulp, SULFATE pulping process, BAMBOO, ENERGY consumption, FIBERS, BLEACHING (Chemistry), CLEANING

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

31. The preparation of carboxymethyl cellulose from corncob residue and its effects on paper properties.

Author

Zhang, Tao, Wang, Shuai, Zhang, Liping, Liu, Liujun, and Song, Xianliang

Subjects

*CARBOXYMETHYLCELLULOSE, *CORNCOBS, *CARBOXYMETHYL compounds, *SODIUM hypochlorite, *ZETA potential, *CELLULOSE, *CARBOXYMETHYLATION

Abstract

In this study, corncob residue was treated in advance with different three methods in order to remove lignin. The treated fibers were characterized using Zeta potential, WRV, and FAS-VII fiber analysis methods. The lignin removal rates of the corncob residue treated with sodium hypochlorite were determined to reach up to 92.81%. The average fiber length was 0.65 mm, and the average width was 34.11 µm. In addition, the obtained cellulose was modified by carboxymethylation to prepare carboxymethyl cellulose. The results indicated that the carboxymethyl cellulose obtained from the corncob residue could significantly improve the properties of paper. For example, when 1% carboxymethyl cellulose was added, the burst index, tensile index, folding endurance, and tear index of the experimental paper were improved by 16.7%, 27.65%, 57.3%, and 18.2%, respectively, compared with the control. The results of this study's SEM analysis showed that the addition of carboxymethyl cellulose from corncob residue resulted in the fibers becoming more tightly combined, which in turn led to the improvement of paper strength properties. [ABSTRACT FROM AUTHOR]

Published

2022

32. Nanocellulose Applications in Papermaking

Author

Salas, Carlos, Hubbe, Martin, Rojas, Orlando J., Fang, Zhen, Series Editor, Smith, Jr, Richard L., editor, and Tian, Xiao-Fei, editor

Published

2019

33. Seeking a paper for digital printing with maximum gamut volume: a lesson from artificial intelligence.

Author

Ataeefard, Maryam and Tilebon, Seyyed Mohamad Sadati

Subjects

ARTIFICIAL intelligence, ELECTRONIC paper, DIGITAL printing, ARTIFICIAL neural networks, DIGITAL printing presses, COMPUTER printers, ATOMIC force microscopy

Abstract

The color gamut of imaging media is significant for the reproduction of color images because its magnitude directly affects the degree to which colors change during the printing process. Over the last few years, digital impression technology has started to play a substantial role in the printing industry due to the quest for short runs and variable information printing. The color gamut of electrophotographic digital printing depends on various parameters including the printer and toner, but especially the properties (whiteness, roughness, and gloss) of the paper, which influence the final printed color gamut and replication quality. Artificial intelligence approaches are applied herein for the first time to choose and predict the performance of a paper with appropriate properties to achieve the maximum color gamut. A genetic algorithm-based computer code is developed to optimize the architecture of an artificial neural network, thereby yielding an accurate model to predict the color gamut achievable in electrophotographic color printing. The gamut volume was generated using an Eye-One spectrophotometer, ProfileMaker, and ColorThink software. The properties of 11 dissimilar types of paper were assessed by atomic force microscopy, spectrophotometer, and goniophotometer. The results indicate that the reproducibility depended considerably on the features of the paper. Although high whiteness and gloss increased the color gamut volume, and high roughness decreased the reproducibility of the printing machine, the artificial intelligence approach provided the opportunity to achieve a high gamut volume with low gloss and high roughness. [ABSTRACT FROM AUTHOR]

Published

2022

34. 封闭型水性聚氨酯合成及在 纸张表面施胶中的应用.

Author

段业睿, 沈一丁, 李小瑞, 刘一鹤, 杨博, and 李春艳

Subjects

METHYL ethyl ketone, POLYETHYLENE glycol, CONTACT angle, BUTANEDIOL, ISOPHORONE

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

2021

35. اثر پیرسازی حرارتی بر خواص کاغذهای دستساز تقویتشده با تیمار نانوالیاف سلولز

Author

کبری دادمحمدی, محسن محمدی آچاچلویی, and محمدتقی جعفری

Abstract

In this study, the effect of cellulose nanofibers on the properties of handmade papers produced from hemp and wood pulp fibers was assessed. Also, the nanofiber application as a strength enhancer for restoration of handmade papers was investigated. First, handmade paper samples were prepared and then treated with the suspension of cellulose nanofibers with weight percentages of 0.5, 1 and 2% in water. Control and treated samples were exposed to accelerated aging process and then pH, colorimetric and tensile strength tests were performed. Comparison of control and treated samples results showed that the tensile strength of the both groups of hemp (H) and wood pulp (WP) papers were increased after treatment by cellulose nanofibers. Aging process reduced the tensile strength of treated samples but increased compared to samples before and after aging. The pH of the papers in both groups was in the alkaline range after the treatment and aging. Brightness of papers was increased after the treatment. Color changes in the samples were due to their accelerated aging conditions. [ABSTRACT FROM AUTHOR]

Published

2021

36. Influences of Fiber and Pulp Properties on Papermaking Ability of Cellulosic Pulps Produced from Alternative Fibrous Raw Materials.

Author

Małachowska, Edyta, Lipkiewicz, Aneta, Niemczyk, Marzena, Dubowik, Marcin, Boruszewski, Piotr, and Przybysz, Piotr

Subjects

*RAW materials, *PAPERMAKING, *CELLULOSE fibers, *FIBERS, *MANUFACTURING processes, *POINT set theory

Abstract

The analyzes of cellulosic fibers and properties of cellulosic pulps are extremely important in the process of paper production. If the set point is known, we can predict fairly accurately the effects of fiber dimensions and pulp properties on the final product, which would consequently help in the precise selection of fibrous raw material types suitable for specific recipes and paper applications. In this study, the correlations between the dimensions of cellulosic fibers of alternative fibrous raw materials, pulp properties, and paper were investigated to predict paper strength based on the parameters characterizing the pulp. [ABSTRACT FROM AUTHOR]

Published

2021

37. ВЪЗМОЖНОСТИ ЗА ПРИДАВАНЕ НА МУЛТИФУНКЦИОНАЛНИ СВОЙСТВА НА ХАРТИИ.

Author

Лашева, Веска, Тодорова, Димитрина, Яворов, Николай, and Иванова, Калина

Abstract

Paper and paper products play an important role in every area of human activity. Its importance is determined by its use for recording, storage and dissemination of information, as a material for wrapping and packaging, as well as for constructive application. This determines the unlimited possibilities and application of paper materials. The aim of the present work is to study the interdependencies between the components of the paper - fibrous materials from which the papers are obtained, the technological mode of their processing and ecological chemical auxiliaries in view of the possibilities of obtaining papers with multifunctional properties and special barrier properties such as water resistance, biocidality, durability, mechanical strength. The paper is characterized by a heterogeneous capillary-porous structure formed by drainage under certain conditions of a highly dilute aqueous dispersion, representing a reversible thixotropic-coagulation system. The elements of this system are both different in nature and suitably treated fibres, as well as different fillers and various chemical auxiliaries. The chemical auxiliaries added to the plant fibres form, above all, the necessary properties of the paper sheet, support the production process and enable the saving of fibrous material. When processing paper and cardboard by physicochemical methods, composite materials having a new supramolecular structure are obtained. The processes of coating, impregnation, etc. also belong to the physicochemical processes for processing papers and cardboards. The preservation of the reinforcing role of cellulose fibrils and fibres at all stages of the transition to paper and its processing is possible only due to the targeted change in the physical (relaxation) state of the polymers. The transition of the amorphous regions of the cellulose to a highly elastic state and the preservation of its crystal structure ensures the intermolecular interaction between the cellulose and the other polymer components. After selection of suitable fibrous materials and subsequent treatment, selected chemical auxiliaries are added to the paper suspension to obtain special properties of the papers. There is a mutual connection between the different functional properties of the obtained papers. Different methods can be used to achieve certain properties of the paper. [ABSTRACT FROM AUTHOR]

Published

2021

38. Effects of calcium silicate synthesized in situ on Fiber loading and paper properties.

Author

An, Yongzhen, Liu, Haitang, Liu, Jing, Li, Xuexiu, Li, Jie, Chen, Lin, Jin, Xin, Xu, Yan, Zhao, Zhiqiang, Song, Shunxi, Hui, Lanfeng, Liu, Zhong, and Huang, Yingjian

Subjects

*CALCIUM silicates, *WOOD-pulp, *POLYACRYLAMIDE, *HARDWOOD industry, *REACTION time

Abstract

The in-situ synthesis of calcium silicate in the fiber can not only meet the requirements for high loading of paper, but also make up and improve the reduction of paper performance caused by filling. In this investigation, the effects of pulp type, beating degree, fiber ratio, reaction time, rotational speed, dosage of lime milk and dispersant on calcium silicate loading and paper properties were investigated. The results showed that when the beating degree was 40 °SR, the ratio of softwood and hardwood pulp was 1:1, the reaction time was 60 min, the rotation speed was 600 r·min−1, the dosage of lime milk was 1.33 times of the theoretical amount, and the dosage of cationic polyacrylamide was 0.3 % (absolutely dry pulp), the ash content of hand-made sheet was 41.2 %, and the loading amount of calcium silicate was 26.3 %. Under this condition, the comprehensive performance of paper was the best. [ABSTRACT FROM AUTHOR]

Published

2021

39. Comparison of Cyclic Voltammetry Measurements of Paper-Based Screen Printed Electrodes via Proprietary and Open Source Potentiostats.

Author

Karlovits, Igor, Kavčič, Urška, Trafela, Špela, and Rožman, Kristina Žužek

Subjects

*CYCLIC voltammetry, *SCREEN process printing, *PROCESS control systems, *ELECTRODES, *ELECTRODE testing, *GRINDING & polishing, *PRINT materials

Abstract

The use of screen-printed electrodes in different monitoring applications, e.g., polluted water, biotechnology, agriculture, industrial process control, and other applications, are continuously being developed. New cheap and open-source potentiostats have been recently emerging, in addition to the commercial and proprietary solutions on the market. In this study, paperbased, screen-printed electrodes were utilised as an alternative solution for ceramic-based electrodes and were tested with two potentiostats (proprietary and low-cost open-source running on wireless 64 bit Linux system installed on Raspberry Pi 3+). Unique paper substrates made from invasive plant papers and one commercial product were used for screen electrode printing. Ink layer thicknesses variations and mechanical grinding were applied, and cyclic voltammetry measurements were conducted. The variation in cyclic voltammetry measurements could be attributed to two sources: the potentiostats showed differences in their sensibility and signal values, and paper surface and structure also contributed to differences. Simultaneously, the additional processing steps, e.g., mechanical grinding, introduced additional measurement variations and differences in the measurement process. [ABSTRACT FROM AUTHOR]

Published

2021

40. Micro-nanofibrillated cellulose preparation from bleached softwood pulp using chemo-refining approach and its evaluation as strength enhancer for paper properties.

Author

Kumar, Varun, Pathak, Puneet, and Bhardwaj, Nishi Kant

Subjects

SOFTWOOD, HARDWOODS, CELLULOSE, PULPING, PAPERMAKING, SURFACE properties, OPTICAL properties

Abstract

An industry compatible chemo-refining approach was tested for preparation of micro-nanofibrillated cellulose (MNFC) from bleached softwood pulp using sodium meta-periodate and sodium chlorite as oxidizers followed by refining in Valley beater. SEM and FTIR analyses confirmed micro-nano scale fibrillation and chemical functional group modification in laboratory prepared MNFC, respectively. The water retention value, carboxyl content and viscosity of MNFC were found comparable with imported NFC as reference (R-NFC). To evaluate MNFC as strength enhancer for paper properties, 5% MNFC addition to bleached mixed hardwood pulp showed 6% reduction in bulk with 36%, 24% and 97% increment in breaking length, burst index and double fold of the handsheets, respectively without affecting tear index and optical properties than the control. Surface properties were also improved. Pulp drainability (37°SR) after MNFC addition was found suitable for papermaking. These laboratory results confirmed the potential of MNFC as a suitable strength additive for paper quality improvement. [ABSTRACT FROM AUTHOR]

Published

2021

41. 竹片化学机械法提取木聚糖及 残余物抄纸利用研究.

Author

刘建安, 董晓斌, 樊慧明, 马克顺, 黄 瑾, 刘青君, and 牟洪燕

Subjects

PAPER products, PAPERMAKING, BAMBOO, AUTOCLAVES, ALKALIES

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

2020

42. 纳米硫酸钡复合材料对改善 纸张性能的研究.

Author

杜 鹏, 赵传山, 韩文佳, 姜亦飞, 丁其军, 李杰华, and 熊晓敏

Subjects

TITANIUM dioxide, COMPOSITE materials, BLUE light, INDUSTRIAL costs, TITANIUM

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

2020

43. Effect of Cationic Starch- CMC Self-assembly Layers on Recovered Fibers of Neutral Sulfite Semi-chemical Pulp and Resultant Paper Properties

Author

Hamid reza Rodi, Haseibeh Saeedi, and Kermanian Hossein

Subjects

Broke Fibers, starch, Neutral Sulfite Semi-chemical Pulp, Self-assembly Layers, Paper properties, Forestry, SD1-669.5

Abstract

Improvement the strength properties of papers made from recycled fibers is of important aims in papermaking industries. Current researches revealed that higher retention of strength induced additives through alternative absorption of polymers having opposite charge is one of promising approaches to obtain such purpose. In this study, treatment of fibers prepared from neutral sulfite semi-chemical papers with cationic starch and anionic CMC was conducted in pH~7, pH~10 and 0.001 M NaCl salty suspension. Then, fibers water retention value and zeta potential was measured. Standard handsheets with 60±3 g/m2 basis weight were made from untreated and treated pulps. The results have shown that fibers WRV significantly increased by absorbing of these two water-loving polymers. Consecutive changes of zeta potential confirmed charge reversion of fibers surface and sequential absorption of couple polymers. Scanning electron micrographs prepared from the samples of untreated and treated papers presented new variations in amount of fibers bend area due to the larger absorption of these two reinforcement polymers. Moreover, considerable development in paper mechanical characteristics (tensile, burst and tear indices) proved the success of high absorption of applied bio-polymers.

Published

2018

44. d-Na2Si2O5∕PVA对无机纤维软化增强 及其在造纸上的应用研究.

Author

张 婧, 侯党社, 辛莹娟, and 鲍 艳

Subjects

INORGANIC fibers, PLANT fibers, SCANNING electron microscopes, SULFATE pulping process, 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

2020

45. Accelerated Aging of Deacidified and Untreated Book Paper in 1967 Compared with 52 Years of Natural Aging.

Author

Horst, Tali H., Smith, Richard D., Potthast, Antje, and Hubbe, Martin A.

Abstract

Three copies of a book that had been optionally deacidified using two different procedures in 1967, and then subjected to accelerated aging, were tested again after 52 years of natural aging. Matched copies of the book Cooking the Greek Way, which had been printed in Czechoslovakia on acidic paper, were evaluated. Nonaqueous treatment of two of the copies with magnesium methoxide dissolved in chlorofluorocarbon solvent had been found in 1967 to have decreased the susceptibility to embrittlement, as evidenced by the results of the accelerated aging, followed by folding endurance tests. Retesting of the same books in 2019, after 52 years of room temperature storage, showed that the deacidification treatments had achieved the following benefits in comparison to the untreated book: (a) higher brightness; (b) higher folding endurance; (c) tensile breaking length higher in the cross-direction of the paper; (d) substantial alkaline reserve content, (e) an alkaline surface pH in the range 7.1–7.4, and (f) higher molecular mass of the cellulose. Remarkably, some of the folding endurance results matched those of unaged samples evaluated in 1967. Scanning electron micrographs showed no differences between the treated and untreated books. [ABSTRACT FROM AUTHOR]

Published

2020

46. The influence of process parameters of screen-printed invasive plant paper electrodes on cyclic voltammetry.

Author

Kavčič, Urška and Karlovits, Igor

Subjects

*CYCLIC voltammetry, *PAPER, *ELECTRODES, *INVASIVE plants, *JAPANESE knotweed, *GOLDENRODS

Abstract

Using disposable screen-printed electrodes is a convenient way of monitoring environmental pollution, production process control etc. Usually, commercially available screen-printed electrodes are used, but more and more studies are being carried out in the field of printing electrodes on thinner, low-cost and versatile substrates, including paper. In the present research, the comparison of screen-printed electrodes printed on different paper-based materials is presented. Two unique and innovative invasive plant-based papers made from (1) Japanese knotweed, (2) Canadian and Giant goldenrod and (3) commercially available cardboard were used as a printing material for the electrodes. The selected paper substrates were characterized, and screen-printed electrodes were printed. The influence of substrates' properties and pre- or post-treatment of the screen-printed electrodes on the electrochemical behaviour is thoroughly analyzed. The results indicate that the printing substrate (roughness) had the most significant influence on the cyclic voltammetry response. Comparing pre- and post-treatment of screen-printed electrodes, it was shown that grinding influenced the electrochemical activity significantly, while corona discharge does not have as significant influence. Besides, it was shown that the invasive plant-based papers are viable alternatives to commercially available papers and can be used as low-cost and eco-friendly alternatives for disposable screen-printed electrodes. [ABSTRACT FROM AUTHOR]

Published

2020

47. High strength paper from high yield pulps by means of hot-pressing.

Author

Joelsson, Tove, Pettersson, Gunilla, Norgren, Sven, Svedberg, Anna, Höglund, Hans, and Engstrand, Per

Subjects

*PAPER pulp, *PAPERMAKING, *STRENGTH of materials, *HOT pressing, *LIGNINS

Abstract

The hypothesis is that it should be possible to modify papermaking conditions in line with the softening properties of high yield pulp fibres and achieve similar strength properties to conventional chemical pulp based paper. We therefore investigated the rheological and physical properties of high yield pulp based papers during hot-pressing. Our results confirm that increased temperature combined with sufficient pressure enables permanent densification by softening of lignin, producing very high tensile strength. This treatment also significantly improved the wet tensile strength in comparison to bleached kraft pulp without using wet strength agents. The high yield pulps used here were spruce based thermomechanical pulp, chemi-thermomechanical pulp, and high temperature chemi-thermomechanical pulp, and birch-aspen based neutral sulphite semi chemical pulp, with spruce-pine based bleached kraft pulp as reference. Rapid Köhten sheets of 150 g / m 2 150\hspace{0.1667em}\text{g}/{\text{m}^{2}} and 50 % dryness were hot-pressed in a cylinder-press at 20–200 °C, 7 MPa, and 1 m/min. The mechanical properties showed great improvements in these high yield pulp papers, with tensile index increased to 75 kNm/kg and compression strength index to 45 kNm/kg; levels close to and better than bleached kraft. Wet strength increased to 16 Nm/g compared to 5 Nm/g for bleached kraft. [ABSTRACT FROM AUTHOR]

Published

2020

48. High-strength paper enhanced by chitin nanowhiskers and its potential bioassay applications.

Author

Tang, Hua, Wu, Jing, Li, Dongjian, Shi, Congcan, Chen, Guangxue, He, Minghui, and Tian, Junfei

Subjects

*CHITIN, *CELLULOSE fibers, *BIOLOGICAL assay, *SURFACE charges, *CRYSTAL whiskers, *LIQUID analysis

Abstract

In this paper, nanochitin was used as an alternative natural nanomaterial to combine with cellulose fibers for fabricating high-strength paper. Two typical chitin nanowhiskers having contrasting sign of surface charge were compared to evaluate the enhancement performance on paper in details. The results show that nanochitin with positive charges on the surface has a significant effect on the strength properties of the prepared paper, especially on wet strength. When the dosage of chitin nanowhiskers was 2%, the wet strength index was increased to 2.48 N·m/g, which is important for paper-based analytical devices with the common use in liquid analysis. Typical colorimetric glucose assays were successfully performed, suggesting the improved analytical performance on these prepared paper. Unlabelled Image • Chitin nanowhiskers significantly reinforced the cellulose fiber matrix. • The prepared paper shows higher wet strength when exposed to analytical fluids. • The prepared paper improved colorimetric performance of glucose assays. [ABSTRACT FROM AUTHOR]

Published

2020

49. CHEMICAL TREATMENT OF RECYCLED PULP FIBRES FOR PROPERTY DEVELOPMENT: PART 3. EFFECTS ON OCC PULPS.

Author

SAHIN, H. Turgut, SUTCU, Abdullah, and TUTUS, AHMET

Subjects

*TENSILE strength, *SODIUM hydroxide, *FIBERS, *PULPING, *ETHYL acetate

Abstract

Chemical treatment with sodium hydroxide, formamide and ethyl acetate is shown to affect certain properties of paper made from recovered fibres. Sodium hydroxide treatment improves the brightness of sheets by approx. 0.12-17.2% under similar recycling conditions. All chemical treatments usually improve the tensile and burst strengths of sheets to some degree. The highest tensile and burst strength values of 42.09 Nm/g and 2.60 kPa m²/g were obtained at the first recycling stage with 10% ethyl acetate treatment (O10Et1), and these represent approximately 142.2% and 100% improvement of tensile and burst strength respectively. In contrast, although the results revealed that certain chemical treatments markedly improved both tensile and burst strengths, there is some variation observed for tear strengths. The largest improvement in tear strength (72.9%) was found at the third recycling stage with 5.0% formamide treatment (O5Fa3), followed by O10Et3 (33.9%) and O10Na3 (29.2%). It is important to note that the highest tear strength value of 9.09 Nm²/g was found at the second recycling stage of the control samples. The results clearly show that the tensile and burst strengths of sheets can be improved by certain chemical treatments, but there is no correlation with tear strengths. [ABSTRACT FROM AUTHOR]

Published

2020

50. 人参提取残渣配抄木浆制备特色名片原纸探究.

Author

韩淑君, 陆金顺, 刘丹, 孙华庚, 刘莹, 戴林, and 司传领

Subjects

WOOD-pulp, SULFATE pulping process, WOOD waste, WASTE recycling, BUSINESS cards

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

2020