Showing total 23,307,730 results

1. Author Index.

Subjects

PAPER arts, GOVERNMENT report writing, AUTHORS

Published

2020

2. MarketLine Company Profile: Hankuk Paper Manufacturing Co., Ltd.

Published

2024

3. Paper Meets Plastic: The Perceived Environmental Friendliness of Product Packaging.

Author

Sokolova, Tatiana, Krishna, Aradhna, and Döring, Tim

Subjects

PLASTICS in packaging, ENVIRONMENTAL risk, CONSUMER attitudes, PACKAGING materials, PAPER, CONSUMER preferences, WILLINGNESS to pay, COGNITIVE bias

Abstract

Packaging waste makes up more than 10% of the landfilled waste in the United States. While consumers often want to make environmentally friendly product choices, we find that their perceptions of the environmental friendliness of product packaging may systematically deviate from its objective environmental friendliness. Eight studies (N = 4,103) document the perceived environmental friendliness (PEF) bias whereby consumers judge plastic packaging with additional paper to be more environmentally friendly than identical plastic packaging without the paper. The PEF bias is driven by consumers' "paper = good, plastic = bad" beliefs and by proportional reasoning, wherein packaging with a greater paper-to-plastic proportion is judged as more environmentally friendly. We further show that the PEF bias impacts consumers' willingness to pay and product choice. Importantly, this bias can be mitigated by a "minimal packaging sticker" intervention, which increases the environmental friendliness perceptions of plastic-only packaging, rendering plastic-packaged products to be preferable to their plastic-plus-paper-packaged counterparts. This research contributes to the packaging literature in marketing and to research on sustainability while offering practical implications for managers and public policy officials. [ABSTRACT FROM AUTHOR]

Published

2023

4. Effects of precipitated and ground calcium carbonate coating on mechanical properties of fluting paper.

Author

Çiçekler, Mustafa, Üzüm, Velican, and Çopurkuyu, Emrullah

Subjects

CALCIUM carbonate, PAPER recycling, TENSILE tests, COATING processes, SURFACE coatings

Abstract

Purpose: The purpose of this study is to investigate the effects of a pigment coating on the mechanical properties of fluting paper. Design/methodology/approach: Two different calcium carbonate pigments were used in the preparation of the coated color, precipitated calcium carbonate (PCC) and ground calcium carbonate (GCC). Fluting paper produced by recycling waste paper was used as base paper. The effects of PCC and GCC pigments on mechanical properties were compared. Ring crush test (RCT), corrugating medium test (CMT), corrugating crush test (CCT), tensile and burst strength tests were applied to the coated papers, and the results were compared to the mechanical properties of base paper. Findings: The tensile and burst indices of the coated papers were found to be higher than base papers about 13.9% and 6.05%, respectively. While the coating process positively affected the RCT and CCT values, it did not show a significant impact on the CMT values. GCC, one of the pigments used in coating colors, had a more effective effect on the mechanical properties of fluting papers compared to PCC. Originality/value: These results suggest that coating of fluting papers has a positive effect on mechanical properties and the use of GCC as a pigment is more effective than PCC. [ABSTRACT FROM AUTHOR]

Published

2024

5. Using Sustainable Technique to Recycle Waste Paper in Academic Institutions.

Author

Mansour, Mustafa M.

Subjects

PAPER recycling, WASTE paper, WASTE recycling, WASTE management, ECOLOGICAL impact, POWER resources, CARBON offsetting

Abstract

It has been clearly demonstrated that it would be feasible to consider recycling paper in an academic institution. This can be achieved through combining specific waste paper baskets, a pulping machine and power supplied by a renewable energy source, with an already established local paper making company. The paper making company would be able to gain a subsidy from the government which pays them to actually recycle paper, to counteract the cost of the pulped paper which is 30% more expensive than raw wood pulp. The academic institution would save money on waste disposal and decrease its carbon footprint by 600% with savings of up to around 5e6 tons of CO2 per year, instead of the 1e2 tones carbon offset for just recycling the paper normally. This entire process could be adapted for recycling the vast quantities of waste paper produced by students, an initiative which often fails due to the high cost of disposal. This could be achieved through urged use of the same paper disposal methods already in use, with the paper being collected and pulped once a week directly from the student paper waste bins. This research aims to study and limit the quantities of paper consumed in academic institutions in Iraq, by identifying the steps of recycling, and the extent of its environmental and economic impact, on the one hand, and on the other hand, the extent to which the Iraqi university community accepts this idea, and then study these quantities and evaluate them economically and find out the possibility of establishing a paper recycling plant based on these quantities. As well as the current research deals with the accumulation of paper waste caused by the performance of exams. In the third semester of the research, the amount of paper waste at Thi Qar University was calculated as a model for conducting a detailed research study of all departments and colleges of the University. the amount of paper waste was (11,055 tons/year), as well as calculating the cost of paper processing for the University amounted to (126252271 Iraqi dinars) and at the end of the third semester, the amount of paper waste in Iraqi academic institutions for the academic year 2022e2023, approximately (367,60976 tons/year). The cost of preparing exam books in Iraqi academic institutions for the academic year 2022e2023 amounted to approximately (4202150971 Iraqi dinars). The devices used in the practical aspect and each device and its purpose in the paper waste recycling process were explained. In addition, in the fourth chapter of the research, waste recycling was carried out in a practical way, and the results were satisfactory. We proposed a project to establish a paper and cardboard waste recycling plant in Nasiriyah, detailing its technical processes and stages in a mature way, the costs of establishing such projects in detail, as well as the annual profit of the project. At the conclusion of the research, some important recommendations were attached that help the paper waste recycling process and its success. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Role of Waste Reduction Technology in Sustainable Recycling of Waste Paper at Thi-Qar University.

Author

Najm, Noor and Mansour, Mustafa M.

Subjects

PAPER recycling, WASTE minimization, SUSTAINABLE development, PAPER industry, SUBSIDIES, ECOLOGICAL impact

Abstract

The purpose of this study is reducing sustainable paper recycling at Thi-Qar University by using waste reduction techniques. It can be argued with much confidence that the idea of recycling paper can be successfully implemented in an academic institution. This can be done by merging the specific waste paper baskets, pulping machine and power from a renewable source with an already established local paper making company. The methods applied in this study are making company would be able to recoup a government subsidy that pays them to recycle paper in order to offset the cost of pulped paper which is 30% more expensive than raw wood pulp. The academic institution that implements this would save money on waste disposal, and cut its carbon footprint in half, by up to 600%, per year approximately five-six tons of CO2 instead of one-ton-two tones carbon offset for simply recycling the paper. All these steps could also be applied for recycling of the large amount of waste papers generated by students an idea that encounters high costs in recycling hence being rarely implemented. This could be achieved through urged use of the same paper disposal methods already in use, where the paper collected is pulped from the student paper waste bins once a week. The results of this article are more specific yet indirect environmental benefit concerns the recycling habits of students. By providing the means for students to recycle paper at their places of study, it is hoped that they will adopt similar practices in their homes and other areas of life and show that the practice of paper recycling at Thi-Qar University has a success rate of 98.42%. Additionally, a total revenue of $3,527.98 was collected from the value of recycled paper. This can be important, as it is today's young people who will shape the future condition of the environment. If a more conscientious attitude towards recycling can be established, the cumulative environmental benefits could be very significant. On the economic side, recycling paper can potentially save academic institutions a substantial amount of money on their waste disposal. This is because paper and cardboard often make up a high percentage of the waste and these are materials which can be recycled relatively cheaply. By decreasing the volume of general waste, a decrease in waste disposal costs can be achieved. If institutions take it a step further and decide to purchase only recycled paper products, this can also help accelerate the demand for recycled paper and its long-term economic feasibility. The benefits of paper recycling in academic institutions are undoubtedly far-reaching. Not only are the environmental benefits significant, but also the potential cost savings and impact on student attitudes. Probably the most apparent benefits of paper recycling are the environmental ones. The significance of this research is recycling paper in academic institutions is not only beneficial to the environment but also has potential cost-saving implications and significant educational value for students' attitudes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Preparation of Paper-Based Fluorescent Sensors and Their Application for the Detection of Cu 2+ in Water.

Author

Ma, Yue, Li, Hui, Li, Yufeng, and Wei, Dong

Subjects

FILTER paper, ENVIRONMENTAL quality, POLYETHYLENEIMINE, ENVIRONMENTAL health, COPPER

Abstract

Excessive copper (Cu2+) causes adverse effects on human health and the ecological environment. Traditional methods for detecting Cu2+ have drawbacks such as high detection costs, complex operating conditions, and being time consuming. Therefore, there is an urgent need to develop simple detection methods to better meet specific health and environment quality needs. In this work, a paper-based fluorescence sensor was prepared (herein referred to as the as-prepared method) by immersing filter paper in aqueous polyethyleneimine (PEI) solution, and its potential use in Cu2+ detection was investigated. The results showed that the as-prepared paper samples, with fluorescence properties obtained by aggregation-induced luminescence of PEI, have selective recognition of Cu2+ based on the internal filtration effect, and the lowest detection limit is 0.03 μM. In addition, the relative error of this method is in the range of 1.80~2.23%, which is relatively comparable to the national standard method (0.63~630 μM), demonstrating high accuracy. Therefore, paper-based sensors with a simple preparation method have potential applications in the detection of Cu2+ in water. [ABSTRACT FROM AUTHOR]

Published

2024

8. Recyclability of Paper‐Based Composites for Packaging Applications – The Role of Evaluation Methods.

Author

Kochersperger, Summer and Schabel, Samuel

Subjects

*WASTE recycling, *PAPER recycling, *EVALUATION methodology, *SUSTAINABLE development, *RECYCLED paper

Abstract

Composites are pivotal in Europe's evolving packaging sector, which is undergoing changes due to circular and bioeconomy initiatives, which prioritize eco‐friendly packaging. Despite paper's high recycling rates, dynamic markets challenge recycling and circularity. Innovative paper‐based composites demand flexible recyclability assessments, which impacts product development. Recyclability methods are evolving as they struggle to match the dynamic changes occurring in the packaging sector. This article outlines paper recycling and compares global lab recyclability evaluation methods. [ABSTRACT FROM AUTHOR]

Published

2024

9. A method to determine arsenic concentration in drinking water based on proton gradient and conductance measurements in filter paper media.

Author

Rozario, Joan and Hussam, Abul

Subjects

*FILTER paper, *ARSENIC in water, *PROTONS, *ARSENIC, *GROUNDWATER sampling, *DRINKING water

Abstract

This work describes a novel technique for the measurement of inorganic arsenic in water by generating arsine gas and detecting the conductivity of moving protons, H+ (aqueous or aq), produced by the reaction: Ag+ (aq) + AsH3 (gas, g) → AgAsH2 (solid, s) + H+ (aq). The detection is based on an electrochemical gradient of protons in a confined porous substrate (filter paper) and measures the change in the conductance due to the higher mobility of H+ compared to other ions. The conductance was measured with a pair of silver electrodes attached to opposite sides of the substrate with a bipolar pulse conductance technique. The method is established in theory and in practice. The theoretical equation for conductance change shows that a constant increase in conductance is directly proportional to the As(total) concentration. The method is validated with a standard reference material and applied to the measurement of the groundwater sample. [ABSTRACT FROM AUTHOR]

Published

2023

10. Effect of Deinking Paper Sludge on Thermal, Energetic, and Mechanical Properties of Fired Clay Bricks.

Author

Makni, Hajer, Khlif, Mohamed, and Bradai, Chedly

Subjects

*BRICKS, *RECYCLED paper, *THERMAL insulation, *HAZARDOUS wastes, *PAPER pulp, *CLAY, *SLUDGE management

Abstract

The production of pulp and paper from recycled paper generates significant quantities of deinking paper sludge (DPS). This sludge contains a significant amount of organic matter (36%) as well as heavy metals such as Pb, Zn, and Cr. In this work, the incorporation of DPS (0%, 8%, 10%, and 12%) in the manufacture of clay bricks leads to valorization of this waste by showing that two of its contents considered problematic (organic matter and heavy metals) have several positive effects. It was found that the organic parts were transformed into pores after brick firing (850°C), which improved thermal insulation while keeping mechanical resistance in conformity with usual standards. For the heavy metals, which make DPS a hazardous waste, a leaching test was employed. The results show that these metals were trapped in the ceramic matrix after the firing of bricks at a high temperature, resulting in a final product that was not dangerous. Other tests were carried out on bricks with DPS to evaluate density, water absorption, shrinkage, loss on ignition, porosity, and microstructure in order to characterize this new product. It was concluded that DPS can be used in clay bricks as an asset for the formation of pores to enhance thermal insulation. The addition of DPS can be optimized at 10% to comply with the standard and not exceed the required values for shrinkage, water absorption, and loss on ignition. [ABSTRACT FROM AUTHOR]

Published

2024

11. Optimizing CO2 Adsorption/Desorption via the Coupling of Imidazole and Carbon Nanotubes Paper for Spontaneous CO2 Uptake from Ambient Air and Solar‐Driven Release.

Author

Li, Chujia, Cao, Xuebo, Liu, Guangchun, Huang, Lin, Chu, Mingming, Cheng, Ruobing, Wang, Aijun, and Xu, Zhen

Subjects

*GREENHOUSE effect, *CARBON paper, *CARBON sequestration, *DENSITY functional theory, *CARBON nanotubes

Abstract

Direct air capture (DAC) is a sustainable technology to alleviate the greenhouse effect and a reliable pathway to acquire inexhaustible CO2 for the production of costly chemicals and energy products. Current DAC technologies with amine‐related sorbents rely on chemisorption, while they consume intensive energy for CO2 release and sorbent regeneration by heating. Developing new DAC processes with weak, reversible adsorption can substantially reduce the regeneration energies. Herein, the design of CO2 breathing paper (CBP) is demonstrated toward spontaneous CO2 extraction from ambient air and solar‐driven regeneration. The CBP is fabricated by coupling 2‐ethyl‐4‐methylimidazole to carbon nanotube paper on the basis of density functional theory calculations. At ambient conditions, CBP spontaneously captures atmospheric CO2 with a capacity of 0.14–1.75 mmol g–1 at 0–35 °C through non‐covalent electrostatic interaction. Upon exposure to sunlight, all adsorbed CO2 can be released and converted to concentrated gas for storage. Attractively, the efficiency of solar‐driven CO2 release is much higher than the traditional temperature‐swing method owing to the IR sensitivity of CO2. Besides the reversibility, the mild conditions also ensure the durability of CBP. These findings suggest that the CBP is a promising candidate for cost‐effective DAC. [ABSTRACT FROM AUTHOR]

Published

2024

12. The core–shell structure ZIF-67/MIL-101 (Fe)-modified carbon paper electrode: high sensitivity and selectivity for the determination of baicalin.

Author

Gao, Yali, Pang, Wanyu, Chang, Xile, Hu, Zhiyong, Hu, Tuoping, and Ma, Xuemei

Subjects

*CARBON paper, *CARBON electrodes, *X-ray photoelectron spectroscopy, *ELECTROCHEMICAL sensors, *TRANSMISSION electron microscopy

Abstract

Baicalin (Bn) is one of the flavonoids with various biological activities, and its accurate determination is of great significance to clinical medicine. The new "MOF-on-MOF" materials have a broad application prospect. ZIF-67 and MIL-101(Fe) are typical metal–organic frame (MOF) materials, which have the advantages of flexible structure, large specific surface area, large porosity, and adjustable pore size. In this paper, a disposable and sensitive Bn electrochemical sensor based on ZIF-67/MIL-101(Fe) composite modified carbon paper (CP) electrode was developed for the first time. The sensing nanomaterials were characterized by scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray diffraction spectroscopy (XRD), and X-ray photoelectron spectroscopy (XPS). Cyclic voltammetry (CV) was used to evaluate the electrochemical behavior of Bn on different modified electrodes. The results showed that ZIF-67/MIL-101(Fe)/CP exhibited a well-defined redox peak compared with bare CP, ZIF-67/CP, and MIL-101(Fe)/CP, which was attributed to the synergistic effect of ZIF-67 and MIL-101(Fe). Under optimal conditions, the electrochemical sensor was able to quantify Bn in the ranges of 0.01 ~ 3 µM and 3 ~ 6 µM with a detection limit (LOD) as low as 0.009 µM (S/N = 3). In addition, the sensor was successfully used for the quantitative analysis of Bn in Dual yellow oral liquid with reliable results. [ABSTRACT FROM AUTHOR]

Published

2024

13. MarketLine Company Profile: Hankuk Paper Manufacturing Co., Ltd.

Published

2023

14. Insights into Occlusal Analysis: Articulating Paper versus Digital Devices.

Author

Manziuc, Manuela-Maria, Savu, Mara Mihaela, Almăşan, Oana, Leucuţa, Daniel-Corneliu, Tăut, Manuela, Ifrim, Cosmin, Berindean, Denisa, Kui, Andreea, Negucioiu, Marius, and Buduru, Smaranda

Subjects

*DIGITAL technology, *ELECTRONIC paper, *WILCOXON signed-rank test, *THIRD molars, *TEETH

Abstract

Background: As the demand for digital dentistry constantly increases, digital devices are gradually replacing conventional methods of recording occlusal contacts. The study aimed to assess the inter-rater reliability of occlusal contact point detection using 40 μm articulating paper, Medit i700, and OccluSense and to compare the distribution of occlusal contacts using the articulating paper and intraoral scanner. Material and Methods: The study included 25 participants aged 20 to 30 (13 women and 12 men). Photographs of contact points were taken and marked in maximum intercuspal position (MIP), in protrusive and laterotrusive movements, on working and non-working sides using 40 μm articulating paper and digital devices. The Cohen's Kappa coefficient assessed the inter-rater reliability. The Wilcoxon signed-rank test was used to compare dependent groups, articulating paper, and Medit i700. Results: The Cohen's Kappa index showed that almost perfect agreement was achieved with 40 μm articulating paper. Compared to Medit i700, the 40 μm articulating paper showed an increased mean number of contacts per tooth, except for the third molars. Conclusions: The 40 μm articulating paper has detected more overall contacts than the digital devices, particularly in the posterior areas. An ideal method for registering occlusal contacts has not been established yet. [ABSTRACT FROM AUTHOR]

Published

2024

15. Electrochemical Measurement and Simulation of Sulfuric Acid-Doping Polyaniline on Graphite Carbon Paper.

Author

Bao, Wenyun, Yao, Chen, and Xie, Yibing

Subjects

*CARBON paper, *ELECTRONIC band structure, *GRAPHITE, *ELECTROACTIVE substances, *DENSITY functional theory, *POLYANILINES

Abstract

The sulfuric acid-doping polyaniline (H-PANI-HSO4) are applied to conduct the electrochemical measurement and simulation calculation to investigate the capacitance, electronic structure and energy band properties. The H-PANI-HSO4 growing on graphite carbon paper (H-PANI-HSO4/GCP) is applied as an electroactive electrode to investigate electrochemical properties. The Faradaic capacitance of H-PANI-HSO4/GCP electrode is ascribed to the reversible redox reaction of bisulfate anion doping/dedoping protonated PANI (H-PANI). Cyclic voltammetry measurement at a scan rate of 5mVs−1 determines an equivalent mean response current of 0.64Ag−1 and a capacitance of 128.35Fg−1. Galvanostatic charge–discharge measurement determines specific capacitance from 129.06 to 116.88Fg−1 at current densities from 0.5 to 2.5Ag−1. Cyclic voltammetry-based capacitance at equivalent current density of 0.64Ag−1 is in accordance with galvanostatic charge–discharge-based capacitance at the current density of 0.57Ag−1. Electrochemical impedance spectrum measurements indicate that H-PANI-HSO4/GCP exhibits lower charge-transfer resistance, much lower Warburg resistance, higher quasicapacitance than H-PANI-HSO4 to approaching ideal capacitor. Density functional theory calculations indicate that H-PANI-HSO4 has a higher density of states (10.6 electron/eV) and lower bandgap energy (0.481eV) than H-PANI (5.24 electron/eV, 1.449eV), indicating its enhanced electronic conductivity. The electronic bandgap energy is accordingly decreased from 0.263eV for H-PANI-HSO4/GCP to 0 for H-PANI-HSO4/GCP. Electrochemical measurement and simulation calculation investigation proves that H-PANI-HSO4/GCP electrode with anion-doped and protonated state exhibits higher electronic conductivity and capacitance performance to act as superior electroactive material. [ABSTRACT FROM AUTHOR]

Published

2024

16. Feasibility Study of the Paper Sludge Properties in Manufacturing Recycled Filler.

Author

Hyeonggyu Lee, Yong Ju Lee, and Hyoung Jin Kim

Subjects

*PAPER recycling, *PARTICLE size distribution, *RECYCLING management, *RECYCLED products, *CARBONATE minerals

Abstract

The mineralization of inorganic components in paper sludge offers potential for their re-use in various fields. This study synthesized carbonates based on the minerals present in paper sludge and aimed to investigate the control of particle size distribution and particle shape of the synthesized carbonates. First, the physicochemical and thermal properties of paper mill sludge and ash were evaluated using a spectrophotometer, XRF, and TGA. Paper sludge ash was obtained by incinerating the paper sludge, followed by a carbonation reaction using CO2 gas injection and pH neutralization to produce recycled fillers. The average particle size, crystal lattice structure, and morphology of the recycled fillers were analyzed using a particle size analyzer, XRD, and FE-SEM. The results indicate that the recycled filler produced from coating paper sludge exhibited similar brightness and morphology to conventional paper-based fillers, suggesting its potential to replace commercial PCC (Precipitated Calcium Carbonate). In contrast, the recycled filler manufactured using old corrugated container mill sludge was deemed unsuitable due to its low hydration activity. [ABSTRACT FROM AUTHOR]

Published

2024

17. Characteristics and degradability of laser print waste paper fiber reinforced PLA resin matrix composite materials.

Author

Zhang, Xiaolin, Chang, Xing, Xu, Long, Huang, Maocai, Zuo, Liyuan, Cao, Jing, Wu, Yali, Li, Xin, Yang, Menghao, Gao, Limin, and Bo, Xiangfeng

Subjects

*WASTE paper, *LASER printing, *FIBER-reinforced ceramics, *COMPOSITE materials, *WOOD-pulp, *FIBROUS composites, *LACTIC acid, *RENEWABLE natural resources

Abstract

Highlights As is well known, Laser print paper is usually produced with high‐quality chemical wood pulp. The laser print waste paper fiber (LPWF) is a high‐quality secondary fiber, and the research and development of high‐value utilization technology for laser print waste paper has attracted much attention in the field of renewable resource recycling. In this study, LPWF was used to reinforce poly(lactic acid) (PLA) composites in the field, and the composites were modified with bioenzyme, cationic polyacrylamide (CPAM), and nano‐silicon carbide (Nano‐SiC) to enhance the interfacial compatibility of LPWF/PLA composites. The study systematically investigated the effects of various modification methods on the characteristics and degradability of composites made from laser print waste paper fiber reinforced PLA resin matrix. The results showed that the mechanical properties of the composites treated with CPAM and Nano‐SiC were significantly improved, with tensile strengths of 54.3 and 59.5 MPa, and flexural strengths of 85.1 and 91.5 MPa, respectively, and the water absorption of the composites was reduced after the modification treatment, while the thermal stability was improved. The degradation performance of the composites in various water environments indicated that the inclusion of LPWF accelerated the water degradation rate of the composites, with the maximum degradation rate of the composite reaching 1.26% in 30 days. Laser print waste paper is an excellent quality recyclable fiber resource. Four modifiers were used to modify LPWF/PLA composites. Characteristics and degradability of the composites were investigated. Significantly improved properties of CPAM and Nano‐SiC modified composites. The degradation rate of composites is increased by the addition of LPWF. [ABSTRACT FROM AUTHOR]

Published

2024

18. Synthesis of Water-Dispersible Poly(dimethylsiloxane) and Its Potential Application in the Paper Coating Industry as an Alternative for PFAS-Coated Paper and Single-Use Plastics.

Author

Hamdani, Syeda Shamila, Elkholy, Hazem M., Alford, Alexandra, Jackson, Kang, Naveed, Muhammad, Wyman, Ian, Wang, Yun, Li, Kecheng, Haider, Syed W., and Rabnawaz, Muhammad

Subjects

SINGLE-use plastics, PAPER industry, KRAFT paper, COATINGS industry, PAPER recycling, PLASTIC marine debris, FLUOROALKYL compounds, BIODEGRADABLE plastics

Abstract

Polyethylene-, polyvinylidene chloride-, and per- and polyfluoroalkyl substance-coated paper generate microplastics or fluorochemicals in the environment. Here, we report an approach for the development of oil-resistant papers using an environmentally friendly, fluorine-free, water-dispersible poly(dimethylsiloxane) (PDMS) coating on kraft paper. Carboxylic-functionalized PDMS (PDMS-COOH) was synthesized and subsequently neutralized with ammonium bicarbonate to obtain a waterborne emulsion, which was then coated onto kraft paper. The water resistance of the coated paper was determined via Cobb60 measurements. The Cobb60 value was reduced to 2.70 ± 0.14 g/m2 as compared to 87.6 ± 5.1 g/m2 for uncoated paper, suggesting a remarkable improvement in water resistance. Similarly, oil resistance was found to be 12/12 on the kit test scale versus 0/12 for uncoated paper. In addition, the coated paper retained 70–90% of its inherent mechanical properties, and more importantly, the coated paper was recycled via pulp recovery using a standard protocol with a 91.1% yield. [ABSTRACT FROM AUTHOR]

Published

2024

19. Application of Surface-Modified Carboxymethylated Nanofibrillated Cellulose as a Strength Enhancer for Specialty Paper.

Author

Hae Min Jo, Ji Young Lee, and Tae Young Kim

Subjects

*PAPER pulp, *POLYACRYLAMIDE, *CELLULOSE, *ACRYLAMIDE, *PAPER mills

Abstract

Pretreated carboxymethylated nanofibrillated cellulose (CM-NFC) was tested as a strength enhancer for specialty paper, such as banknotes made from cotton linter mixed pulp (CLMP). The pretreatment agent was cationic poly(acrylamide) (C-PAM). The CM-CMF prototype was supplied by a Korean manufacturer. Laboratory tests and pilot trials were performed to evaluate the strength enhancement of banknotes incorporated with surface-modified CM-NFC and determine the process problems encountered in a pilot paper machine. The CM-NFC was surface modified with 0.1% C-PAM without any agglomerates. The prepared laboratory handsheets had high paper strength, which was attributed to the higher nanofibril content of surface-modified CM-NFC compared with that of unmodified CM-NFC. Pilot trials showed that the incorporation of 3% surface-modified CM-NFC was highly effective in promoting the strength of banknote without low retention and drainability on the wet-end part of the pilot paper machine. Therefore, surface-modified CM-NFC at a controlled dosage could be used as a strength enhancer for specialty paper without incurring serious problems in a paper mill. [ABSTRACT FROM AUTHOR]

Published

2024

20. 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

21. Design and Control of Guide-wheel-type Paper Alignment Mechanism to Improve Production Reliability of Corrugated Paper Plants.

Author

Shan-Kuo Yang, Chih-Ming Chen, and Chih-Yung Huang

Subjects

MANUFACTURING processes, PAPER products, COMPUTER software, MASS production, SERVOMECHANISMS, POWER plants, FERTILITY clinics

Abstract

The manufacturing process for corrugated paper products is usually mass production and batch-by-batch production. Therefore, a high-speed mass production is required. Because the conveyer speed of the production line in a corrugated paper plant is very fast, unwanted material loss or even process interruption may occur during the cutting or clipping process if the corrugated paper on the conveyer is slanted. Hence, the paper alignment on a conveyer is important and necessary. In this study, we install photo-couples at both edges directly over the conveyer path to detect whether or not the corrugated paper is slanted from the number difference between non-activated photo-couples of the two edges. The deviated angle is calculated through a computer program using the detected information, and a servomotor-driven wheel aligns the paper in accordance with the calculated angle. This work reduces the material waste and promotes the production reliability and utility rate of the material for a corrugated paper plant. [ABSTRACT FROM AUTHOR]

Published

2024

22. A Simple Colorimetric Volatile Nitrogen and Hydrogen Sulfide Indicator Based on Filter Paper and Saffron Petal Anthocyanins to Monitor Fish Spoilage in Intelligent Packaging.

Author

Dodange, Sona, Shekarchizadeh, Hajar, and Kadivar, Mahdi

Subjects

*FISH spoilage, *FILTER paper, *ANTHOCYANINS, *SAFFRON crocus, *STRUCTURAL colors, *HYDROGEN sulfide

Abstract

An inexpensive, easy-to-use, simple, and non-toxic freshness indicator was developed based on anthocyanins from saffron petal waste material and filter paper to show the quality and shelf life of trout fillets. Previous studies considered the color changes of freshness indicators based on anthocyanins during fish spoilage due to pH changes following the production of volatile nitrogen. However, in this study, we showed that not only volatile nitrogen but also hydrogen sulfide (H2S) gas produced during fish spoilage caused structural and color changes in anthocyanins. The indicator showed a wide range of naked-eye color changes from purple to light blue over a pH of 2–11 and from purple to yellow over different concentrations of H2S gas compounds. The prepared indicator had good color stability and was not affected by various temperatures and times. pH, total volatile basic nitrogen, total viable count of trout fillets, and the color changes of the prepared indicators were simultaneously determined during 8 days of storage in the refrigerator. A significant correlation was observed between fish quality and visible color changes of the indicator. The sensitivity of saffron petal anthocyanins to volatile nitrogen and H2S compounds showed that it could be used as a raw material for producing low-cost and efficient colorimetric indicators for spoilage detection of protein-rich foods. [ABSTRACT FROM AUTHOR]

Published

2024

23. Marketing Plan For Recycled Paper Hub Business Project.

Author

Pratama, Aditya, Indradewa, Rhian, Rahmat Syah, Tantri Yanuar, and Kustiawan, Unggul

Subjects

INDUSTRIAL marketing, RECYCLED paper, PAPER recycling, PRIVATE sector, MARKETING planning

Abstract

Businesses that run in recycling industries are one of the trends that are now in demand by many parties and supported by both national and international governments, but in the practice of these business activities there are many components that must be considered, especially if an entity is in the business to business sector. PT Recycled Paper Hub came as an competitive alternative that offers products in the form of recycled paper materials with low impurity levels which will later be used by companies to be processed again into many forms including packaging. By analyzing and implementing a marketing mix approach in accordance with the vision and mission, analysis data obtained from research on internal and external strengths that are quantitative and qualitative, the data obtained reflects business activities in order to achieve business excellence. In this study, the marketing mix carried by PT Recycled Paper Hub is Direct Marketing NICE. [ABSTRACT FROM AUTHOR]

Published

2024

24. Raw Materials of Chinese Traditional Handmade paper.

Author

Cheuk Kei Chan and Xiaohui Yi

Published

2023

25. Clearwater Paper Corp SWOT Analysis.

Subjects

PAPER products industry, SWOT analysis

Abstract

A SWOT analysis of Clearwater Paper Corporation is presented.

Published

2024

26. Bioethanol Production from Paper Sludge by Subcritical Water Pretreatment and Semi-simultaneous Saccharification and Fermentation.

Author

Okajima, Idzumi, Muto, Masato, Morimoto, Shingo, Nauchi, Kazuki, Kodama, Yuta, Park, Enoch Y., and Sako, Takeshi

Subjects

*WASTE paper, *WASTE recycling, *ETHANOL as fuel, *RAW materials, *ENZYME inhibitors

Abstract

Paper sludge (PS) from paper mills has a significant potential for bioethanol production. In this study, waste-paper-containing PS is used as the raw material for bioethanol production because the annual waste paper utilization rate has increased globally. Although PS does not require delignification, the antiseptics and deinking agents in waste paper-containing PS inhibit enzymatic reactions such as saccharification and fermentation. Their removal is important, but it has not yet been reported. Using subcritical water pretreatment, the selective decomposition of enzyme inhibitors in PS is examined without the generation of other enzyme inhibitors. The optimum pretreatment conditions are identified as 240 °C, 3.3 MPa, 3 min, and pH 4.5. Glucose was obtained in 71% yield from pretreated 5 wt% PS using cellulase, which is 5.5 times higher than that from unpretreated PS. This is because the reactivity of the pretreated PS increases with increasing surface area of the cellulose fibers, and the cellulase inhibitors are decomposed by subcritical water. Next, semi-simultaneous saccharification and fermentation treatments are performed to produce bioethanol from waste-paper-containing PS. The bioethanol yield based on cellulose after 96 h is 68% for PS pretreated with subcritical water, whereas the bioethanol yield is 6% for unpretreated PS. Therefore, subcritical water pretreatment increases the bioethanol yield by 11 times. The proposed method may enable the use of large amounts of PS as ethanol feedstock in future. [ABSTRACT FROM AUTHOR]

Published

2024

27. A green approach to nanoplastic detection: SERS with untreated filter paper for polystyrene nanoplastics.

Author

Chaisrikhwun, Boonphop, Balani, Mary Jane Dacillo, Ekgasit, Sanong, Xie, Yunfei, Ozaki, Yukihiro, and Pienpinijtham, Prompong

Subjects

*SERS spectroscopy, *FILTER paper, *SUSTAINABILITY, *SILVER nanoparticles, *NANOPARTICLES

Abstract

Plastic pollution at the nanoscale continues to pose adverse effects on environmental sustainability and human health. However, the detection of nanoplastics (NPLs) remains challenging due to limitations in methodology and instrumentation. Herein, a "green approach" for surface-enhanced Raman spectroscopy (SERS) was exploited to detect polystyrene nanospheres (PSNSs) in water, employing untreated filter paper and a simple syringe-filtration set-up. This SERS protocol not only enabled the filtration of nano-sized PSNSs, which are smaller than the pore size of the ordinary filter paper, but also offered SERS enhancement by utilizing quasi-spherical-shaped silver nanoparticles (AgNPs) as the SERS-active substrate. The filtering of NPLs was accomplished by adding an aggregating agent to the nanoparticle mixture, which caused the aggregation of NPLs and AgNPs, resulting in a larger cluster and more hot spots for SERS detection. The optimal aggregating agent and its concentration, as well as the volume ratio between the AgNPs and NPLs, were also optimized. This SERS method successfully detected and quantified PSNSs of various sizes (i.e., 100, 300, 460, 600, and 800 nm) down to a limit of detection (LOD) of about 0.31 μg mL−1. The method was also validated against the presence of several interferents (i.e., salts, sugars, amino acids, and surfactants) and was proven practical, as evidenced by the detection of 800nm PSNSs in drinking and tap water (LODs of 1.47 and 1.55 μg mL−1, respectively). [ABSTRACT FROM AUTHOR]

Published

2024

28. Air-Drying Time Affects Mortality of Pyrethroid-Susceptible Aedes aegypti Exposed to Transfluthrin-Treated Filter Papers.

Author

Kim, Dae-Yun, Hii, Jeffrey, and Chareonviriyaphap, Theeraphap

Subjects

*AEDES aegypti, *FILTER paper, *HIGH throughput screening (Drug development), *DISEASE vectors, *MOSQUITO control, *PYRETHROIDS

Abstract

Simple Summary: This study emphasizes the significance of appropriate air-drying times in toxicity bioassays to accurately establish sublethal concentrations and discriminating concentrations for resistance detection in mosquitoes to a highly volatile pyrethroid, namely, transfluthrin. The high-throughput screening system toxicity bioassay study demonstrated consistent dose-dependent responses in susceptible mosquito populations. Our findings emphasize the importance of accurate susceptibility testing to facilitate early resistance detection. The air-drying duration significantly affected the efficacy of transfluthrin: after drying for 24 h, the concentration needed to achieve the same level of efficacy was 2.8 times higher compared to the concentration needed after 1 h of drying. This is the first study to evaluate spatial repellents using a high-throughput screening system toxicity bioassay, yielding precise sublethal concentrations and discriminating concentrations for varying air-drying times of transfluthrin-treated filter papers. The study underscores the importance of early detection of resistant mosquito populations and emphasizes the need to optimize air-drying durations in toxicity bioassays. Selecting the right concentrations and assessing behavioral responses are crucial for developing effective mosquito control strategies with spatial repellents. This research enhances our understanding of resistance dynamics and provides guidance for practical implementation in vector control programs. Increasing temperature can enhance the geographical spread and behavior of disease vector mosquitoes, exposing vulnerable populations to Aedes-borne viruses and infections. To address this risk, cost-effective and sustained intervention vector control tools are required, such as volatile pyrethroid spatial repellents. This study used a high-throughput screening system toxicity bioassay to determine the discriminating concentrations of transfluthrin-treated filter papers with variable air-drying times exposed to pyrethroid-susceptible Aedes aegypti mosquitoes. At the highest transfluthrin concentration (0.01706%), a significant reduction in mosquito mortality was observed in filter papers air-dried for 24 h compared to those air-dried for 1 h (odds ratio = 0.390, p < 0.001, 95% confidence interval: 0.23–0.66). Conversely, no significant difference in mortality was found between filter papers air-dried for 1 h and those air-dried for 12 h (odds ratio = 0.646, p = 0.107, 95% confidence interval: 0.38–1.10). The discriminating concentration was 2.8-fold higher for transfluthrin-treated filter papers air-dried for 24 h than it was for papers air-dried for 1 h, and it increased 5-fold from 1 h to 336 h of air-drying. These results show that the optimal air-drying period of transfluthrin-treated filter paper is critical, as higher discriminating concentration values may lead to underestimations of insecticide resistance. The instability of transfluthrin-treated papers necessitates the use of the World Health Organization (WHO) bottle bioassay, which is the preferred method for determining mosquito susceptibility to volatile insecticides. [ABSTRACT FROM AUTHOR]

Published

2024

29. An Artificial Neural Network (ANN) Modelling Approach for Evaluating Turbidity Properties of Paper Recycling Wastewater.

Author

Kardeş, Serkan, Özkan, Uğur, Bayram, Okan, and Şahin, Halil Turgut

Subjects

*ARTIFICIAL neural networks, *PAPER recycling, *RECYCLED paper, *TURBIDITY, *POLLUTANTS

Abstract

A pre-treatment process was evaluated in this work for wastewater from paper recycling using microwave technology followed by rapid precipitation of contaminants through centrifugation. Artificial neural networks (ANNs) were used to analyze and optimize the turbidity values. Thirty experimental runs were utilized including microwave (MW) power, duration, centrifuge time, and centrifuge speed as input variables, generated by the Central Composite Full Design (CCFD) approach. The experimental turbidity ranged from 8.1 to 19.7 NTU, while predicted values ranged from 8.4 to 19.7 NTU by ANN. The ANN model showed a robust prediction performance with low mean squared error values during training and testing. Moreover, high R² values showed a remarkable agreement between the experimental observations and ANN predictions. The results obtained from the input values (A:150.00, B:60.00, C:15.00, D:30.00) of sample 2, which gave the lowest turbidity value, showed the most removal of pollution. The results obtained from the input values (A:250.00, B:60.00, C:7.00, D:20.00) of sample 30, which gave the highest turbidity value, showed the least removal of pollution. The results showed that increasing RPM and time of the centrifugation process significantly affected the removal of pollution in wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

30. Preparation of nanocellulose-based flexible calcium carbonate to improve filler retention and combustion performance of cigarette paper.

Author

Ren, Zixing, Li, Kai, Zheng, Han, Li, Geng, Yu, Zhenhua, An, Liangliang, and Liu, Yuxin

Subjects

CALCIUM carbonate, SCANNING electron microscopy, THERMOGRAVIMETRY, CIGARETTES, BOND strengths

Abstract

The addition of calcium carbonate to cigarette paper can enhance its combustion performance and apparent properties. However, it does come at the cost of reduced paper strength. In this study, a flexible calcium carbonate (FCC) was developed through the in-situ formation of calcium carbonate on nanocellulose surfaces. The incorporation of FCC into cigarette paper offered the potential to improve filler retention and combustion performance while maintaining high paper strength. The results of the study demonstrated that when compared to the addition of 30% precipitated calcium carbonate (PCC), the filler retention rate in cigarette paper increased by 31.5% when 30% FCC was used. Scanning electron microscopy images showed that only a minimal number of inorganic particles were observed between the fibers in the FCC-containing paper, indicating appropriate air permeability and fiber-fiber bond strength. Furthermore, when compared to PCC-containing paper, the FCC-containing paper exhibited an 8.8% increase in tensile strength and a 7.5% increase in folding resistance. Additionally, thermogravimetric analysis of the cigarette paper revealed that the incorporation of flexible calcium carbonate effectively lowered the thermal decomposition temperature, leading to a 10.3% increase in the combustion rate of FCC-containing paper. The inclusion of FCC into paper fibers has the potential to enhance air permeability and regulate cigarette burning performance. Consequently, the FCC developed in this study holds promise as a substitute for traditional calcium carbonate fillers in cigarette paper applications. [ABSTRACT FROM AUTHOR]

Published

2024

31. MarketLine Company Profile: Gould Paper Corporation, Inc.

Published

2024

32. Identification of Low Concentrations of Flucytosine Drug Using a Surface-Enhanced Raman Scattering (SERS)-Active Filter Paper Substrate.

Author

Karooby, Elaheh, Sahbafar, Hossein, Heris, Masoud Hakimi, Hadi, Amin, and Eskandari, Vahid

Subjects

*SERS spectroscopy, *FILTER paper, *MOLECULAR vibration, *MYELOSUPPRESSION, *RAMAN spectroscopy

Abstract

Treatment of cryptococcal meningitis relies primarily on flucytosine (5FC), which is also used to treat candidiasis and infections caused by Cryptococcus neoformans. High dosages of this drug, despite its therapeutic properties, may cause hazardous side effects such as bone marrow suppression, hepatotoxicity, and gastrointestinal toxicity. The detection of trace amounts of 5FC medication may aid in tracking the treatment's efficacy and mitigating unwanted effects. Surface-enhanced Raman spectroscopy (SERS) is a rapid, reliable, and precise approach for detecting extremely low amounts of biological and chemical compounds. A filter paper-based SERS biosensor coated with silver nanoparticles (AgNPs) were employed to detect the 5FC drug. The AgNPs fabricated via the chemical reduction method were characterized by FE-SEM, TEM, XRD, AFM, and UV-Vis spectroscopy. Plasmonic active sites were made by coating the filter paper substrate with AgNPs to detect the 5FC drug's molecular vibrations. As the 5FC drug was coated onto the filter paper substrate, the AgNPs interacted with it, allowing for the detection of very low concentrations of the drug. The SERS filter paper substrate could detect concentrations of 5FC as low as 10−10 M. The Raman spectra and peak signals obtained experimentally were also simulated and validated using the density functional theory (DFT) approach. Six sets of measurements were taken, and the average RSD was obtained to be 4.62%. The experimentally measured enhancement factor for recognizing molecular vibrations of the 5FC was 9.065 × 107, and it was numerically estimated as 10.044 × 107. Therefore, the fabricated SERS-based filter paper substrate is useful for drug monitoring since they can detect even trace amounts of the targeted drug. [ABSTRACT FROM AUTHOR]

Published

2024

33. High‐efficiency modification of PET by the low addition of a self‐assembled functional nanocellulose film prepared from waste paper.

Author

Lei, Wanqing, Hou, Jingyu, Fang, Changqing, Qin, Jianqin, Zhou, Xing, and Li, Lu

Subjects

*PAPER recycling, *WASTE paper, *WASTE recycling, *POLYETHYLENE terephthalate, *PACKAGING waste, *PACKAGING recycling

Abstract

Polyethylene terephthalate (PET) is a conventional packaging material. Its modification has attracted immense attention in the industry and academia. Here, office waste paper, white cardboard waste, and waste corrugated paper were first employed as raw materials for cellulose nanocrystal (CNC) extraction by acid hydrolysis. Thereafter, CNC/PET composite films with various CNC additions were prepared via a self‐assembly technique. The results revealed that the CNCs formed a self‐assembled film on the PET surface via the synergistic effect of the complex interactions among the CNCs as well as between the CNCs and PET. Moreover, the CNCs improved the barrier property of PET and decreased the oxygen and water vapor transmittances of CNC/PET by 30.7% and 21.7%, respectively. Additionally, the coating of the PET surface with 0.2 wt.% CNCs extracted from the waste paper decreased the surface wettability of PET, exhibiting application potentials in the hydrophobic modification of polymers. This study realized waste paper recycling and provided a basis for constructing self‐assembled functional films on PET surfaces. The findings and insights of this study could exhibit application potentials in the fields of waste recycling and packaging materials. Highlights: A functional cellulose nanocrystal (CNC) film is prepared from waste paper.Self‐assembled CNC is coated on a PET surface to form a CNC/PET composite film.The synergistic interactions among CNCs and between CNC and PET modified PET.The low addition of CNCs realized the efficiency modification of PET.The study achieves waste paper recycling and high‐value utilization. [ABSTRACT FROM AUTHOR]

Published

2024

34. Enhancing performance of anion exchange membrane electrolyzer through modification of carbon paper liquid-gas diffusion layer.

Author

Zhang, Xianwen, Shao, Xin, Wang, Chen, Peng, Hao, Cao, Feiyue, and Zhou, Taotao

Subjects

*ION-permeable membranes, *CARBON paper, *HYDROGEN evolution reactions, *SCANNING electron microscopes, *ELECTRODE performance

Abstract

In this study, the microstructure of carbon fiber paper is modified through H 3 PO 4 etching to enhance the electrolyzer performance. The effects of different H 3 PO 4 concentrations and different soaking times on the hydrogen evolution reaction are firstly investigated. The electrochemical test results show that the best performance of etched electrodes is achieved at a H 3 PO 4 concentration of 1 M and a soaking time of 12 h, with a significant reduction in charge transfer resistance and overpotential. Subsequently, to explore the change mechanism in electrochemical properties, the microstructure of the carbon paper is investigated using Scanning Electron Microscope (SEM) and Mercury Intrusion Porosimetry (MIP) tests, which show uniformly distributed micropores appear on the surface of the carbon fibers after etching, and the porosity increases from 0.74 to 0.8. Brunauer-Emmett-Teller (BET) tests show that the specific surface area of the carbon paper increases from 0.72 m2/g to 4.06 m2/g, which effectively increases the interfacial contact area between the catalyst layer and the liquid gas diffusion layer. Furthermore, a 3D multi-physics model is established to further elucidate the impact mechanism of changes in porosity, conductivity, and active specific surface area on the performance of anion exchange membrane electrolyzer, with changes in active specific surface area having the greatest effect. • Microporous structure of the carbon paper LGDL is modified by etching. • The etching method effectively improves the performance of AEMEL. • The increase in specific surface area and porosity greatly reduces the resistance. • Numerical modeling to analyze the impact of microscopic parameters on AEMEL. • LGDL with high specific surface area has a positive effect on AEMEL's development. [ABSTRACT FROM AUTHOR]

Published

2024

35. Development of PLA–Waste Paper Biocomposites with High Cellulose Content.

Author

Delgado-Orti, Concepción, Navas-Martos, Francisco J., Rodríguez-Liébana, Jose A., La Rubia, M. Dolores, and Jurado-Contreras, Sofía

Subjects

*FOURIER transform infrared spectroscopy, *WASTE paper, *COMPOSITE material manufacturing, *DIFFERENTIAL scanning calorimetry, *SCANNING electron microscopy, *POLYLACTIC acid

Abstract

In this study, the integration of paper industry waste with high cellulose content into biocomposites of polylactic acid (PLA), a widely used biobased polymer material, was investigated. The PLA/waste biocomposite samples (0–25 wt.%) were manufactured using the extrusion and injection moulding techniques. The mechanical test results showed improvements in terms of tensile properties and a decrease in impact strength as the percentage of residue increased. The melting temperature decreased, and the crystallinity increased in all biocomposites according to the Differential Scanning Calorimetry (DSC) analysis. Water absorption increased proportionally with the percentage of residue, attributed to the higher cellulose content in the biocomposites, determined by Fourier transform infrared spectroscopy (FT-IR) and X-ray diffraction (XRD) techniques. The scanning electron microscopy (SEM) fracture analysis demonstrated effective reinforcement–matrix cohesion, supporting the previously observed behaviour of the analysed materials. This work highlights the potential of using waste from the paper industry as reinforcement in PLA matrices, opening new perspectives for sustainable applications in the framework of the manufacture of composite materials. [ABSTRACT FROM AUTHOR]

Published

2024

36. Synthesis and characterization of cellulose nanofibers from waste paper and their utilization in wood adhesion.

Author

Joshi, Garima and Chauhan, Shakti Singh

Subjects

*WASTE paper, *WASTE recycling, *WOOD, *CELLULOSE synthase, *CHEMICAL processes, *NANOFIBERS

Abstract

Nanocellulose extraction from lignocellulosic materials is a highly chemical and energy‐intensive process as it requires the removal of lignin and hemicellulose. Writing paper is one of the processed materials that could be used as a raw material for the extraction of nanocellulose. In this work, cellulose nanofibers (CNFs) were synthesized from paper waste using TEMPO‐oxidation followed by high‐shear microfluidization. Scanning electron microscopy and atomic force microscopy confirmed the diameter of fibers in the nano‐range and a consistent zeta potential confirmed the stability of CNF suspension in water over a long time frame. Characterization of the CNFs using Fourier transform infrared spectroscopy indicated the presence of a carbonyl group due to the oxidation process. Thermogravimetric analysis and x‐ray diffraction revealed lower thermal stability and reduction in the crystallinity index of CNFs, as compared to pulp fibers. The obtained CNFs were used successfully as the sole binding agent in the preparation of fiberboards and also utilized as a reinforcing agent for polyvinyl acetate (PVAc) adhesive in the preparation of laminated veneer lumber (LVLs). The addition of CNFs in PVAc improved the glue shear strength indicating superior bonding characteristics and also increased the water resistance of the LVLs. Highlights: This work focused on cellulose nanofibers (CNFs) extraction from waste paperObtained CNFs form stable water suspension and have a diameter of less than 15 nmThermal stability and crystallinity index reduced after conversion to nanofibersCNFs form a complex network and act as a sole binder to make fiberboardsCNFs were utilized as a reinforcing agent for PVAc in preparation of LVLs [ABSTRACT FROM AUTHOR]

Published

2024

37. Valorization of waste paper sludge as a sustainable source for packaging applications.

Author

Quintana, Elisabet, Valls, Cristina, and Roncero, M. Blanca

Subjects

*WASTE paper, *SUSTAINABILITY, *CELLULOSE acetate, *CELLULOSE fibers, *FOOD packaging, *PACKAGING recycling

Abstract

Paper sludge consists mainly of wet short cellulose fibers that are lost during papermaking and of residual chemicals used in the manufacturing process that remain dissolved in the water. Each ton of paper generates about 40–50 kg of dry sludge, of which 70% is primary sludge. Paper production, which exceeded 400 million tons globally in 2020, generates vast volumes of solid waste. Primary sludge is usually fiber-rich and hence suitable to be recycled back into the papermaking process. However, if the sludge is to be disposed of in landfills, sustainable practices must be developed in order to recover the fibers as they are valuable source for manufacturing high value-added products. This study investigates the valorization of paper sludge discarded by a filter paper manufacturer, with the purpose of producing cellulose acetate films for food packaging. The process involves recovering cellulose fibers from the sludge, purifying them and through acetylation reaction produce cellulose acetate films. FTIR spectra confirmed successful acetylation of fibers and also that acetyl groups reduced the hydrophilicity of cellulose—the contact angle was increased to over 80° from 50° in native cellulose. The films exhibited very good water barrier properties at both 50% and 90% relative humidity (RH). [ABSTRACT FROM AUTHOR]

Published

2024

38. Interplay of electrokinetic effects in nonpolar solvents for electronic paper displays.

Author

Khorsand Ahmadi, Mohammad, Liu, Wei, Groenewold, Jan, den Toonder, Jaap M.J., Henzen, Alex, and Wyss, Hans M.

Subjects

*INFORMATION display systems, *ELECTRONIC paper, *SOLVENTS, *DIELECTROPHORESIS, *ELECTRO-osmosis, *PROPERTIES of fluids

Abstract

Electronic paper displays rely on electrokinetic effects in nonpolar solvents to drive the displacement of colloidal particles within a fluidic cell. While Electrophoresis (EP) is a well-established and frequently employed phenomenon, electro-osmosis (EO), which drives fluid flow along charged solid surfaces, has not been studied as extensively. We hypothesize that by exploiting the interplay between these effects, an enhanced particle transport can be achieved. In this study, we experimentally investigate the combined effects of EP and EO for colloidal particles in non-polar solvents, driven by an electric field. We use astigmatism micro-particle tracking velocimetry (A- μ PTV) to measure the motion of charged particles within model fluidic cells. Using a simple approach that relies on basic fluid flow properties we extract the contributions due to EP and EO, finding that EO contributes significantly to particle transport. The validity of our approach is confirmed by measurements on particles with different magnitudes of charge, and by comparison to numerical simulations. We find that EO flows can play a dominant role in the transport of particles in electrokinetic display devices. This can be exploited to speed up particle transport, potentially yielding displays with significantly faster switching times. Interplay of electrokinetic effects : Driven by the applied electric field, both electro-osmosis (EO, top left), which drives a flow along the surfaces of the fluidic cell, and electrophoresis (EP, top right), which drives a migration of particles relative to the background liquid, occur in our system. A typical example of the resultant particle velocity field (bottom) illustrates the important role of EO on particle transport in the fluidic cell. • Studied electrokinetics of particles in nonpolar solvent using astigmatism micro-PTV. • Both electrophoresis (EP) and electro-osmosis (EO) play important roles. • Combination of EO and EP could be exploited in faster switching e-paper displays. [ABSTRACT FROM AUTHOR]

Published

2024

39. Paper-pop-up design as three-dimensional skillin a higher education context.

Author

Springer, Leonardo, Pozo Puértolas, Rafael, and Bajanca, Antonio

Subjects

GRAPHIC design, UNIVERSITIES & colleges, COLLEGE curriculum, STRUCTURAL design, HIGHER education

Abstract

Copyright of Grafica: Journal of Graphic Design / Documents de Disseny Gràfic is the property of Universitat Autonoma de Barcelona 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

40. Efficient preparation and characterization of carbon fiber paper using phenolic resin in-pulp addition method.

Author

Huang, Shancong, Ye, Jin, Su, Mimi, Zhang, Yu, Meng, Yu, Meng, Xuan, and Xia, Xinxing

Subjects

*PHENOLIC resins, *CARBON paper, *CARBON fibers, *PROTON exchange membrane fuel cells, *PORE size distribution, *COAGULANTS, *PROTON conductivity

Abstract

Carbon fiber paper (CFP) is one of the most widely used gas diffusion layer materials for proton exchange membrane fuel cells (PEMFC) due to its excellent properties such as high conductivity, high strength, high air permeability and corrosion resistance. In this study, CFP was prepared using the phenolic resin (PF) in-pulp addition method. The effect of PF content on the properties of hot-pressed paper (HPP) and CFP was investigated. The results showed that when the dosage of polyethylene oxide (PEO) was 1.5 wt%, the flocculation effect of PEO on PF was basically complete, and the water filterability and retention of carbon fiber pulp were relatively optimal. After HPP was carbonized into CFP, the hydrophobicity, average pore size, porosity, and air permeability increased, while the resistivity and tensile strength decreased. With the increase of PF content, the tensile strength of CFP gradually increased, while the average pore size, porosity, air permeability and resistivity decreased. When the PF content was 250 wt%, the average pore size of CFP was 36.5 μm, the water contact angle was 127°, the porosity was 69.7%, the air permeability was 7.81 × 103 mL mm/(cm2·h·mmHg), the resistivity was 21.1 mΩ cm, and the tensile strength was 15.7 MPa. In addition, the CFP prepared using PF in-pulp addition method had a relativity uniform pore size distribution and high air permeability. Therefore, this work shows that the CFP prepared using this technique exhibits excellent comprehensive performance, and enables the manufacturing of CFP to be more efficient, low-cost, and environmentally friendly. [Display omitted] • Carbon fiber paper was prepared efficiently using the phenolic resin in-pulp addition method. • Polyethylene oxide exhibits strong adsorption ability on phenolic resin in carbon fiber pulp. • The melting temperature of phenolic resin is a critical point in the preparation process of carbon fiber paper. • Carbon fiber paper possesses a relatively uniform pore size distribution and high air permeability. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effect of Carbon Fiber Paper with Thickness Gradient on Electromagnetic Shielding Performance of X-Band.

Author

Liu, Zhi, Song, Meiping, Liang, Weiqi, Gao, Xueping, and Zhu, Bo

Subjects

*CARBON paper, *ELECTROMAGNETIC shielding, *MULTIPLE scattering (Physics), *ELECTROMAGNETIC fields, *ELECTROMAGNETIC waves, *CARBON fibers

Abstract

Flexible paper-based materials play a crucial role in the field of flexible electromagnetic shielding due to their thinness and controllable shape. In this study, we employed the wet paper forming technique to prepare carbon fiber paper with a thickness gradient. The electromagnetic shielding performance of the carbon fiber paper varies with the ladder-like thickness distribution. Specifically, an increase in thickness gradient leads to higher reflectance of the carbon fiber paper. Within the X-band frequency range (8.2–12.4 GHz), reflectivity decreases as electromagnetic wave frequency increases, indicating enhanced penetration of electromagnetic waves into the interior of the carbon fiber paper. This enhancement is attributed to an increased fiber content per unit area resulting from a greater thickness gradient, which further enhances reflection loss and promotes internal multiple reflections and scattering effects, leading to increased absorption loss. Notably, at a 5 mm thickness, our carbon fiber paper exhibits an impressive average overall shielding performance, reaching 63.46 dB. Moreover, it exhibits notable air permeability and mechanical properties, thereby assuming a pivotal role in the realm of flexible wearable devices in the foreseeable future. [ABSTRACT FROM AUTHOR]

Published

2024

42. Utilizing de‐inked paper sludge for sustainable production of medium‐density fiberboard: A comprehensive study.

Author

Ashori, Alireza, Mahmoudi Najafi, Seyed Heydar, Heydari, Vahid, Besharatifar, Kamran, Sharifi Taskouh, Hamed, and Maghsoodi, Davood

Subjects

*SUSTAINABILITY, *PAPER mill waste, *FIBERBOARD, *CRYSTAL whiskers, *WASTE recycling, *ADHESION, *MOISTURE

Abstract

This study investigated converting abundant paper mill waste, de‐inked paper sludge (DPS), into value‐added medium‐density fiberboard (MDF) panels. The objective was to repurpose this solid waste into a valuable material that aligns with the principles of a circular economy. Previous research has examined the addition of paper sludge to wood composites, but there is limited information on the specific incorporation of DPS into MDF production. This investigation offers new insights into this application. MDF panels were manufactured using hardwood fibers, with varying levels of urea‐formaldehyde resin (10% and 12% by weight) and different loadings of DPS (ranging from 0% to 50% by weight). X‐ray diffraction analysis revealed the presence of defective DPS fiber crystals. Contact angle measurements confirmed that DPS had poor wettability, corresponding to increased water absorption. As more DPS was incorporated, the mechanical properties of the panels progressively weakened due to defective fibers and poor adhesion between the fibers and the matrix. This was evident in scanning electron microscopy micrographs, which showed an escalation in interfacial flaws. Increasing the resin dosage noticeably improved the internal bond strength and reduced moisture uptake across all levels of DPS. However, at a DPS loading of 50%, the properties of the panels deteriorated by 36%–57% compared to the control MDF. Additionally, thickness swelling and water absorption increased significantly with higher DPS content, primarily due to the hydrophilic nature of the fibers. Based on optimization, it was determined that a DPS loading of 20% with a resin content of 12% provided the best balance between performance, waste utilization, cost, and moisture resistance. The reuse of abundant paper sludge supports the goals of a circular economy. However, strategies are required to tailor the processing methods and enable higher levels of recycled material without excessively compromising the key attributes of the product. Further research should focus on enhancing the quality of DPS and its compatibility with wood fibers and resin to enhance the performance of the composite material. Highlights: DPS from recycled paper mill assessed for MDF production with wood fibers and resinIncreasing DPS loading caused reductions in strength and adhesion of panelsWater absorption and thickness swelling markedly rose with more DPS additionIt was attributed to hydrophilic fibers and disrupted fiber‐matrix bondingOptimal formulation was 20% DPS loading and 12% resin content, balancing performance, waste utilization, and cost. [ABSTRACT FROM AUTHOR]

Published

2024

43. Environmental Sustainability and The Demand For Recycled Paper: A Case Study of Production and Supply Chain Management at PT. Recycled Paper Hub in the B2B Industry.

Author

Prima, Fachmi Firzandi, Indradewa, Rhian, Rahmat Syah, Tantri Yanuar, and Kustiawan, Unggul

Subjects

RECYCLED paper, SUPPLY chain management, SUSTAINABILITY, BUSINESS partnerships, BUSINESS-to-business transactions

Abstract

This paper aims to explore PT. Recycled Paper Hub's response to the increasing demand for recycled paper within the context of sustainable production management and supply chain management, with a focus on the B2B industry. The study encompasses an analysis of the company's practices in managing relationships with suppliers of recycled paper, enhancing operational efficiency, and mitigating environmental impacts from its operations. PT. Recycled Paper Hub, a B2B company specializing in processing recycled paper into bales, faces rising demand for its products. This article presents research findings on how the company addresses the growing market demand through the utilization of advanced production technology and the application of lean manufacturing methods to minimize waste. Furthermore, the research evaluates how PT. Recycled Paper Hub manages relationships with suppliers of recycled paper to ensure stable and high-quality supply. Strategic partnerships with suppliers of recycled paper are identified as key success factors in meeting increasing demand. The research findings indicate that the increased demand for bales of recycled paper not only reduces waste and emissions but also reinforces PT. Recycled Paper Hub's commitment to sustainability. These findings offer valuable insights for the paper industry and other companies seeking to adopt more sustainable business models. [ABSTRACT FROM AUTHOR]

Published

2024

44. Dependability analysis of paper mill plant under multi-state repairable systems execution.

Author

Shivanit, Ram, Mangey, Goyal, Nupur, and Kumar, Akshay

Subjects

*MEAN time between failure, *PAPER mills, *SYSTEM failures, *MARKOV processes, *SYSTEM analysis

Abstract

Paper has been in common use for centuries and plays an important part in our daily life. The paper making process is a complex process that comprises various steps. Thus, a component's breakdown or failure can lead to poor system performance or in system failure. Therefore, a comprehensive system analysis is necessary for improved performance. In this research, the authors have examined the operation and performance of a paper mill, in order to gauge and enhance its performance. The reliability, availability, maintainability and dependability (RAMD) of the system are analysed. Appropriate mathematical models are developed on the basis of Markov birth-death processes to analyse production under steady-state conditions. The whole system is made up of six subsystems. Measures of the reliability, availability, maintainability, dependability, mean time between failures (MTBF), mean time to failure (MTTF), and dependability ratio are evaluated for the entire system. [ABSTRACT FROM AUTHOR]

Published

2024

45. Soil–Water Retention Curve Determination for Sands Using the Filter Paper Method.

Author

Shwan, B. J.

Subjects

*FILTER paper, *SAND filtration (Water purification), *SAND dunes, *SOIL moisture, *SAND, *CALIBRATION, *SAND waves

Abstract

The filter paper (FP) method, a cost-effective, versatile, and convenient approach, has found extensive application in analyzing fine-grained soils, enabling the successful measurement of a broad spectrum of total and matric suctions. However, using the FP method in sand with a limited range of suction profiles has been notably underrepresented in the existing literature. Therefore, this study investigated the applicability of the contact FP method in establishing soil water retention curves (SWRCs) using five distinct FP calibration curves for 10 poorly graded sands. Among these calibration curves, the one presented by Chandler yielded the highest suction values, which were followed by those of ASTM. Furthermore, the FP results were subjected to fitting with a mathmatical model, which led to the observation that the overall trends in the obtained SWRCs displayed smooth sigmoidal shapes, resulting in a complete and coherent SWRCs. The SWRC results of five sand samples were assessed through validation against the hanging column technique (HCT) results, indicating a high degree of concordance and affirming the suitability of the FP method for sands characterized by a limited suction profile. Notably, the entire range of suction values fell within the 0.01–20 kPa range based on the calibration curves presented by Chandler and ASTM for all the examined sand samples, except sands 9 and 10. Furthermore, the suction values were unobtainable using the two aforementioned calibration curves within the ranges of 0.01–1.47 kPa and 0.01–0.172 kPa. [ABSTRACT FROM AUTHOR]

Published

2024

46. Paper: part and parcel of the agriculture industry.

Author

du Toit, Magda

Subjects

AGRICULTURAL industries, PAPER industry, BLUEBERRIES, FORESTS & forestry, WASTE paper, CLIMATE change mitigation, CITRUS, ARABLE land

Abstract

The article focuses on the importance of sustainable packaging choices in today's consumer-driven market, particularly emphasizing the shift away from plastic towards alternatives like paper. Topics include the increasing demand for paper packaging post-COVID-19, the characteristics and types of paper used in different applications, and the essential role of both virgin and recycled paper in maintaining a sustainable paper cycle.

Published

2024

47. An Historical Analysis of the Library Technology as Described and by Practitioners: Exploring Themes in VALA Conference Papers.

Author

Haden, Katie P.

Subjects

*CONFERENCE papers, *TECHNOLOGY conferences, *INFORMATION services, *HISTORICAL analysis, *CONTENT analysis

Abstract

Conference proceedings are valuable sources for research, providing insights into individual or organisational projects. Australian library and information services (LIS) professionals have the opportunity to contribute to a robust conference culture, including the biennial library technology VALA conference. Practice-driven conferences can offer interpretations of LIS practitioner experiences, however, there is limited research focusing on Australian LIS conference proceedings. The VALA conference papers offer a unique record of technology's impact, influence, and implementation in Australian LIS organisations over the last forty years. This article will outline the objective and methodology of an ongoing research project undertaking historical analysis of VALA conference papers. The research project seeks to examine key themes, theories, and tools discussed in VALA conference papers and will attempt to identify if evolving technology influences the practices and attitudes of Australian LIS practitioners. The article will identify the research methods and the content analysis techniques that will be used in the project, and present preliminary results from a pilot study presented at the 2023 RAILS conference. [ABSTRACT FROM AUTHOR]

Published

2024

48. Unbleached Nanofibrillated Cellulose as Additive and Coating for Kraft Paper.

Author

Lengowski, Elaine Cristina, Bonfatti Júnior, Eraldo Antonio, Simon, Leonardo Coelho, Izidio, Vitória Maria Costa, Andrade, Alan Sulato de, Nisgoski, Silvana, and Muniz, Graciela Inês Bolzon de

Subjects

KRAFT paper, PAPER pulp, FOOD packaging, THERMAL stability, LIQUEFIED gases, EUCALYPTUS

Abstract

Although paper packages are biodegradable, their applications in food packaging are limited due to high affinity for absorbing moisture and the high permeability of gases and liquids with surroundings. Therefore, exploring the use biodegradable coatings such as nanocellulose to improve barrier is a relevant strategy. This study assessed the efficacy of unbleached nanofibrillated cellulose (NFC) as an additive to paper and coatings. Using NFC derived from unbleached eucalyptus pulp, a 5% mass addition to the paper pulp and a 2 mm wet nanocellulose coating to kraft paper handsheets made from pine pulp were investigated. In addition, nanocellulose films of similar thicknesses were appraised. The physical, morphological, mechanical, and thermal characteristics of the resulting papers were assessed. Incorporating NFC notably enhanced the morphology area of the paper by padding its pores, thus increasing its density by up to 48% and improving its water barrier properties by up to 50%. The mechanical strength showed significant enhancements, particularly in bursting and tensile strength with increases of up to 134% and 50%, respectively. Anyhow, the films exhibited lower bursting indices and no improvement in the tearing index. Nonetheless, the thermal stability of the handsheets with NFC coating meets the minimum requirements for food packaging. [ABSTRACT FROM AUTHOR]

Published

2024

49. Efficient fabrication of paper nanocomposites for superior flame retardancy and strengthening properties.

Author

Hassan, Mayar, Diab, Mohamed A., Attia, Nour F., Hegazi, Abdelrahman H., and Hagar, Mohamed

Subjects

*FIREPROOFING, *WASTE paper, *FIREPROOFING agents, *FIRE prevention, *AGRICULTURAL wastes, *FLAMMABILITY

Abstract

Innovative and cost-effective paper sheets with superior fire safety and reinforcement properties have been developed. The paper sheets were fabricated via valorization of agricultural waste to paper and then coated with nanoparticles. Paper attained from rice straw was used to create the sheets. Afterward, bentonite sheets were incorporated in these sheets, and finally, PbO nanoparticles were coated on prepared paper nanocomposites. The mass ratio of bentonite sheets was altered. The flammability and mechanical properties of the developed paper nanocomposites were studied. The flame retardancy of developed paper nanocomposite was significantly improved achieving LOI value of 24% compared to 20% for bentonite and PbO nanoparticle-free sample. Additionally, the tensile strength was improved recording 44% enhancement compared to unmodified sample. Furthermore, the flame retardancy mechanism was proposed and studied. [ABSTRACT FROM AUTHOR]

Published

2024

50. Shredded Waste Office Paper as a Component with Wood Particles in the Production of Particleboard.

Author

Konukcu, Arif Caglar and Engin, Merve

Subjects

*WASTE paper, *WOOD, *UREA-formaldehyde resins, *MODULUS of elasticity, *PARTICLE board

Abstract

The effect of shredded waste office paper was considered when producing one-layered particleboard. Five different mixing ratios of shredded waste office paper/wood particles were used (0/100, 25/75, 50/50, 75/25, and 100/0) and two amounts of urea formaldehyde (UF) resin (10% and 15%). The boards were tested for their physical and mechanical properties, including modulus of elasticity (MOE), bending strength (MOR), and internal bond (IB) strength, in accordance with the European Norm (EN) standards. All properties of the boards were found to be improved via increasing the resin content. The 15% UF-bonded board with 100% wood particles had the highest MOR, whereas the board containing 100% wastepaper for 15% UF had the highest MOE. However, there was no statistical difference between the board types. Although increasing wastepaper content in the board negatively affected the IB, the usage of wastepaper up to 25% was shown to be acceptable as a raw material in the production of particleboard. None of the prepared boards met the EN 312 (1999) requirements for thickness swelling. The boards made from shredded waste office paper were more suitable for dry and indoor use. [ABSTRACT FROM AUTHOR]

Published

2024