Showing total 16,892,149 results

1. Author Index.

Subjects

PAPER arts, GOVERNMENT report writing, AUTHORS

Published

2020

2. 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

3. 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

4. Raw Materials of Chinese Traditional Handmade paper.

Author

Cheuk Kei Chan and Xiaohui Yi

Published

2023

5. Treatment of Pulp and Paper Industrial Effluent Using integrated methods: A review.

Author

El-Baz, Amro A., El-Gohary, Emad H., Hendy, Ibrahim A., and Mahmoud, Ahmed M.

Subjects

PAPER industry, PAPER mills, INDUSTRIAL wastes, POLLUTANTS, WASTEWATER treatment

Abstract

The pulp and paper sector has become one of the most significant industrial sectors in the world due to its economic benefits. After primary metals and chemicals sectors, the pulp and paper industry produces the third-largest quantity of wastewater. With regard to environmental feedbacks, ongoing legal requirements, and energy efficiency measures, pulp and paper mills have recently encountered difficulties managing the ensuing pollutants. This study identify pulp and paper mill wastewaters properties, quantities and discuss the recent developments of affordable methods dealing with pulp and paper mill wastewaters. According to the results of the current study, employing integrated methods which is a mixture of treatment techniques may be more advantageous from an economic and environmental standpoint in order to reduce environmental contaminants and energy recycling. [ABSTRACT FROM AUTHOR]

Published

2024

6. Optical and Printing Properties of Deinked Office Waste Printed Paper.

Author

Ghanbarzadeh, B., Ataeefard, M., Etezad, S. M., and Mahdavi, S.

Subjects

OPTICAL properties, DEINKING (Waste paper), PHOTOGRAPHIC printing, CELLULASE, PAPER recycling

Abstract

Deinking waste paper is done in various ways, and research on newer methods is also being done. Traditional deinking methods to remove ink from waste printing papers have a relatively high efficiency compared to contact methods, but in non-contact printing such as electrophotographic printing (LaserJet printers and photocopiers) due to Mixing of the ink with the paper texture during the stabilization of the ink with the help of high heat, the traditional deinking methods are less efficient and it is necessary to use newer methods. In this research, enzymatic deinking of office waste paper was done by a commercial cellulase enzyme in a neutral environment. 15 tests were conducted, and optical and printing properties including the paper were investigated. By measuring the reflection before and after printing and measuring the print density after printing, it was determined that the printability of deinked paper is within the desired range. Eric's number was 128 ppm for sample number 8 and 138 ppm for sample number 12, which has decreased compared to the control sample with an Eric number of 571 ppm. Measuring the reflection before and after printing and measuring the print density after printing, show that the printability of decomposed ink paper is in the desired range. [ABSTRACT FROM AUTHOR]

Published

2024

7. Single-fibre coating and additive manufacturing of multifunctional papers.

Author

Mikolei, Joanna Judith, Helbrecht, Christiane, Pleitner, Janine Christin, Stanzel, Mathias, Pardehkhorram, Raheleh, Biesalski, Markus, Schabel, Samuel, and Andrieu-Brunsen, Annette

Published

2024

8. WASTE PAPER MANAGEMENT OF ACADEMIC INSTITUTE: AN ENVIRONMENTAL AND ECONOMICS PERSPECTIVE OF PAPER RECYCLING.

Author

PIRZADA, ABDUL MAJEED, MALLAH, NABI BAKHSH, ZUBERI, MUHAMMAD HASHIM, and ALI, IMRAN

Subjects

PAPER recycling, RECYCLED paper, WASTE paper, WASTE management, ENVIRONMENTAL economics

Abstract

This research explores the challenges and limitations faced at the basic level for the recycling of paper in an academic institute. It focuses on encouraging recycled paper use rather than bringing traditional virgin paper to prevent the rate of deforestation for reducing global warming. Data was collected from the academic institute via questionnaire and on-site observation and found that the institute was producing approximately 16 tons of wastepaper in a year. Besides that, another purpose of this research is to estimate the energy and assess the environmental effect by using the life cycle assessment as a tool. The results of this study revealed that traditional virgin paper derived from wood proves to be costly and less environmentally friendly than recycled paper. It also revealed that Traditional virgin paper has greater global warming, human toxicity, smog, acidification, and eutrophication potential than recycled paper. This study concludes that recycled paper does not only prove economically beneficent for any institution, but also beneficial for environment as well. [ABSTRACT FROM AUTHOR]

Published

2023

9. Monitoring of Cleaning Treatments for Paper Heritage with Raman Spectroscopy Mapping.

Author

Botti, Sabina, Bonfigli, Francesca, Mezi, Luca, and Flora, Francesco

Subjects

RAMAN spectroscopy, PAPER products, CLEANING, SPECTRAL imaging

Abstract

In the field of book heritage, it is important to develop cleaning/disinfecting treatments that can slow down the degradation of paper to prevent evident and irreversible damage. The objectives of the cleaning treatments are to remove external contaminants and oxidation and decomposition products of the paper, but these processes must not modify the unique characteristics of the book heritage resulting in irreversible changes in the structure of the paper. Recently, several innovative cleaning treatments were developed with the aim of being minimally invasive; however, to assess the effect of these treatments on paper, it is necessary to use a diagnostic non-destructive, rapid, and affordable process. In previous work, we used surface scanning Raman spectroscopy to develop a diagnostic protocol able to follow the aging processes of the paper, discriminating between hydrolysis and oxidation. In this paper, we applied this protocol to study the action of different types of treatments (hydrogel and EUV irradiation), evaluating both their effectiveness and impact on paper parameters. The results reported here demonstrate that the developed in operando diagnostic procedure can follow the changes in the paper structure comparing them to the variability due to the intrinsic inhomogeneity of paper, without sample contact in a rapid and effective way. [ABSTRACT FROM AUTHOR]

Published

2024

10. Oil blotting paper for formalin fixation increases endoscopic ultrasound‐guided tissue acquisition‐collected sample volumes on glass slides.

Author

Yamai, Takuo, Ikezawa, Kenji, Seiki, Yusuke, Watsuji, Ko, Kawamoto, Yasuharu, Hirao, Takeru, Daiku, Kazuma, Maeda, Shingo, Urabe, Makiko, Kai, Yugo, Takada, Ryoji, Mukai, Kaori, Nakabori, Tasuku, Uehara, Hiroyuki, Tsuzaki, Sayoko, Ryu, Ayumi, Tanada, Satoshi, Nagata, Shigenori, and Ohkawa, Kazuyoshi

Subjects

FORMALDEHYDE, FILTER paper, PETROLEUM, PANCREATIC cancer, OIL filters

Abstract

Objectives: Endoscopic ultrasound‐guided tissue acquisition (EUS‐TA) is used for pathological diagnosis and obtaining samples for molecular testing, facilitating the initiation of targeted therapies in patients with pancreatic cancer. However, samples obtained via EUS‐TA are often insufficient, requiring more efforts to improve sampling adequacy for molecular testing. Therefore, this study investigated the use of oil blotting paper for formalin fixation of samples obtained via EUS‐TA. Methods: This prospective study enrolled 42 patients who underwent EUS‐TA for pancreatic cancer between September 2020 and February 2022 at the Osaka International Cancer Institute. After a portion of each sample obtained via EUS‐TA was separated for routine histological evaluation, the residual samples were divided into filter paper and oil blotting paper groups for analysis. Accordingly, filter paper and oil blotting paper were used for the formalin fixation process. The total tissue, nuclear, and cytoplasm areas of each sample were quantitatively evaluated using virtual slides, and the specimen volume and histological diagnosis of each sample were evaluated by an expert pathologist. Results: All cases were cytologically diagnosed as adenocarcinoma. The area ratios of the total tissue, nuclear, and cytoplasmic portions were significantly larger in the oil blotting paper group than in the filter paper group. The frequency of cases with large amount of tumor cells was significantly higher in the oil blotting paper group (33.3%) than in the filter paper group (11.9%) (p = 0.035). Conclusions: Oil blotting paper can increase the sample volume obtained via EUS‐TA on glass slides and improve sampling adequacy for molecular testing. [ABSTRACT FROM AUTHOR]

Published

2024

11. Pinecone-Inspired Humidity-Responsive Paper Actuators with Bilayer Structure.

Author

Seelinger, David, Georges, Hussam, Schäfer, Jan-Lukas, Huong, Jasmin, Tajima, Rena, Mittelstedt, Christan, and Biesalski, Markus

Abstract

Many plant materials in nature have the ability to change their shape to respond to external stimuli, such as humidity or moisture, to ensure their survival or safe seed release. A well-known example for this phenomenon is the pinecone, which is able to open its scales at low humidity due to the specific bilayer structures of the scale. Inspired by this, we developed a novel humidity-driven actuator based on paper. This was realized by the lamination of untreated paper made from eucalyptus fibers to a paper–carboxymethyl cellulose (CMC) composite. As observed, the hygroexpansion of the composite can be easily controlled by the amount of CMC in the impregnated paper sheet, which, thus, controls the morphologic deformation of the paper bilayer. For a more detailed understanding of these novel paper soft robots, we also studied the dynamic water vapor adsorption, polymer distribution and hygroexpansion of the paper–polymer composites. Finally, we applied a geometrically nonlinear finite element model to predict the bending behavior of paper bilayers and compared the results to experimental data. From this, we conclude that due to the complexity of structure of the paper composite, a universal prediction of the hygromorphic behavior is not a trivial matter. [ABSTRACT FROM AUTHOR]

Published

2024

12. Research on Strengthening Fragile Paper with Polyvinylamine.

Author

Li, Jing, Shi, Meirong, Li, Yuhu, and Fu, Peng

Subjects

FOURIER transform infrared spectroscopy, X-ray photoelectron spectroscopy, NUCLEAR magnetic resonance spectroscopy

Abstract

Paper documents are an important carrier of information related to human civilization, with the reinforcement and protection of fragile paper documents being a key aspect of their protection. This research utilized amphoteric polyvinylamine polymer as a paper reinforcement agent, strengthening the Xuan paper commonly used in paper documents. Scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FTIR), X-ray diffraction spectroscopy (XRD), X-ray photoelectron spectroscopy (XPS), solid-state 13C NMR, and other analytical methods were employed to compare the physical properties, micro-morphology, crystallinity, and aging resistance of the paper before and after reinforcement. Research was conducted on the effects of reinforcement, the aging resistance, and the effects on the fiber structure. The results indicate that polyethylenimine has a filling and bridging effect between the paper fibers. After treatment with polyethylenimine, there was a significant improvement in the folding endurance and tensile strength of the paper. Additionally, the paper maintains a good mechanical strength even after undergoing dry heat and humid aging. [ABSTRACT FROM AUTHOR]

Published

2024

13. Mechanical Properties and Reinforcement of Paper Sheets Composited with Carboxymethyl Cellulose.

Author

Kobayashi, Junya, Kaneko, Masahiro, Supachettapun, Chamaiporn, Takada, Kenji, Kaneko, Tatsuo, Kim, Joon Yang, Ishida, Minori, Kawai, Mika, and Mitsumata, Tetsu

Subjects

METHYLCELLULOSE, STRESS-strain curves, CARBOXYMETHYLCELLULOSE, BOND strengths, AQUEOUS solutions

Abstract

The mechanical properties for paper sheets composited with glucose (Glc), methyl cellulose (MC), and carboxymethyl cellulose (CMC) were investigated. The paper composites were prepared by immersing paper sheets in aqueous solutions of these materials and drying at 100 °C for 30 min. The stress–strain curves for these paper composites were measured by a uniaxial tensile apparatus with a stretching speed of 2 mm/min. The breaking stress and strain for untreated paper were 24 MPa and 0.016, respectively. The paper composites demonstrated stress–strain curves similar to the untreated paper; however, the breaking point largely differed for these composites. The breaking strain and breaking stress for the Glc composite slightly decreased and those for the MC composite gradually increased with the concentration of materials composited. Significant increases in the mechanical properties were observed for the CMC composite. The breaking stress, breaking strain, and breaking energy for the 3 wt.% CMC composite were 2.0-, 3.9-, and 8.0-fold higher than those for untreated paper, respectively. SEM photographs indicated that the CMC penetrated into the inner part of the paper. These results strongly suggest that the mechanical improvement for CMC composites can be understood as an enhancement of the bond strength between the paper fibrils by CMC, which acts as a bonding agent. It was also revealed that the breaking strain, breaking stress, and breaking energy for the CMC composites were at maximum at the first cycle and decreased gradually as the immersion cycles increased. [ABSTRACT FROM AUTHOR]

Published

2024

14. Structural analysis of paper substrate for flexible microfluidics device application.

Author

Yadav, Supriya, Singh, Kulwant, Gupta, Anmol, Kumar, Mahesh, Sharma, Niti Nipun, and Akhtar, Jamil

Subjects

MICROFLUIDIC devices, MICROFLUIDICS, DARCY'S law, POROUS materials, SCANNING electron microscopes, MULTIPHASE flow, SURFACE structure

Abstract

Purpose: The purpose of this paper is to predict a suitable paper substrate which has high capillary pressure with the tendency of subsequent fluid wrenching in onward direction for the fabrication of microfluidics device application. Design/methodology/approach: The experiment has been done on the WhatmanTM grade 1, WhatmanTM chromatography and nitrocellulose paper samples which are made by GE Healthcare Life Sciences. The structural characterization of paper samples for surface properties has been done by scanning electron microscope and ImageJ software. Identification of functional groups on the surface of samples has been done by Fourier transform infrared analysis. A finite elemental analysis has also been performed by using the "Multiphase Flow in Porous Media" module of the COMSOL Multiphysics tool which combines Darcy's law and Phase Transport in Porous Media interface. Findings: Experimentally, it has been concluded that the paper substrate for flexible microfluidic device application must have large number of internal (intra- and interfiber) pores with fewer void spaces (external pores) that have high capillary pressure to propel the fluid in onward direction with narrow paper fiber channel. Originality/value: Surface structure has a dynamic impact in paper substrate utilization in multiple applications such as paper manufacturing, printing process and microfluidics applications. [ABSTRACT FROM AUTHOR]

Published

2024

15. A review of recent infrared spectroscopy research for paper.

Author

Xia, Jingjing, Xiong, Yanmei, Min, Shungeng, and Li, Jinyao

Subjects

INFRARED spectroscopy, MID-infrared spectroscopy, PAPER pulp, DOCUMENT imaging systems, CHEMICAL properties, TECHNICAL reports

Abstract

For many centuries, paper is the main material for recording cultural achievements all over the world. Infrared (IR) spectroscopy is an essential analytical tool for the structural analysis of paper and pulp chemistry. This review article introduced recent technical and scientific reports in terms of IR spectroscopy in the paper science and application, where interest had increased during the last couple decades (2000–2022). Five parts were described according to the application of IR spectroscopy: the analysis of cellulose and its derivatives, estimation the date of documents, identification the origins of fiber or paper, specification the chemical and physical properties of paper, and characterization the new materials of paper. [ABSTRACT FROM AUTHOR]

Published

2023

16. Erythrosine–Dialdehyde Cellulose Nanocrystal Coatings for Antibacterial Paper Packaging.

Author

Shi, Shih-Chen, Ouyang, Sing-Wei, and Rahmadiawan, Dieter

Subjects

BIODEGRADABLE plastics, CELLULOSE, KRAFT paper, PLASTICS, PLASTICS in packaging, POLYETHYLENE

Abstract

Though paper is an environmentally friendly alternative to plastic as a packaging material, it lacks antibacterial properties, and some papers have a low resistance to oil or water. In this study, a multifunctional paper-coating material was developed to reduce the use of plastic packaging and enhance paper performance. Natural cellulose nanocrystals (CNCs) with excellent properties were used as the base material for the coating. The CNCs were functionalized into dialdehyde CNCs (DACNCs) through periodate oxidation. The DACNCs were subsequently complexed using erythrosine as a photosensitizer to form an erythrosine–CNC composite (Ery-DACNCs) with photodynamic inactivation. The Ery-DACNCs achieved inactivations above 90% after 30 min of green light irradiation and above 85% after 60 min of white light irradiation (to simulate real-world lighting conditions), indicating photodynamic inactivation effects. The optimal parameters for a layer-by-layer dip coating of kraft paper with Ery-DACNCs were 4.5-wt% Ery-DACNCs and 15 coating layers. Compared to non-coated kraft paper and polyethylene-coated paper, the Ery-DACNC-coated paper exhibited enhanced mechanical properties (an increase of 28% in bursting strength). More than 90% of the bacteria were inactivated after 40 min of green light irradiation, and more than 80% were inactivated after 60 min of white light irradiation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Development and Evolution of Papermaking in Ancient China based on the Uses and Forms of Paper.

Author

Xiaohui Yi

Published

2023

18. Sustainable Utilization of Pulp and Paper Wastewater.

Author

Liang, Xiaoli, Xu, Yanpeng, Yin, Liang, Wang, Ruiming, Li, Piwu, Wang, Junqing, and Liu, Kaiquan

Subjects

PAPER pulp, SEWAGE, PAPER industry, PAPER recycling, POLLUTION, RECYCLED paper, SUSTAINABLE development

Abstract

The pulp and paper industry plays an important role in the global economy and is inextricably linked to human life. Due to its large scale, the production process generates a large amount of wastewater, which poses a major threat to the environment. The sustainable utilization and safe treatment of pulp and paper wastewater can effectively reduce environmental pollution, improve resource utilization efficiency, protect water resources, provide economic benefits for pulp and paper enterprises, and thus promote the green and sustainable development of the pulp and paper industry. Therefore, this study discusses the pollution components of pulp and paper wastewater and their impact on the environment and human health. In this review, we aim to explore the sustainable development of pulp and paper wastewater by summarizing the characteristics of current pulp and paper wastewater, the commonly used treatment methods for pulp and paper wastewater, the application of pulp and paper wastewater recycling, and the future development direction of pulp and paper wastewater. [ABSTRACT FROM AUTHOR]

Published

2023

19. The Surface Modification of Papers Using Laser Processing towards Applications.

Author

Dudek, Mariusz, Sąsiadek-Andrzejczak, Elżbieta, Jaszczak-Kuligowska, Malwina, Rokita, Bożena, and Kozicki, Marek

Subjects

OPTICAL brighteners, LASERS, SCANNING electron microscopy, RAMAN spectroscopy, PAPER products, CONFOCAL microscopy

Abstract

This work presents the results of paper laser processing. It begins with the selection and examination of the processing parameters, then an examination of the properties of the modified papers and examples of applications of the developed modification method. The properties of laser-modified paper were studied using reflectance spectrophotometry to examine the colour aspects of the modified papers, scanning electron microscopy (SEM) and confocal microscopy for a morphological analysis, and Raman spectroscopy to analyse the papers under the influence of laser light. The influence of laser processing on the wettability of paper and the evenness of unprinted and printed paper was also investigated. The knowledge gained on paper surface modification with laser light was used to propose several applications, such as methods of marking, tactile detection, the controlled removal of optical brightener, ink, and metallised coatings from paper packaging, highlighting the design and aesthetics of paper. The developed laser-assisted method shows a promising, ecological approach to the design of many value-added paper products. [ABSTRACT FROM AUTHOR]

Published

2023

20. Feasibility Study on Biodegradable Black Paper-Based Film Solidified Using Cooked Tung Oil.

Author

Wu, Yi, Shi, Yicheng, Zhao, Yudie, and Yin, Yu

Subjects

BLACK films, SUSTAINABLE agriculture, HEAT conduction, HYDROPHOBIC surfaces, CONTACT angle, CARBON-black, BIODEGRADABLE plastics

Abstract

New biodegradable paper-based films are a hot research topic in the development of green agriculture. In this study, a black paper-based film coated with cooked tung oil with excellent mechanical properties, a hydrophobic surface, high heat transfer and strong weather resistance was prepared by spraying high-pigment carbon black solution on the surface of base paper. The results showed that the surface-solidified oil film had a rough structure produced via the brush coating process using cooked tung oil. The base film of the black paper had a given hydrophobic structure, and the contact angle reached 98.9°. Cooked tung oil permeates into the inside of the paper base, and after curing, it forms a multi-dimensional network film structure. The maximum tensile stress of the black paper base film is about 123% higher than that of the original paper base film. The coloring of carbon black gives the black paper base film a heat conduction effect, and the average heat transfer rate reaches 15.12 °C/s. Cooked tung oil is combined with the paper-based fiber high-toughness layer to form a stable system. The existence of a cured film improves the basic mechanics and hydrophobicity, and the resistance to ultraviolet radiation and hot air is greatly improved. This study provides a feasible scheme for the application of a black paper base film coated with cooked tung oil. [ABSTRACT FROM AUTHOR]

Published

2024

21. Enhancing the Decomposition of Paper Cups Using Galleria Mellonella and Eisenia Fetida.

Author

Moqbel, Shadi, Al-Ghoul, Habib, Al-Ghzawi, Abd Al-Majeed, and Mukbel, Rami

Subjects

PAPER products, GREATER wax moth, LUMBRICUS rubellus, RECYCLING industry, BIODEGRADATION

Abstract

The composition of paper cups creates a challenge for the recycling industry, as the paperboard--plastic film composite is hard to separate. Therefore, paper cups are sent to landfills or waste incinerators. This study explores the combined use of red worms (Eisenia fetida) and Greater wax moth (Galleria mellonella) in the biodegradation of paper cups. The study investigates the conditions and combinations that promote using Eisenia fetida and Galleria mellonella for degrading paper cups. The study considered the influence of environmental temperature, the presence of food waste, varying the number of Eisenia fetida worms, and the presence of a Galleria mellonella growth-slowing agent on the degradation process. To achieve the study objectives, the study followed a quantitative approach. The study monitored the degradation of paper cup cuts that were placed in jars containing different combinations of Eisenia fetida worms, Galleria mellonella larvae, food waste, bedding material, and Galleria mellonella growth-slowing agents. The study found that the best operating temperature is 30°C. The study found that using food waste improves the performance of Eisenia fetida worms and Galleria mellonella larvae significantly. The study found that adding a Galleria mellonella growth-slowing agent slightly enhances the degradation of the paper cup. Finally, a numerical model was obtained to simulate the paper cup degradation efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

22. Development of Paper Temperature Prediction Method in Electrophotographic Processes by Using Machine Learning and Thermal Network Model.

Author

Takamasa Hase, Takumi Ishikura, Shinichi Kuramoto, Koichi Kato, and Kazuyoshi Fushinobu

Subjects

MACHINE learning, THERMOPHYSICAL properties, THERMAL conductivity, THERMAL properties, TEMPERATURE, SPECIFIC heat

Abstract

Since the fusing process in electrophotography has a significant impact not only on printing quality but also on machine internal temperature and toner blocking on outlet tray, accurate paper temperature prediction for various types of papers is essential, especially in the production printing. To develop the thermophysical model of fusing process to predict the paper temperature after the fusing process, thermal properties such as thermal conductivity, specific heat, and thermal contact resistance of several types of papers are necessary. However, paper is composed of complex fiber, surface coating, filler, and moisture, making it difficult to measure thermophysical properties of paper accurately. This work developed a machine learning (ML) model that can predict the thermophysical properties of paper based on a conventionally used 1D thermal network model of the fusing process and experiment results. The thermophysical properties of each paper obtained by ML and the thermophysical properties obtained by the conventional method were input to the thermal network model to predict the paper temperature after the fusing process and compared with the measured paper temperatures of the experiment. The results showed that the paper temperature was predicted with higher accuracy by using thermophysical properties obtained by ML than that by the conventional method. Although the method for predicting paper temperature by using only ML had been proposed, it had the disadvantage of requiring a large number of training experiments. In contrast, this method trained under the conditions of one fusing temperature and two printing speeds, and was able to predict under five fusing temperatures and four printing speeds. [ABSTRACT FROM AUTHOR]

Published

2024

23. Effect of Polyhydroxybutyrate and Ethyl Cellulose for Barrier Coating of Kraft Paper.

Author

Dong Gun Lim, Yong Ju Lee, Ji Min Lee, Jae Hyeop Kim, Tai Ju Lee, and Hyoung Jin Kim

Subjects

KRAFT paper, POLYMER blends, POLYHYDROXYBUTYRATE, ETHYLCELLULOSE, SURFACE coatings, BOND strengths, TENSILE strength, 3-Hydroxybutyric acid

Abstract

Poly(3-hydroxybutyrate) (PHB), a biodegradable polymer, has been studied as a substitute for petroleum-based polymers used for barrier coating to improve the barrier and mechanical properties of paper. In this study, ethyl cellulose (EC), a cellulose derivative, was used to prepare a polymer blend for enhancing the barrier properties of PHB. The prepared PHB/EC blend was then applied as a paper coating material. Additionally, the barrier and mechanical properties of the PHB/EC blend-coated paper based on the PHB/EC mixing ratio and coating weight were analyzed. The results showed that the EC could act as a binder for the PHB/EC blendcoated paper. Consequently, the PHB/EC blend-coated paper exhibited significant improvements in mechanical and barrier properties, including a substantial increase of over 100% in internal bond strength, more than 20% in tensile strength, exceeding 60% enhancement in water resistance, and a remarkable increase of over 90% in air permeability. [ABSTRACT FROM AUTHOR]

Published

2024

24. Potential Use of Nanofibrillated Cellulose-loaded Cationic Starch Solutions as Coating Formulation for Recycled Fluting Papers.

Author

Tozluoğlu, Ayhan

Subjects

RECYCLED paper, NANOFIBERS, STARCH, SURFACE coatings, CELLULOSE

Abstract

Effects of cellulose nanofibers (CNF) and cationic starch (CS) were evaluated as coating components relative to the physical and mechanical properties of fluting papersheets fabricated from recycled corrugated cardboard fibers. Fabricated fluting papers were subjected to size press applications by three different coating blends. Coating suspensions were prepared at various concentrations of CNF (0.5%, 1%, 2%, 3%, and 4%) and 4 wt% CS, and the same amounts of CS/CNF. The paper sheets were fabricated using size press machine as three-time repetitive applications, followed by one-time drying section, and compared to uncoated, CScoated, and CNF-coated papers. The application of CNF suspensions increased tensile indices up to 11.7%. Moreover, CS/CNF suspensions resulted in a 67.2% increase in tensile index values. The coating of CS/CNF suspensions increased the burst index values by 163% at the CS+1%CNF concentration when compared to the control pulp. Surface application of prepared suspensions reduced the porosity of the samples under all conditions. The highest reduction in the air permeability was observed in the CS+4%CNF-coated samples as 91.5%. It can be concluded that the superficial applications of CNF on the physical and mechanical properties of recycled fluting paper was more effective in the presence of CS. [ABSTRACT FROM AUTHOR]

Published

2024

25. Paper-based sensors: affordable, versatile, and emerging analyte detection platforms.

Author

Malik, Sumit, Singh, Joginder, Saini, Kajal, Chaudhary, Vivek, Umar, Ahmad, Ibrahim, Ahmed A., Akbar, Sheikh, and Baskoutas, Sotirios

Published

2024

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

Author

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

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

27. Paper-Mill Wastes for Bioethanol Production in Relation to Circular Economy Concepts: A Review.

Author

Or-Chen, Dafna, Gerchman, Yoram, Mamane, Hadas, and Peretz, Roi

Subjects

CIRCULAR economy, ETHANOL as fuel, SLUDGE management, FOSSIL fuels, PAPER pulp, WASTE management

Abstract

This review explores circular economy principles in regard to ethanol production from paper-mill sludge. Environmental sustainability and renewability over fossil fuels make second generation ethanol an attractive energy source in a rapidly growing population and consumption world. Paper sludge (PS), a by-product of the pulp and paper (P&P) industry, can no longer be recycled for paper production and is mainly disposed of in landfills. Therefore, it poses a major environmental challenge. However, it has shown potential as a valuable raw material for ethanol production, along with other pulp and paper products, due to its abundant availability and high cellulosic content. This waste-to-energy (WtE) technology for ethanol production is proposed as an alternative, aligning with circular economy concepts to maximize resource efficiency and minimize waste. This review underlines the circular economy aspects of bioethanol production within paper mill sludge management systems. Circular economy principles applied to ethanol production from PS offer a promising avenue for sustainable biofuel development that not only addresses waste management challenges but also enhances the overall environmental performance of biofuel production. Furthermore, economic benefits are described, highlighting the potential for job creation and community development. [ABSTRACT FROM AUTHOR]

Published

2024

28. Facile Strategy for Boosting of Inorganic Fillers Retention in Paper.

Author

Maślana, Klaudia, Sielicki, Krzysztof, Wenelska, Karolina, Kędzierski, Tomasz, Janusz, Joanna, Mariańczyk, Grzegorz, Gorgon-Kuza, Aleksandra, Bogdan, Wojciech, Zielińska, Beata, and Mijowska, Ewa

Subjects

PAPER pulp, MESOPOROUS materials, PAPER industry, CELLULOSE fibers, TRANSMISSION electron microscopy, MICROSCOPY

Abstract

Achieving the desired properties of paper such as strength, durability, and printability remains challenging. Paper mills employ calcium carbonate (CaCO3) as a filler to boost paper's brightness, opacity, and printability. However, weak interaction between cellulose fibers and CaCO3 particles creates different issues in the papermaking industry. Therefore, this study explores the influence of various inorganic additives as crosslinkers such as mesoporous SiO2 nanospheres, TiO2 nanoparticles, h-BN nanoflakes, and hydroxylated h-BN nanoflakes (h-BN-OH) on inorganic fillers content in the paper. They were introduced to the paper pulp in the form of a polyethylene glycol (PEG) suspension to enable bonding between the inorganic particles and the paper pulp. Our findings have been revealed based on detailed microscopic and structural analyses, e.g., transmission and scanning electron microscopy, X-ray diffraction, Raman spectroscopy, and N2 adsorption/desorption isotherms. Finally, the inorganic fillers (CaCO3 and respective inorganic additives) content was evaluated following ISO 1762:2001 guidelines. Conducted evaluations allowed us to identify the most efficient crosslinker (SiO2 nanoparticles) in terms of inorganic filler retention. Paper sheets modified with SiO2 enhance the retention of the fillers by ~12.1%. Therefore, we believe these findings offer valuable insights for enhancing the papermaking process toward boosting the quality of the resulting paper. [ABSTRACT FROM AUTHOR]

Published

2024

29. ECOLOGIES OF BLUE PAPER: DÜRER AND BEYOND.

Author

Brahms, Iris

Subjects

PAPERMAKING, PAPER industry, CONSCIOUSNESS, MANUFACTURING processes, BINDING agents, AESTHETICS

Abstract

This article examines blue paper as an ecological solution in drawing practice by investigating the questions of when and under which circumstances German artists in the early sixteenth century decided to use blue paper. Blue paper had several aesthetic, symbolic, and economic functions, often both referencing a geographic relationship to Italy and its tradition of drawing on blue paper, and also engaging in a world of play and imitation in workshop practices. For a better understanding of the early modern paper ecologies within which artists worked, it is necessary to regard paper production within a broader socio-cultural range, thus not only as an exchange between paper makers but also with consideration of other crafts as well as the impact of new technologies. From there we can reconsider our relationship to nature. [ABSTRACT FROM AUTHOR]

Published

2023

30. Non-Verbal Communication Aspect in Paper Umbrella Craft as Intangible Cultural Heritage in Malang.

Author

Anggriani, Swastika Dhesti, Wibisono, Muhammad Nurwiseso, Deffinika, Ifan, and Ramadhan, Elvira Kurnia

Abstract

Paper umbrellas are one of the crafts included in the intangible cultural heritage of Malang, East Java. Currently, it is known that there is only one group of craftsmen who still produce this paper umbrella craft. Although not many of them, this paper umbrella craft still exists among people who like traditional handicrafts. This is evident from how often paper umbrella crafts appear at craft exhibitions in cities in Indonesia. Consequently, there is a pressing need for in-depth research on paper umbrella craftsmanship in Malang City. A valuable avenue for exploration is the examination of non-verbal communication aspects inherent in paper umbrella craftsmanship. This study aimed to determine the non-verbal communication aspects contained in paper umbrella crafts. The research employs a descriptive qualitative approach, focusing on analyzing non-verbal communication aspects. Data was collected using unstructured interview methods, documentation, and field surveys. The collected data was reduced for analysis using nonverbal communication theory. The study findings are presented descriptively, detailing the observed non-verbal communication aspects. The findings reveal three distinct categories of non-verbal communication aspects in paper umbrella craftsmanship: fixed features, semi-fixed features, and non-fixed features. Fixed features include shapes depicted on the umbrella. Semi fixed feature is a choice of material used to make paper umbrellas, colors, and motifs. The materials used are bamboo and paper. The colors of the umbrellas are red and green. The motif drawn on the umbrella is a floral motif. Flowers are present because they are the favorite shapes of the craftsmen who make umbrellas. Non-fixed features encompass the entire process of crafting paper umbrellas, from material preparation to final finishing touches. [ABSTRACT FROM AUTHOR]

Published

2024

31. Research Progress and Prospect of Condition Assessment Techniques for Oil–Paper Insulation Used in Power Systems: A Review.

Author

Jiang, Zaijun, Li, Xin, Zhang, Heng, Zhang, Enze, Liu, Chuying, Fan, Xianhao, and Liu, Jiefeng

Abstract

Oil–paper insulation is the critical insulation element in the modern power system. Under a harsh operating environment, oil–paper insulation will deteriorate gradually, resulting in electrical accidents. Thus, it is important to evaluate and monitor the insulation state of oil–paper insulation. Firstly, this paper introduces the geometric structure and physical components of oil–paper insulation and shows the main reasons and forms of oil–paper insulation's degradation. Then, this paper reviews the existing condition assessment techniques for oil–paper insulation, such as the dissolved gas ratio analysis, aging kinetic model, cellulose–water adsorption isotherm, oil–paper moisture balance curve, and dielectric response technique. Additionally, the advantages and limitations of the above condition assessment techniques are discussed. In particular, this paper highlights the dielectric response technique and introduces its evaluation principle in detail: (1) collecting the dielectric response data, (2) extracting the feature parameters from the collected dielectric response data, and (3) establishing the condition assessment models based on the extracted feature parameters and the machine learning techniques. Finally, two full potential studies are proposed, which research hotspots' oil–paper insulation and the electrical–chemical joint evaluation technique. In summary, this paper concludes the principles, advantages and limitation of the existing condition assessment techniques for oil–paper insulation, and we put forward two potential research avenues. [ABSTRACT FROM AUTHOR]

Published

2024

32. 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

33. Energy benchmark and energy saving potential in the pulp and paper industry.

Author

Le-Anh, Tuan

Subjects

PAPER industry, POTENTIAL energy, ENERGY auditing, PAPER mills, PAPER products

Abstract

In this research, I established an energy benchmark for the pulp and paper industry of Vietnam. I, therefore, focus on three major paper product families, including packaging paper, printing and writing paper, and tissue paper. In this research, I use specific energy consumption (SEC) as the energy performance indicator (EnPI) for computing energy benchmarks for the main sub-sectors in the pulp and paper industry of Vietnam. The factories in the pulp and paper industry of Vietnam are divided into three production scales, and the energy benchmarks are specified by production scales. Energy surveys and energy audits have been used to calculate energy benchmarks. Here, I establish the energy benchmark for the main sub-sectors in the pulp and paper industry of Vietnam according to the three production scales. I also estimate the energy saving potential for the pulp and paper industry of Vietnam based on surveying and auditing results. [ABSTRACT FROM AUTHOR]

Published

2023

34. Print Quality of Coated Paper from Invasive Alien Plant Goldenrod.

Author

Sarjanović, Anja, Možina, Klemen, and Gregor-Svetec, Diana

Subjects

INTRODUCED plants, GOLDENRODS, NATURAL resources management, INTRODUCED species, RECYCLED paper, INVASIVE plants

Abstract

When designing products with a shorter lifespan, such as packaging and graphic products, sustainability and circular economy are particularly important. The use of an alternative fiber source for papermaking, such as collected biomass from invasive alien plant species (IAPS), is a good example of sustainable natural resource management, where IAPS are seen as a potential source of various new products. The aim of the present study was to analyze the printability of paper made from the IAPS Goldenrod. CMYK prints were made using inkjet digital technology, and their print quality was determined. IAPS Goldenrod paper, with its natural brownish color, low gloss, high voluminosity, high surface roughness and porosity, shows inferior print quality compared to recycled office paper. In order to improve the printability of this paper, surface coating using three different wet film depositions was applied. The results indicate that the smallest coat weight used suppresses the color and inferior properties of IAPS Goldenrod paper efficiently, resulting in similar printability for both the analyzed papers. Only a small difference in print quality between coated IAPS Goldenrod and recycled paper was determined, suggesting that low-value, non-demanding graphic products and packaging could be made from the coated IAPS Goldenrod paper. [ABSTRACT FROM AUTHOR]

Published

2023

35. Author index.

Published

2014

36. Quantification of the Influence of Ink Penetration and Optical Ink Density on the Print-through of Printed Straw-Based Papers.

Author

Bates, Irena, Plazonić, Ivana, Rudolf, Maja, and Bratić, Diana

Subjects

TRITICALE, OPACITY (Optics), WHEAT straw, MULTIPLE regression analysis, AGRICULTURAL wastes, PHASE coding, RECYCLED paper, REGRESSION analysis

Abstract

In recent years, due to environmental awareness regarding the harmfulness of polymeric materials, there has been a growing interest in using papers, especially those from alternative raw materials. The importance of using all available raw materials is imperative today. Raw materials that were once viewed as waste are now of great importance because they have the ability to replace raw materials that are used irrationally or are lacking. Cereal straw is a lignocellulosic material that could be used in the paper industry and in the production of increasingly prevalent paper packaging. The aim of this research was to analyze the relationships between the qualitative parameters of straw-based printed papers containing 30% agricultural residues (wheat, barley, or triticale). The influence of two qualitative parameters (ink penetration depth and optical ink density) on the print-through was observed using multiple regression analysis on straw-based papers produced at the laboratory level. Throughout the research, 100% recycled wood paper was used as a reference sample. The results of the regression analysis showed that none of the variables individually make a statistically significant contribution to the prediction of the dependent variable in a linear context, that is, they indicate a non-linear interaction between the variables and the specific conditions under which the dependent variable reaches local extremes and changes in the gradient. Considering the results of the regression analysis and the visualization of the relationship, the model was additionally tested with other independent variables (paper type). From the results obtained, it can be concluded that the alternative straw-based paper with 30% barley pulp has the best interaction between ink and paper, which is the most similar to the reference sample in terms of printability, while the alternative straw-based paper with 30% wheat generally differs significantly from the reference paper when all three prints are considered. [ABSTRACT FROM AUTHOR]

Published

2024

37. Recent Research Progress of Paper‐Based Supercapacitors Based on Cellulose.

Author

Xiong, Chuanyin, Wang, Tianxu, Han, Jing, Zhang, Zhao, and Ni, Yonghao

Subjects

SUPERCAPACITORS, CELLULOSE, ENERGY storage, CLEAN energy, SUSTAINABLE development

Abstract

In recent years, paper‐based functional materials have received extensive attention in the field of energy storage due to their advantages of rich and adjustable porous network structure and good flexibility. As an important energy storage device, paper‐based supercapacitors have important application prospects in many fields and have also received extensive attention from researchers in recent years. At present, researchers have modified and regulated paper‐based materials by different means such as structural design and material composition to enhance their electrochemical storage capacity. The development of paper‐based supercapacitors provides an important direction for the development of green and sustainable energy. Therefore, it is of great significance to summarize the relevant work of paper‐based supercapacitors for their rapid development and application. In this review, the recent research progress of paper‐based supercapacitors based on cellulose was summarized in terms of various cellulose‐based composites, preparation skills, and electrochemical performance. Finally, some opinions on the problems in the development of this field and the future development trend were proposed. It is hoped that this review can provide valuable references and ideas for the rapid development of paper‐based energy storage devices. [ABSTRACT FROM AUTHOR]

Published

2024

38. Cometabolic bacterial and fungal remediation as a promising strategy for recycled paper and cardboard mill wastewater treatment.

Author

Gholami, Maryam, Mahvi, Amir Hossein, Teimouri, Fahimeh, Ehrampoush, Mohammad Hassan, Jafari Nodoushan, Abbasali, Jambarsang, Sara, and Ghaneian, Mohammad Taghi

Subjects

FUNGAL remediation, RECYCLED paper, WASTEWATER treatment, PAPER mills, OXIDATION ditches, PSEUDOMONAS putida

Abstract

Purpose: This paper aims to study the application of high-tolerance and flexible indigenous bacteria and fungi, along with the co-metabolism in recycled paper and cardboard mill (RPCM) wastewater treatment (WWT). Design/methodology/approach: The molecular characterization of isolated indigenous bacteria and fungi was performed by 16S rRNA and 18S rRNA gene sequencing, respectively. Glucose was used as a cometabolic substrate to enhance the bioremediation process. Findings: The highest removal efficiency was achieved for both chemical oxygen demand (COD) and color [78% COD and 45% color removal by Pseudomonas aeruginosa RW-2 (MZ603673), as well as approximately 70% COD and 48% color removal by Geotrichum candidum RW-4 (ON024394)]. The corresponding percentages were higher in comparison with the efficiency obtained from the oxidation ditch unit in the full-scale RPCM WWT plant. Originality/value: Indigenous P. aeruginosa RW-2 and G. candidum RW-4 demonstrated effective capability in RPCM WWT despite the highly toxic and low biodegradable nature, especially with the assistance of glucose. [ABSTRACT FROM AUTHOR]

Published

2024

39. Surface Modification of Paper by TiO2-PDMS-KH550 Coating with Superhydrophobic, Self-cleaning and Oil/Water Separating Properties.

Author

Kupalang, Suwanna, Kanjana, Nattakan, Wola, Jiraprapa, and Laokul, Paveena

Abstract

Paper is a material that is used in many areas of everyday life. The development of paper with special and environmentally friendly properties will contribute to it being used differently than before. In this work, we present a simple, fluorine-free and low-cost method to prepare a multifunctional paper coating with TiO2 nanoparticles modified with 3-aminopropyltriethoxysilane (KH550) and polydimethylsiloxane (PDMS). The effects of the content of precursors such as titanium isopropoxide (TTIP) and PDMS on the wettability, microstructure and durability of the coating were investigated. The result showed that the coated paper exhibited excellent superhydrophobicity and self-cleaning properties with a water contact angle (WCA) of 162.7° and a water sliding angle (WSA) of 2.5°. In addition, the coated paper showed excellent oil/water separation with over 98% after 10 test cycles and high mechanical resistance with an abrasion resistance of 0.26% weight loss after 20 abrasion cycles using the Taber abrasion test (ASTM D4060) with wheel type CS-10. The results of this study indicate a possible method for producing fluorine-free multifunctional paper, which has the potential to expand the application versatility of the material. [ABSTRACT FROM AUTHOR]

Published

2024

40. The handmade blue paper project: Application of experimental archaeology methods to study the materiality of Dutch blue paper (1650-1750).

Author

Sauvage, Leila and Marie-Noëlle, Grison

Subjects

EXPERIMENTAL archaeology, PAPERMAKING, PAPER mills, LOGWOOD, INDIGO

Abstract

This essay explores the materiality of Dutch blue paper (1650-1750), describing the methodology developed at the Moulin du Verger papermill (France). Starting from the visual examination of blue paper objects housed in the Rijksmuseum and the study of written sources, the group of researchers based their experiments at this 16th-century mill, equipped with traditional papermaking stampers, a Hollander cylinder and an immense drying loft. The experiments involved the dyeing and preparation of linen fibres with woad and indigo. The study of written sources revealed how scholars, traders and artists described "Dutch blue paper" and how it compared with its Venetian predecessor. The access to new raw materials (cotton, indigo, logwood) broadened the range of possibilities, while the introduction of the Hollander beater (ca. 1673) improved considerably the efficiency of Dutch papermakers who were able to produce faster and in greater quantity. [ABSTRACT FROM AUTHOR]

Published

2023

41. Physical and Surface Properties of Food Packaging Paper Coated by Thyme Oil.

Author

Gücüş, Mehmet Onurhan

Subjects

FOOD packaging, SURFACE properties, THYMES, STRENGTH of materials, TENSILE strength, SURFACE coatings

Abstract

Paper coated with natural materials has advantages over paper coated with fossil resources, including easy recycling, renewable components, and cost-effective formulation. Coating the paper surface with thyme oil has antibacterial and antioxidant properties and is known to improve packaging product quality. In the current study, the water resistance of the materials was measured by the Cobb30 values. The base paper, the starch-coated paper, and the thyme oil and starch-coated paper had Cobb30 values of 20, 17.5, and 15.7 g/m², respectively. The tensile strength index of uncoating and coating paper samples was, respectively (machine direction M.D.) 64.3 and 64.7, and (cross direction C.D.) 32.2 and 37.2. The bursting strength index results were 72.7 and 84.0. Hence, according to the tensile strength results, the treated paper burst strength values were higher than the base paper samples. The starch and thyme oil coatings formed a film layer on the paper surface, which may have helped impart better burst-strength properties. Besides, compared to the untreated base papers, the surface of the coated papers was denser and smoother, with a less porous structure, according to SEM results. In addition, resistance features of papers that are desired in the end-use of paper are shown in this work based on paper strength property tests. [ABSTRACT FROM AUTHOR]

Published

2023

42. Handmade Papers: Innovation, Technology, and Design.

Author

Thakker, Alka Madhukar and Danmei Sun

Subjects

COFFEE beans, RECYCLED paper, PAPER mills, PRODUCT design, FLOWERS

Abstract

Copyright of Journal of Natural Fibers is the property of Taylor & Francis Ltd 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

43. Highly Sensitive Paper-Based Force Sensors with Natural Micro-Nanostructure Sensitive Element.

Author

Zhang, Haozhe, Ren, Yuyu, Zhu, Junwen, Jia, Yanshen, Liu, Qiang, and Yang, Xing

Subjects

CAPACITIVE sensors, STRAIN sensors, PRESSURE sensors, DETECTORS, FRIENDSHIP

Abstract

Flexible paper-based force sensors have garnered significant attention for their important potential applications in healthcare wearables, portable electronics, etc. However, most studies have only used paper as the flexible substrate for sensors, not fully exploiting the potential of paper's micro-nanostructure for sensing. This article proposes a novel approach where paper serves both as the sensitive element and the flexible substrate of force sensors. Under external mechanical forces, the micro-nanostructure of the conductive-treated paper will change, leading to significant changes in the related electrical output and thus enabling sensing. To demonstrate the feasibility and universality of this new method, the article takes paper-based capacitive pressure sensors and paper-based resistive strain sensors as examples, detailing their fabrication processes, constructing sensing principle models based on the micro-nanostructure of paper materials, and testing their main sensing performance. For the capacitive paper-based pressure sensor, it achieves a high sensitivity of 1.623 kPa−1, a fast response time of 240 ms, and a minimum pressure resolution of 4.1 Pa. As for the resistive paper-based strain sensor, it achieves a high sensitivity of 72 and a fast response time of 300 ms. The proposed new method offers advantages such as high sensitivity, simplicity in the fabrication process, environmental friendliness, and cost-effectiveness, providing new insights into the research of flexible force sensors. [ABSTRACT FROM AUTHOR]

Published

2024

44. Preparation of Environmentally Friendly Oil- and Water-Resistant Paper Using Holo-Lignocellulosic Nanofibril (LCNF)-Based Composite Coating.

Author

Wang, Shengdan, Pei, Lihua, Wei, Jichao, Xie, Jiabao, Ji, Xingxiang, Wang, Yukang, Jia, Peng, and Jiao, Yajuan

Subjects

COMPOSITE coating, CONTACT angle, WHEAT straw, AGRICULTURAL wastes, SURFACE coatings, TENSILE strength

Abstract

In the present study, an environmentally friendly oil- and water-resistant paper was developed using a holo-lignocellulosic nanofibril (LCNF)-based composite coating. The LCNF was prepared from wheat straw using a biomechanical method. Characterizations of oil- and water-resistant coated paper and the effect of LCNF content on the performance of the coated paper were confirmed by combining contact angle analysis, Cobb 300s, and mechanical performance tests. The results show that the barrier performance and mechanical strength of the coated paper were greatly improved with the increase of LCNF content. The contact angle of oil and water of coated paper containing 50% LCNF were 69° and 78°, respectively, while the contact angle of oil and water of the base paper were only 30° and 20°, respectively. Cobb 300s values reduced from 110 g/m2 to 30 g/m2 when the LCNF content increased from 50% to 90%. Moreover, under the coating amount of 20 g/m2, the tensile strength of the coating paper was 0.980 KN/m, an increase of 10.11% compared with the base paper. The bursting strength reached 701.930 KPa, which was 10.75% higher than the base paper. In short, it is feasible to prepare LCNF from wheat straw, and apply it to produce water-proof and oil-proof paper. The water-proof and oil-proof paper developed in this study not only offers a novel approach to addressing white pollution but also presents a new research avenue for exploring the potential applications of agricultural waste. [ABSTRACT FROM AUTHOR]

Published

2024

45. Improving the Physical and Mechanical Properties of Mycelium-Based Green Composites Using Paper Waste.

Author

Teeraphantuvat, Thana, Jatuwong, Kritsana, Jinanukul, Praween, Thamjaree, Wandee, Lumyong, Saisamorn, and Aiduang, Worawoot

Subjects

WASTE paper, WOOD waste, LIGNOCELLULOSE, PACKAGING materials, IMPACT strength, TENSILE strength

Abstract

The growing demand for environmentally friendly and sustainable materials has led to the invention of innovative solutions aiming to reduce negative impacts on the environment. Mycelium-based green composites (MBCs) have become an alternative to traditional materials due to their biodegradability and various potential uses. Although MBCs are accepted as modern materials, there are concerns related to some of their physical and mechanical properties that might have limitations when they are used. This study investigates the effects of using paper waste to improve MBC properties. In this study, we investigated the physical and mechanical properties of MBCs produced from lignocellulosic materials (corn husk and sawdust) and mushroom mycelia of the genus Lentinus sajor-caju TBRC 6266, with varying amounts of paper waste added. Adding paper waste increases the density of MBCs. Incorporating 20% paper waste into corn husks led to the enhancement of the compression, bending, and impact strength of MBCs by over 20%. Additionally, it was also found that the MBCs produced from corn husk and 10% paper waste could help in reducing the amount of water absorbed into the material. Adding paper waste to sawdust did not improve MBC properties. At the same time, some properties of MBCs, such as low tensile strength and high shrinkage, might need to be further improved in the future to unlock their full potential, for which there are many interesting approaches. Moreover, the research findings presented in this publication provide a wealth of insightful information on the possibility of using paper waste to improve MBC performance and expand their suitability for a range of applications in sustainable packaging materials and various home decorative items. This innovative approach not only promotes the efficient utilization of lignocellulosic biomass but also contributes to the development of environmentally friendly and biodegradable alternatives to traditional materials. [ABSTRACT FROM AUTHOR]

Published

2024

46. FRACTIONATION OF OLD CORRUGATED CONTAINERS FOR MANUFACTURE OF TEST LINER AND FLUTING PAPER.

Author

RAHMAN, M. MOSTAFIZUR, ISLAM, MD. MINHAJUL, FERDOUS, TASLIMA, HOSSEN, M. NAKIB, and JAHAN, M. SARWAR

Subjects

CORRUGATED boxes, PAPER pulp, FIBERS, PAPER products, PAPERMAKING

Abstract

Old corrugated container (OCC) pulp was fractionated and it was found that the longer fiber fraction represented 76.54% and the short fiber fraction – 21.3% of the OCC pulp. The fiber length was 1.22 mm for the long fiber fraction and 0.6 mm for the short fiber, which was longer and shorter, respectively, than the fiber length of the whole OCC pulp (0.95 mm). In addition to fibers in pulp, the cellulosic microparticles that pass through a mesh screen or a perforated plate with a hole diameter of 76 μm, called fines, also have an impact on the properties of the final paper product. The fines content in both longer and shorter fiber fractions was lower than in the whole OCC pulp, consequently, drainage resistance (°SR) in the longer fiber fraction decreased to 14 from 21 in the whole OCC pulp. The air permeability and papermaking properties of the longer fiber were higher than those corresponding to the whole OCC and shorter fiber pulp. Therefore, the longer fraction of pulps can be used to manufacture test liner products and the shorter fiber fraction – for fluting paper. [ABSTRACT FROM AUTHOR]

Published

2024

47. 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

48. Paper.

Author

Menke, Richard

Abstract

Paper represents a potent but underexplored keyword for Victorian studies today. Not only is it the unacknowledged techno-material a priori of Victorian studies itself, but its histories also offer material connections that link literary texts, bureaucracy, and consumer culture to global ecologies and resource extraction. [ABSTRACT FROM AUTHOR]

Published

2023

49. Biodegradable Stone Paper as a Sustainable Alternative to Traditional Paper: A Review.

Author

Swain, Nupur, Saini, Pragti, Bhati, Sampat Singh, and Rastogi, Vibhore Kumar

Subjects

STONE, HIGH density polyethylene, WASTE paper, DISPERSING agents, WASTE recycling, BIODEGRADABLE nanoparticles

Abstract

Stone paper is a relatively sustainable alternative to traditional fibre-based paper. Stone paper is made using resin such as high-density polyethylene (HDPE) and a mineral such calcium carbonate (CaCO3). Plasticizers, bulking agents, coupling reagents, dispersing agents, and inorganic fillers are added in the stone paper formulation for imparting different properties. However, the HDPE, used in stone paper formulation, is not biodegradable and can be replaced with biodegradable polymers to make stone paper more environment friendly. The biodegradable stone paper can be easily made using relatively cheaper blown film process. The stone paper can also be made from CaCO3 waste of traditional paper industry and recycled polymer waste. This review paper provides overview about the stone paper, the biodegradable polymeric materials which can be used instead of HDPE, information about the converting processes for stone paper; it's applications and comparison to the traditional paper. [ABSTRACT FROM AUTHOR]

Published

2023

50. 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