Your search keyword '"TISSUE paper"' showing total 1,503 results

51. Experimental 3D fibre data for tissue papers applications

Author

Flávia P. Morais, Ana M.M.S. Carta, Maria E. Amaral, and Joana M.R. Curto

Subjects

3D paper structure, Cellulose fibre, Eucalyptus fibre morphology, Effective fibre thickness, Tissue paper, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Tissue paper consumption has been growing for the past years, with a forecasted increase in demand for premium products. Premium tissue paper products are obtained with a balance among softness, strength, and absorption properties, optimized for each kind of tissue paper. These properties are influenced by the three-dimensional structure, made from the spatial distribution of cellulose fibres. To our knowledge, the efforts made to date to improve the softness, strength and absorption properties have overlooked the 3D structure. There is an absence of 3D experimental data in the literature for the simultaneous characterization of individual eucalyptus fibres and the paper structure made from these fibres. The 2D fibre morphology determination, including fibre length and fibre width, was obtained by an image analysis method for pulp fibre suspensions, using the MorFiⓇ equipment. The third fibre dimension, the fibre thickness morphology in the out-of-plane direction, was obtained using SEM images of non-pressed isotropic laboratory-made paper sheets. The effective fibre thickness morphology, consisting of the fibre wall and lumen, was measured in the paper structure, as this is precisely the key fibre parameter, influencing not only the structure-related properties, such as paper thickness, bulk, and porosity, but also the final end-use properties. The paper structures were produced using an ISO standard adapted method, for tissue paper structures, without pressing, with a basis weight range from 20 to 150 g/m2. These data are important, among other possible uses, for paper property optimization and simulation studies with 3D fibre based simulators.

Published

2020

52. Integral technique for evaluation and optimization of Ni (II) ions adsorption onto regenerated cellulose using response surface methodology

Author

Reza Davarnejad, Mostafa Keshavarz Moraveji, and Marjan Havaie

Subjects

Ni (II) adsorption, Optimization, Response surface methodology, Tissue paper, Chemistry, QD1-999

Abstract

The removal efficiency of Ni (II) ions from aqueous solution using regenerated cellulose was studied. The effects of solution pH, time, initial metal concentration and adsorbent dosage on metal adsorption efficiency were investigated. Response surface methodology (RSM) was applied to predict the behavior of the system. Based on the developed model, pH was found to be the main factor which had the highest influence on Ni (II) removal efficiency. It was observed that an increase in the pH from 3.75 to 7.25 resulted in a 51.6% increase in Ni (II) removal efficiency. Additionally, the time and adsorbent dosage were found to have positive influence on metal removal efficiency while Ni (II) removal efficiency reduced with initial metal concentration. The optimization of the integral main factors was performed. The suggested optimum values for pH, time, initial metal concentration, adsorbent dosage and Ni (II) removal efficiency were 6.4, 175.27 min, 32.5 ppm, 0.4 g and 98%, respectively.

Published

2018

53. Easter Suncatchers.

Author

STOWELL, CHARLOTTE

Subjects

EASTER, CREATIVE ability, TISSUE paper

Abstract

The article provides a creative activity for making Easter decorations using A4 colored card and tissue paper and Children can create egg, bunny and chick decorations by cutting out shapes, adding colored card strips or shapes and gluing tissue paper to the frames.

Published

2024

54. 改性纤维素纳米纤丝涂布制备 高阻隔长纤维薄页纸的研究.

Author

李梓源, 张金柱, 王鹏辉, 丁其军, 李霞, 姜亦飞, and 韩文佳

Subjects

CONTACT angle, WATER vapor, TENSILE strength, CELLULOSE, WATER

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

55. Surface analysis of tissue paper using laser scanning confocal microscopy and micro-computed topography.

Author

Ismail, Mostafa Y., Patanen, Minna, Kauppinen, Sami, Kosonen, Harri, Ristolainen, Matti, Hall, Stephen A., and Liimatainen, Henrikki

Subjects

SURFACE analysis, FIELD emission electron microscopes, TISSUE analysis, SURFACE topography

Abstract

Tissue paper softness relies on two major factors, the bulk softness, which can be indicated by the elasticity of the sheet, and surface softness. Measurement of surface softness is complicated and often requires a multi-step process. A key parameter defining surface softness is the topography of the surface, particularly the crepe structure and its periodicity. Herein, we present a novel approach to measure and quantify the tissue paper surface crepe structure and periodicity based on the detection of waviness along the sample using laser scanning confocal microscopy (LSM) and X-ray tomography (XRT). In addition, field emission scanning electron microscope (FESEM) was used to characterize the tissue paper surface. We demonstrate that surface topography is directly correlated to the erosion of the doctor blade, which is used to remove the dry tissue paper from the Yankee cylinder. Because of its accuracy and simplicity, the laser confocal microscopy method has the potential to be used directly on the production line to monitor the production process of the tissue paper. XRT revealed more structural details of the tissue paper structure in 3D, and it allowed for the reconstruction of the surface and the internal structure of the tissue paper. [ABSTRACT FROM AUTHOR]

Published

2020

56. Highly sensitive pressure sensor based on structurally modified tissue paper for human physiological activity monitoring.

Author

Huang, Ying, Wang, Zhiqiang, Zhou, Huanfeng, Guo, Xiaohui, Zhang, Yangyang, Wang, Yang, Liu, Ping, Liu, Caixia, Ma, Yuanming, and Zhang, Yugang

Subjects

PRESSURE sensors, PATIENT monitoring, AUTOMATIC speech recognition, INTERFACIAL resistance, HYDROGEN bonding, SURFACE morphology, BIOSENSORS

Abstract

Pressure sensor has become an important part of physiological condition monitoring system because it can respond to small pressure in human activities. Tissue paper has been studied as a carrier of sensitive unit layer for pressure sensors in recent years due to its internal pore structure and wrinkle morphology of surface. In this work, the pore structure of the tissue paper is improved by the principle of hydration and destruction of hydrogen bonds. Based on flexible substrate of NaOH modified tissue paper (NMTP) with enhanced pore structure, combined with dip‐coating composite conductive filler, the pressure sensor is fabricated by sandwiching the sensitive unit between the interdigital electrode and the microdome elastomer through layer‐by‐layer assembly method. Thanks to the excellent interfacial resistance effect of porous NMTP under pressure, the sensitivity of NMTP‐based pressure sensor is as high as 37.5 kPa−1 in a pressure range of 0–2 kPa. Finally, the follow‐up studies on pressure sensors have been proven to be applicable to a variety of physiological activity such as pulse detection, respiration detection and voice recognition. The NMTP‐based sensitive unit provides alternative strategy to improve performance of pressure sensors and extends potential applications in monitoring human physiological activities. © 2020 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020, 137, 48973. [ABSTRACT FROM AUTHOR]

Published

2020

57. Comparison between uncreped and creped handsheets on tissue paper properties using a creping simulator unit.

Author

de Assis, Tiago, Pawlak, Joel, Pal, Lokendra, Jameel, Hasan, Reisinger, Lee W., Kavalew, Dale, Campbell, Clayton, Pawlowska, Lucyna, and Gonzalez, Ronalds W.

Subjects

COMPRESSIVE force, DELAMINATION of composite materials, WOOD-pulp, SCANNING electron microscopy, TENSILE strength

Abstract

A comparison between uncreped and creped handsheets was performed to study the effect of fiber morphology and creping process on fiber web structure and tissue properties. Four wood and non-wood pulps refined at different levels were used to manufacture uncreped and creped handsheets using a creping simulator. A characterization of the fiber web structure using scanning electron microscopy (SEM) and evaluation of tissue properties (e.g. tensile strength, water absorbency, softness) was performed on the uncreped and creped handsheets. The results obtained with the creping simulator were compared with commercial products to evaluate the significance of the creping simulator results. The SEM images of the fiber web structure showed that the creping process promoted buckling and distortion of fibers, delamination of surface fiber layer, development of free fiber ends and creation of crepe folds, which enhanced water absorbency and softness at the expense of reduced tensile strength. Short and thin fibers seemed to be more effectively creped than long and coarse fibers. Long and coarse fibers seemed to offer higher resistance to the compressive forces acting at the creping blade. A reasonable correlation between the performance of uncreped and creped handsheets made with different fibers was observed. The results indicate that the performance of uncreped handsheets can be used as a semi-quantitative indication of the performance of creped handsheets. The performance of the creped handsheets were similar to commercial products, which indicates that the creping simulator can be used as an alternative to study the creping process at laboratory scale. [ABSTRACT FROM AUTHOR]

Published

2020

58. 生活用纸湿强剂PAE 残留的风险评估.

Author

陈春霞, 武书彬, 程皓, and 魏琪

Abstract

Copyright of Transactions of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

59. 纤维素酶处理改善生活用纸 柔软度等性能的研究.

Author

张方东, 曹海兵, 刘晶, 刘利琴, 安兴业, 鲁宾, and 刘洪斌

Subjects

HARDWOODS, WOOD-pulp, CELLULASE, SOFTWOOD, TENSILE strength, PULPING, FIBERS

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

60. Simulation of Sheet Molding during Through Air Drying of Tissue Paper within a Papermaking Framework

Author

Rezk, Kamal, Sjöstrand, Björn, Rezk, Kamal, and Sjöstrand, Björn

Abstract

A way to improve product performance of tissue grade paper products is to replace the press section with a Through Air Drying (TAD) section which is a technique where paper sheets are moulded into a structured fabric by vacuum boxes and transferred over one or more TAD cylinders with steam heated displacement drying. The process of sheet molding is modelled with Comsol Multiphysics where the computational model is setup with a 2-dimensional representation of the paper sheet. The tissue sample with randomly distributed fibre positions is generated using a MATLAB script written in the Livelink interface with Comsol. The process is simulated with the Moisture Flow multiphysics interface. The comprising physical modules are the Laminar Flow and the Moisture Transport in Air modules. Respectively, these modules calculate the velocity and pressure field of the moist air as well as the relative humidity, which is a rewrite of the concentration of water in air. The fibres in the sheet are modelled as porous media where the fibres contain both moist air and liquid water in equilibrium. In this paper, a basis weight at roughly 20 g/m2 is simulated and compared to laboratory data. The aim of the model is to estimate solid content in the paper sheet over vacuum time as well as energy demand and required airflow through the structure.

Published

2023

61. Advanced imaging of lignocellulosic and cellulose materials

Author

Liimatainen, H. (Henrikki), Patanen, M. (Minna), Ismail, M. (Mostafa), Liimatainen, H. (Henrikki), Patanen, M. (Minna), and Ismail, M. (Mostafa)

Abstract

Lignocelluloses and their structural components are the most abundant biopolymeric materials. They are a renewable and biodegradable source for several applications (e.g., paper, packaging, and functional materials). Potential innovations related to lignocelluloses are foreseen both in the traditional product sectors such as packaging, hygiene, and tissue paper products, and multiple new areas, ranging from electronics to biomedicine. These innovations are based on novel forms of sustainable materials, such as nano- and microscale celluloses. For instance, nanocellulose films are tough, durable, and biodegradable. Their properties (e.g., mechanical strength and optical properties) can be altered when combined with functional fillers. Understanding the composition of lignocellulosic biomass and the structure of its different material designs is crucial for its efficient use. However, the material analysis of lignocelluloses is not straightforward; thus, easy-to-use analytical techniques are needed. Advanced imaging techniques offer appealing possibilities in lignocellulose analysis. This thesis aimed to investigate and understand various lignocellulose and cellulose materials, i.e., delignified wood fibers (thermomechanical pulp (TMP) fibers), tissue paper, and nanocellulose films, using advanced imaging techniques. The objective was to harness new techniques that can provide detailed information on the spatial distribution of material constituents and the structure and dynamics of physicochemical phenomena of materials derived from lignocelluloses. Fluorescence lifetime imaging tracked the delignification process based on a eutectic mixture and its effect on the TMP fiber characteristics, where it was found that cellulose poses fluorescent characteristics, and that lignin starts dissipating from the outer most layer of the fibers. The topography of tissue paper was tracked using noninvasive laser confocal microscopy, and measured the affect of the productio, Tiivistelmä Biomassat ja niiden johdannaiset, erityisesti selluloosa, ligniini ja hemiselluloosa (lignoselluloosat) ovat luonnon yleisimpiä biopolymeerejä, joita voidaan käyttää uusiutuvina ja biohajoavina raaka-aineina useissa sovelluksissa (esim. paperi-, ja pakkausmateriaaleissa ja funktionaalisissa kemikaaleissa). Fossiilisiin raaka-aineisiin liittyvien ympäristöongelmien vuoksi on tärkeää löytää uusiutuvia materiaaleja ja lisätä biopohjaisten vaihtoehtojen käyttöä. Lignoselluloosamateriaalien tutkimus ja niihin liittyvät innovaatiot ovat olennaisessa osassa ympäristön kannalta kestävien tuotteiden kehityksessä. Erilaiset kuvantamis- ja karakterisointimenetelmät ovat keskeisiä näiden materiaalien tutkimuksessa. Tässä väitöstyössä on keskitytty erityisesti kehittyneiden kuvantamismenetelmien soveltamiseen biomassapohjaisten lignoselluloosamateriaalien ja tuotteiden analysoinnissa. Työssä tutkittiin (ligno)selluloosamateriaalien, kuten puukuitujen (ns. TMP-kuiduttujen) delignifiointia uusilla vihreillä liuottimilla sekä pehmopaperituotteiden ja nanoselluloosakalvojen hienorakennetta ja kemiallisia ja fysikaalisia ominaisuuksia. Työn tulokset luovat perustaa biomassojen tutkimukselle kehittyneitä ja uudenaikaisia kuvantamistekniikoita käyttäen.

Published

2023

62. Chemimechanical and thermomechanical pulps of radiata pine slabwood and corewood. Part 1: Pulp properties

Author

Corson, SR and Richardson, JD

Published

2017

63. Greek village rides the rise and fall of plastic

Author

Bouras, Gillian

Published

2018

64. Improved application of creping adhesive

Subjects

Creping, Yankee dryer, Test method, Tissue paper, Polyvinyl alcohol

Published

2023

65. Improved application of creping adhesive

Author

Tanaka, Atsushi, Lehmonen, Jani, Kouko, Jarmo, Ketoja, J A, and Kiiskinen, Harri

Subjects

Creping, Yankee dryer, Test method, Tissue paper, Polyvinyl alcohol

Published

2023

66. Advanced imaging of lignocellulosic and cellulose materials

Author

Ismail, M. (Mostafa), Liimatainen, H. (Henrikki), and Patanen, M. (Minna)

Subjects

pehmopaperi, hybrid films, lignocellulose materials, tissue paper, lignoselluloosamateriaalit, STXM, thermochromic films, XPS, LSM, lämpökromaattiset kalvot, hybridikalvot

Abstract

Lignocelluloses and their structural components are the most abundant biopolymeric materials. They are a renewable and biodegradable source for several applications (e.g., paper, packaging, and functional materials). Potential innovations related to lignocelluloses are foreseen both in the traditional product sectors such as packaging, hygiene, and tissue paper products, and multiple new areas, ranging from electronics to biomedicine. These innovations are based on novel forms of sustainable materials, such as nano- and microscale celluloses. For instance, nanocellulose films are tough, durable, and biodegradable. Their properties (e.g., mechanical strength and optical properties) can be altered when combined with functional fillers. Understanding the composition of lignocellulosic biomass and the structure of its different material designs is crucial for its efficient use. However, the material analysis of lignocelluloses is not straightforward; thus, easy-to-use analytical techniques are needed. Advanced imaging techniques offer appealing possibilities in lignocellulose analysis. This thesis aimed to investigate and understand various lignocellulose and cellulose materials, i.e., delignified wood fibers (thermomechanical pulp (TMP) fibers), tissue paper, and nanocellulose films, using advanced imaging techniques. The objective was to harness new techniques that can provide detailed information on the spatial distribution of material constituents and the structure and dynamics of physicochemical phenomena of materials derived from lignocelluloses. Fluorescence lifetime imaging tracked the delignification process based on a eutectic mixture and its effect on the TMP fiber characteristics, where it was found that cellulose poses fluorescent characteristics, and that lignin starts dissipating from the outer most layer of the fibers. The topography of tissue paper was tracked using noninvasive laser confocal microscopy, and measured the affect of the production on tissue paper’s softness. The morphology and chemical composition of hybrid nanocellulose films was measured in tandem using scanning transmission soft X-ray microscopy. The structure correlated to the mechanical properties, showing that agglomeration affects the mechanical behavior of the hybrid films at a certain point. Finally, the color change of thermochromic nanocellulose films was studied using optical microscopy and UV-vis spectroscopy, showing that the color change happens gradually in relation to temperature and humidity. Tiivistelmä Biomassat ja niiden johdannaiset, erityisesti selluloosa, ligniini ja hemiselluloosa (lignoselluloosat) ovat luonnon yleisimpiä biopolymeerejä, joita voidaan käyttää uusiutuvina ja biohajoavina raaka-aineina useissa sovelluksissa (esim. paperi-, ja pakkausmateriaaleissa ja funktionaalisissa kemikaaleissa). Fossiilisiin raaka-aineisiin liittyvien ympäristöongelmien vuoksi on tärkeää löytää uusiutuvia materiaaleja ja lisätä biopohjaisten vaihtoehtojen käyttöä. Lignoselluloosamateriaalien tutkimus ja niihin liittyvät innovaatiot ovat olennaisessa osassa ympäristön kannalta kestävien tuotteiden kehityksessä. Erilaiset kuvantamis- ja karakterisointimenetelmät ovat keskeisiä näiden materiaalien tutkimuksessa. Tässä väitöstyössä on keskitytty erityisesti kehittyneiden kuvantamismenetelmien soveltamiseen biomassapohjaisten lignoselluloosamateriaalien ja tuotteiden analysoinnissa. Työssä tutkittiin (ligno)selluloosamateriaalien, kuten puukuitujen (ns. TMP-kuiduttujen) delignifiointia uusilla vihreillä liuottimilla sekä pehmopaperituotteiden ja nanoselluloosakalvojen hienorakennetta ja kemiallisia ja fysikaalisia ominaisuuksia. Työn tulokset luovat perustaa biomassojen tutkimukselle kehittyneitä ja uudenaikaisia kuvantamistekniikoita käyttäen.

Published

2023

67. PAPER WITH MARIE DODRILL.

Subjects

FLOWER arrangements, CHARITIES, TISSUE paper

Published

2020

68. 生活用纸良好生产规范（GMP） 合规情况探讨.

Author

陈春霞, 武书彬, 程皓, and 魏琪

Subjects

DISH towels, PAPER towels, TISSUES, MANUFACTURING processes, PAPER

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

69. Effect of Toilet Tissue Paper on Residential Sewerageline Clogging.

Author

Elmas, Gulnur Mertoglu and Ozturk, Sultan Bekiroglu

Abstract

Toilet paper is widely used in residences. The low biodegradability of toilet paper's pulp fibers can cause residence sewer lines to clog, which may be due to some additives or the presence of nonwoven fiber products. In this study, the disintegration rate of toilet paper was compared against various physical factors of the toilet paper sheet. The samples were disintegrated in water at varying pH levels. In the manufacturing of toilet paper, there must be a balance between the desired softness and the necessary wet strength. Twelve commonly used brands of toilet paper were purchased locally. Physical factors of toilet paper samples such as degree of polymerization, thickness, grammage, and softness were determined. The samples were evaluated based on 9 variables using correlation and multivariate linear regression analyses. A strong positive relationship was found between the degree of disintegration of toilet tissue paper and its physical factors. These were the degree of polymerization, the grammage, thickness, and the softness. Additionally, the amount of polymers applied to toilet paper decreased the degree of softness and adversely affected the redispersion of fibers. Thus, this work supports the idea that toilet paper can contribute to clogging of residential sewerage lines. [ABSTRACT FROM AUTHOR]

Published

2019

70. Comparison of Wood and Non-Wood Market Pulps for Tissue Paper Application.

Author

de Assis, Tiago, Pawlak, Joel, Pal, Lokendra, Jameel, Hasan, Venditti, Richard, Reisinger, Lee W., Kavalew, Dale, and Gonzalez, Ronalds W.

Abstract

A comparison among ten market pulps at a laboratory scale using uncreped tissue handsheets was performed to study the performance of wood and non-wood pulps for tissue manufacturing, evaluate what fiber features are desired for a specific tissue property, and determine how non-wood pulps can be used to replace or complement wood pulps in tissue products. A characterization of the fiber morphology and handsheet properties (softness, water absorbency, and strength) was performed at different mechanical refining levels. The results showed that the fiber morphology had a major impact on tissue properties. Market pulps with a combination of long fibers, high coarseness, and low fines content can provide superior bulk and water absorbency. Short fibers with thin cell walls and low fines content can impart superior softness. Bleached bamboo soda pulp can replace hardwood and softwood pulps to provide an excellent combination of water absorbency and strength. Bleached bamboo soda pulp can also replace Northern bleached softwood kraft (NBSK) pulp to impart strength without sacrificing softness. Bleached and semi-bleached wheat straw soda pulps presented a similar combination of softness and strength as Southern bleached hardwood kraft (SBHK) pulp. The wheat straw pulps can be used to replace deinked pulp (DIP) pulp to impart intermediate levels of water absorbency and strength. [ABSTRACT FROM AUTHOR]

Published

2019

71. A practical study on direct PCR amplification using the GlobalFiler™ PCR Amplification Kit on human bloodstains collected with microFLOQ™ Direct swabs.

Author

Chong, Kevin Wai Yin, Wong, Yongxun, Ng, Boon Kiat, Lim, Wei Siong Holden, Rosli, Afiqah Razanah, and Syn, Christopher Kiu Choong

Subjects

*POLYMERASE chain reaction, *DNA fingerprinting, *BLOODSTAINS, *NYLON fibers, *TISSUE paper, *ALLELES, *COLLECTION & preservation of biological specimens, *CHEMICAL reagents, *DNA

Abstract

Rapid DNA profiling of casework samples is a powerful tool that can support law enforcement agencies in the quick apprehension of perpetrators before they re-offend or escape the jurisdiction. This present study evaluated the feasibility of direct PCR amplification, using the microFLOQ™ Direct swab, for generating DNA profiles (from bloodstains) within 3 h. The swab tip is coated with nylon fibers pre-treated with cell lysing agent, which allows for the direct PCR amplification of collected samples without DNA extraction and quantification, thereby shortening the time required to obtain a DNA profile. Samples collected were directly amplified using GlobalFiler™ PCR Amplification Kit with and without the presence of a PCR additive. Addition of the PCR additive enhanced the peak heights of DNA profiles by approximately 2 fold. Hence, an additive could improve results obtained in the absence of a DNA purification step, especially since casework samples may contain PCR inhibitors. Subsequently, these swabs, amplified using the GlobalFiler™ PCR Amplification Kit with PCR additive, were evaluated on common substrates encountered in routine casework samples submitted with bloodstains, such as denim jeans, knife blade, tissue paper, leather belt, shirt, and blood swabs. The minimum peak heights observed were generally above the analytical and stochastic thresholds established by the laboratory. Finally, the microFLOQ™ Direct swab workflow was compared to the laboratory's standard workflow of DNA profiling comprising of conventional processing steps such as extraction using the DNA-IQ™ chemistry on Maxwell® 16, followed by quantification, amplification and capillary electrophoresis. The average peak heights of the DNA profiles generated by direct PCR amplification were similar or exceeded those generated using the standard workflow. This study clearly demonstrates that direct PCR amplification using microFLOQ™ Direct swab can be used in a rapid workflow to obtain DNA profiles from casework samples. [ABSTRACT FROM AUTHOR]

Published

2019

72. 卫生纸生产线制浆段智能制造探讨.

Author

金皓, 张王力, and 鄢来朋

Subjects

TECHNOLOGY equipment, COMPUTER engineering, INTELLIGENT control systems, MAINTENANCE, MANUFACTURING processes

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

73. Effect of chemical additives on softness components of hygiene paper.

Author

Jung Yoon Park, Melani, Lili, Hyeonggyu Lee, and Hyoung Jin Kim

Subjects

*PAPER industry, *SILICONES, *PAPERMAKING, *WET strength of paper, *TISSUE paper

Abstract

Chemical additives are used singly or in combination to impart functionality to hygiene paper (suggested). In particular, in the hygiene paper making process, dry strength agent, wet strength agent, softener, and other are widely used. The effects of chemical additives on the softness components were evaluated. In the case of surface softness, there was no change in MMD according to the addition of dry and wet strength agents. The MMD (mean deviation from the average friction of coefficient) was decreased by adding a softener, which is the purpose of its addition to the hygiene paper making process. The softness and wet strength were improved when the wet strength agent was added before the softener. In addition, lotion treatment was applied to the surface of tissue paper. The surface softness component of non-silicone-based lotion was similar or improved, which may overcome the problems of silicon-based lotion.

Published

2019

74. 扬克烘缸干燥能耗与干燥速率的软测量模型及应用.

Author

张　维, 李继庚, 满　奕, and 洪蒙纳

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

75. Conversion of laboratory paper waste into useful activated carbon: a potential supercapacitor material and a good adsorbent for organic pollutant and heavy metals.

Author

Durairaj, Arulappan, Sakthivel, Thangavel, Ramanathan, Subramanian, Obadiah, Asir, and Vasanthkumar, Samuel

Subjects

ACTIVATED carbon, X-ray diffraction, SUPERCAPACITORS, CHROMIUM ions, GIBBS' free energy

Abstract

In this study, laboratory tissue paper and hardboard waste were utilized to synthesize activated carbon (AC). The structure, morphology, zeta potential and particle size of the synthesized AC is investigated using X-ray diffraction, scanning electron microscopy-energy dispersive spectroscopy, Fourier-transform infrared spectroscopy, Raman spectroscopy, zeta seizer and particle size analysis techniques. The synthesized AC is used as an adsorbent for removal of Methylene blue (MB) and chromium ion from aqueous solution. AC adsorption efficiency is analyzed using a UV–Vis spectrophotometer. The adsorption capacity of the tissue paper derived activated carbon (T-AC) is greater than that of the hardboard derived activated carbon (H-AC). MB adsorption by T-AC and H-AC data fitted well to the Langmuir isotherm model. The thermodynamic parameters such as Gibbs free energy (∆G), enthalpy change (∆H) and entropy change (∆S) are calculated for both the T-AC and H-AC adsorbents. Moreover, the dye adsorbed T-AC and H-AC exhibit good specific capacitance value of about 260 Fg−1 and 155 Fg−1 at a constant current density of 0.5 Ag−1. The specific capacitance is maintained to an extent of 92% and 71% even after 1000 cycles for T-AC and H-AC respectively. It is encouraging that the results obtained have opened up ways of utilizing laboratory waste materials for producing materials useful in environmental remediation and energy storage sectors. [ABSTRACT FROM AUTHOR]

Published

2019

76. Cellulose nanofiber (CNF) as a versatile filler for the preparation of bamboo pulp based tissue paper handsheets.

Author

Guan, Min, An, Xingye, and Liu, Hongbin

Subjects

CELLULOSE fibers, BAMBOO pulp industry, TISSUE paper, HYDROXYL group, TENSILE strength

Abstract

Abstract: Tissue paper that is prepared from bamboo has a very promising future in the world, especially in China, thanks to the various merits of bamboo fibers. However, the water absorption behavior and mechanical properties of bamboo pulp based tissue paper need to be improved due to the inherent drawbacks of bamboo fiber, such as high stiffness, weak interaction between bamboo fibers etc. Hence, cellulose nanofibers (CNFs) were combined with bamboo fibers before the tissue paper-making process, to improve the water absorption behavior and mechanical properties of tissue paper. The hypotheses are that: (1) CNFs themselves possess large specific surface area and abundant hydroxyl groups as well, thus enhancing the hydrophilicity of tissue paper; and (2) the added CNFs can form 3D structures in tissue paper, thus providing abundant pores with uniform small size, which would facilitate the capillary effect for water absorption; and (3) more hydrogen bonds will be formed between CNF and bamboo fibers, thus improving the strength properties of tissue paper, thanks to the excellent mechanical and physical properties of CNF. The results from water absorption and tensile strength tests of bamboo handsheets indicated that the addition of CNFs can increase the water absorption capacity from 6.6 to 8.7 g/g when the CNF dosage was 10 wt% (based on the dried pulp). The water retention value of prepared bamboo fibers increased from 163 to 190% at the same CNF dosage, the tensile index increased from 18.5 to 24.5 N m/g as well. The results from the bulk and pore size analyses, FTIR, as well as SEM images of tissue paper also evidenced the conclusions above.Graphical abstract: Cellulose nanofiber (CNF) as a versatile filler for the preparation of bamboo pulp based tissue paper with improved water absorption behavior and mechanical properties [ABSTRACT FROM AUTHOR]

Published

2019

77. One-step induced porous graphitic carbon sheets as supercapacitor electrode material with improved rate capability.

Author

Hari Mohan, E., Nanaji, Katchala, Anandan, Srinivasan, Sarada, V. Bulusu, Ramakrishna, Mantripragada, Jyothirmayi, A., Appa Rao, B.V., and Narasinga Rao, Tata

Subjects

*ACTIVATION (Chemistry), *SUPERCAPACITOR electrodes, *GRAPHENE, *ELECTRIC capacity, *CURRENT density (Electromagnetism), *ELECTROCHEMICAL analysis, *LIGHT emitting diodes

Abstract

Graphical abstract Highlights • Porous GCS were prepared by one-step in-situ KOH chemical activation process. • Excellent textural parameters (high surface area) and graphene-like structure. • GCS-2 supercapacitor electrode displayed 85% capacitance retention at 50 A g−1. • The electrode showed excellent cyclic stability over 10,000 cycles at 1 A g−1. Abstract In the present study, we report the synthesis of porous graphitic carbon sheets (GCS) from tissue paper by in-situ chemical activation process. The resulting GCS material characterized with high graphitic structure and high specific surface area (1684 m2 g−1). When GCS-2 electrode tested for supercapacitor application, it delivers a high specific capacitance of 212 F g−1, high capacitance retention of 85% at high current density of 50 A g−1 and outstanding cyclic stability (90% capacity retention after 10,000 cycles). The fabricated supercapacitor cells were also demonstrated for lightening 40 LEDs. The high electrochemical performance of GCS can be attributed to the high specific surface area, large pore volume and graphitic nature of the carbon. Thus, the simple and unique strategy employed in the present study can be extended to synthesize carbon materials from other economic carbon precursors suitable for other energy storage applications. [ABSTRACT FROM AUTHOR]

Published

2019

78. 企业信息化助力生活用纸生产过程精细化管理.

Author

王波, 李友明, and 李继庚

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

79. 现代卫生纸机卷取控制研究.

Author

叶凤英 and 胡慕伊

Subjects

PAPERMAKING machinery, TISSUE paper, AUTOMATION, COMPUTER programming, COMPUTER software

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

80. Temporary Bonding Using Paper Inserted PPC Layer.

Author

Zhiyuan Zhu, Kequan Xia, Zhiwei Xu, Hongze Zhang, and Haijun Lou

Subjects

POLYPROPYLENE carbonate, BOND strengths, FIBERS, TISSUE paper, ABSORBENT paper

Abstract

Copyright of Informacije MIDEM: Journal of Microelectronics, Electronic Components & Materials is the property of MIDEM Society 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

2018

81. Inconspicuous consumption.

Author

Reay, Dave S.

Subjects

*ENVIRONMENTAL impact analysis, *ECOLOGICAL impact, *COFFEE, *TISSUE paper, *LAUNDRY, *SUSTAINABLE fashion, ENVIRONMENTAL aspects

Abstract

The article explains the environmental impact of some of the products consumed and utilized by people in their everyday lives. It reveals the carbon footprint of producing and consuming coffee, tissue paper, plug-in fresheners and car gizmos. It also describes how laundry, fashion and food wastage negatively affect the environment.

Published

2009

82. Bundles of Joy: Make these tiny gift bundles as a token of love for Mother's Day.

Subjects

MOTHER'S Day gifts, TISSUE paper, CREATIVE ability

Abstract

The article offers step-by-step instructions for crafting personalized Mother's Day gift bundles using tissue paper, ribbon, and embellishments, emphasizing creativity, sentiment, and unique presentation.

Published

2023

83. The Paper Industry Exhibition, MIAC 2023, Awaits you in Lucca, Italy.

Subjects

*PAPER industry, *MACHINERY, *TISSUE paper

Published

2023

84. Effect of Dispersion and Bleaching on the Mechanical and Optical Properties of Deinked Recycled Pulp

Author

yahya hamzeh, hamed sharifi taskouh, hamidreza rudi, and shadman pourmousa

Subjects

Disperger, de-inked pulp, Tissue Paper, Spot content, Optical and Mechanical properties, Forestry, SD1-669.5, Printmaking and engraving, NE1-978

Abstract

In this study the effects of oxidative bleaching and mechanical dispersion in different conditions on the optical and mechanical properties of deinked recycled pulp was investigated. Industrial deinked pulp was treated in the different conditions, including dispersion, combined oxidative bleaching during dispersion, and separate dispersion and then oxidative bleaching. Handsheet papers were made from obtained pulps and then scanned and taken photos were analyzed by Digimizer software, version 4.1.1.0 to analysis spot content. Optical and mechanical properties of obtained handsheets were determined and compared. Results indicated that mechanical dispersion decreased spot content and brightness and increased yellowing of the handsheets. Moreover, mechanical dispersion increased dry and wet tensile and burst strengths, water retention value (WRV), ash content and decreased tear strength of handsheet papers. This study revealed that combined dispersing and oxidative bleaching of de-inked pulp provided superior results in comparison to the separate dispersing and oxidative bleaching.

Published

2016

85. On a roll

Published

2019

86. Optimization Process Variables of Deinked Pulp Bleaching - Improvement of Wet Tensile Strength of Tissue Paper

Author

Hamed Sharifi tasco, yahya hamzeh, and shademan pourmousa

Subjects

Wet tensile index, Bleaching of Deinked Pulp, Tissue Paper, Response surface methodology, Forestry, SD1-669.5

Abstract

In this study dispersed deinked pulp (DIP) of Latif Company which includes a mixture of straw printers, mixed office waste (MOW) and mechanical recycle paper was used to investigate the effect of bleaching variables on pulp and paper properties. Six variables of bleaching process including the amount of hydrogen peroxide, sodium hydroxide, and sodium silicate, bleaching time, bleaching temperature and final pH were optimized in order to improve wet and dry tensile index of handsheet. Design Expert software was used for analyzing and modeling. Results in from of the central composite design (CCD) were investigated and response surface methodology (RSM) was modeled and analyzed. Optimized wet and dry tensile were obtained by appling 1.55% hydrogen peroxide, 1.55% sodium hydroxide and 1.55% silicate, 90 minutes bleaching time, 83 0C bleaching temperature, and final pH equal to 8.5. The result showed that bleaching variables affect significantly the optical properties sample as well as mechanical strength of paper, and also dry and wet tensile strengths can be improved by optimization of bleaching condition.

Published

2015

87. Effect of a new high adhesion creping technology on machine runnability and tissue quality

Author

Liakopoulos, Leo, Furman, Gary, Bonday, Laurance S, Hatzinikolaou, Dean, and Liu, Fuping

Published

2015

88. Characterization of absorbency properties on tissue paper materials with and without 'deco' and 'micro' embossing patterns

Author

Ana M. M. S. Carta, Joana M. R. Curto, Joana Vieira, Paulo Torrão Fiadeiro, Ana Paula Cabral Seixas Costa, Flávia P. Morais, Maria Emília Amaral, and António de Oliveira Mendes

Subjects

Materials science, Absorption of water, Polymers and Plastics, Kraft process, Capillary action, Fiber, Composite material, Porosity, Embossing, Characterization (materials science), Tissue paper

Abstract

Water absorption is a key property in several tissue paper materials and can be a differentiating factor in terms of consumer choice. The converting modifications applied in the tissue industry can improved absorbency properties. For this purpose, the main goal of the present work is to study the influence of “deco” and “micro” embossing on water absorption capacity, Klemm capillary rise, and liquid spreading kinetics in tissue papers. An industrial never-dried bleached eucalyptus kraft pulp, a creped industrial base tissue paper, and a disintegrated fibrous suspension obtained from the same industrial paper were used to produce structures with and without “deco” and “micro” embossing patterns. The results indicate that the “micro” embossing process promoted bulky and porous structures, enhancing water absorption capacity and Klemm capillary rise properties, while the “dec” embossing pattern decreased water absorption capacity properties. The creping process also increased the water absorption capacity but decreased Klemm capillary rise properties along with the fiber mixtures. Regarding the liquid spreading kinetics, both embossing patterns decreased this property in uncreped isotropic structures, contrary to creped anisotropic structures. The eucalyptus and softwood fibers mixture improved the spreading kinetics compared to the creping process. The performance of structures with and without embossing allowed to quantify the liquid retention properties, combining ISO experimental methods and an optical system that records the liquid interaction with fibrous structures. In conclusion, this laboratory embossing method can be used as an alternative method to optimize converting operations and the final tissue paper characterization, on a laboratory scale.

Published

2021

89. Shape-Designable and Reconfigurable All-Paper Sensor through the Sandwich Architecture for Pressure/Proximity Detection

Author

Xiaoli Zhao, Yanhong Tong, Ruimin Zhang, Yichun Liu, Xue Wang, Pengfei Zhao, Tao Zhang, and Qingxin Tang

Subjects

Flexibility (engineering), Materials science, Cost effectiveness, Capacitive sensing, Proximity sensor, Electronic engineering, Control reconfiguration, General Materials Science, Omnidirectional antenna, Pressure sensor, Tissue paper

Abstract

All-paper sensors that are capable of free cutting and folding maximize the merits of papers, which fully utilize the unique potential of papers in cost effectiveness, flexibility, disposability, biodegradability, and a flexible design. However, most of the paper sensors have applied metals as the electrodes and polyimide/polydimethylsiloxane as the encapsulation/sensitive layers, limiting the advantages of the paper sensor. In this work, an all-paper, shape-designable, and reconfigurable capacitive pressure/proximity sensor is fabricated with multilayered tissue paper as the dielectric and polypyrrole printer paper as the electrode/encapsulation. Without the restriction of heterogeneous materials, the all-paper components enable the sensors' flexible shape design for freely cuttable and foldable 2D and 3D sensors including a 2D braille keyboard and even allow reconfiguration from a 3D box sensor to a 3D candy sensor. The all-paper sensor presents superior pressure-sensing performance (0.96 kPa-1 at

Published

2021

90. A review on efficient electromagnetic interference shielding materials by recycling waste—a trio of land to lab to land concept

Author

Sayed Azhar Rasheed Hashmi, Manish Dhangar, Sarika Verma, Jyotirmoy Mallik, Hari Narayan Bhargaw, Medha Mili, Nimisha Vedanti, Krishnasamy Jagatheesan, Avanish Kumar Srivastava, Sriparna Paul, Mohammed Akram Khan, and Harsh Bajpai

Subjects

Waste management, Health, Toxicology and Mutagenesis, General Medicine, Pollution, Electromagnetic interference, Industrial waste, Red mud, Tissue paper, Electromagnetic Fields, EMI, Electromagnetic shielding, Environmental Chemistry, Environmental science, Recycling, Bagasse, Refining (metallurgy)

Abstract

The materials used in electrical and electronic applications have great importance and broader applications, but they have severe electromagnetic interference (EMI). These materials have extensive applications in broadcasting, medical industries, research, defence sectors, communication and similar fields. The EMI can be addressed by using effective EMI shielding materials. This review presents a detailed, comprehensive description for making electromagnetic interference shielding material by recycling various wastes. It starts with highlighting the overview of electromagnetic interference shielding (EMI) and its theoretical aspects. It provides a comprehensive and detailed understanding of recent trends in the novel approaches towards fabricating EMI shielding from industrial waste, agricultural waste and other miscellaneous wastes. This paper critically reviews the works related to the recycling of wastes like red mud (waste from the aluminium refining industry), ground tyre rubber, tea waste (biowaste) from tea industries, bagasse (waste from sugar cane industry), peanut and hazelnut shells (agricultural waste), waste tissue paper and polyethylene and other miscellaneous wastes like hydrocarbon carbon black and ash for the fabrication of highly effective electromagnetic (EM) interference shielding materials. Highly effective results have been reported using red mud showing maximum efficiency of 51.4 dB in X-band range, various agricultural waste displaying reflection loss of up to - 87.117 dB (in the range 0.01 to 20 GHz) and miscellaneous waste giving EMI SE of 80 dB in X-band frequency. A separate section is dedicated to emphasizing future work and recommendations.

Published

2021

91. Advanced Configuration of N-Enriched Carbonized Tissue Paper as a Free-Standing Interlayer for Lithium–Sulfur Batteries at Wide-Range Temperatures

Author

Qinggang He, Xiang Gao, Azim Uddin, Haichao Tang, Rabia Khatoon, Jianguo Lu, Zhou Peng Li, Yichuan Guo, Yang Tian, Sanam Attique, Nasir Ali, and Zhizhen Ye

Subjects

Range (particle radiation), Materials science, Carbonization, Materials Chemistry, Electrochemistry, Analytical chemistry, Energy Engineering and Power Technology, Chemical Engineering (miscellaneous), Lithium sulfur, Electrical and Electronic Engineering, Tissue paper

Published

2021

92. ECOLOGIC AND SAFE TISSUE PAPER PROCESSING.

Author

Müllerová, Janka and Coneva, Iveta

Subjects

*FIRE prevention, *TISSUE paper manufacturing, *PAPER industry & the environment, *FLAMMABILITY, *COMBUSTION

Abstract

The aim of this paper is to draw attention to the relatively simple way how to both increase fire safety of paper technology processing and to remove one environmentally unfriendly and unhealthy chemical substance from the production process. Practical examination of flammability based on standardized testing method STN ISO 871:2010-07 of selected cellulosic material focusing on harvesting specimens and tissue paper bring new insights into the issues of flammability and combustion of the materials and finished products. There are large quantities of combustible raw materials such as a waste paper, pure pulp cellulose, semi-processed materials including not coloured tissue paper and finished products as paper tissues, toilet paper, paper napkins in the technological process of production and processing of tissue paper. The operations of pulping waste paper with hydrogen peroxide is worked to feed the process and the self-ignition combustion in contact with cellulose material. In practice, the hydrogen peroxide can be replaced by enzyme which is more suitable, fire safer substance thanks to its biologic origin also bio-friendly. Experimental testing is aimed at investigating and determining the impact of bleaching agents as hydrogen peroxide and the enzyme samples in contact with cellulosic materials such as recovered paper, pulp and tissue paper. Comparison of specific fire-technical characteristics of the samples of selected cellulosic material, the flash point and ignition in a hot air oven is presented. [ABSTRACT FROM AUTHOR]

Published

2017

93. COVID-19's Potential Impact on Commercial Hand Towel Demand.

Author

Janda, Bruce

Subjects

*COVID-19 pandemic, *TISSUE paper, *PAPER towels, *PAPER products, *HAND washing

Published

2020

94. A Reciprocal Matrix Approach to the Analysis of Hand-felt Softness of Facial Tissues

Author

Appita Annual Conference and Exhibition (65th : 2011 : Rotorua, N.Z.), Teng, Tser-Ying, Wang, Eugene I-Chen, and Perng, Yuan-Shing

Published

2011

95. An Evaluation of Alternative Water Footprint Methodologies Using An Indicative Tissue Paper Supply Chain

Author

Appita Annual Conference and Exhibition (65th : 2011 : Rotorua, N.Z.), Mcdevitt, James E, Love, Simon R, Seadon, Jeffrey K, and Allison, Robert W

Published

2011

96. One-step nanocellulose coating converts tissue paper into an efficient separation membrane.

Author

Roy, Sunanda, Zhai, Lindong, Van Hai, Le, Kim, Jung Woong, Park, Jung Ho, Kim, Hyun Chan, and Kim, Jaehwan

Subjects

CELLULOSE, TISSUE paper, SUPERHYDROPHOBIC surfaces, AQUEOUS solutions, DYES & dyeing

Abstract

Abstract: This article reports robust technology for converting tissue paper (TP) into an efficient separation membrane by coating with a novel superhydrophobic material that was synthesized by a rapid, one step approach without using any hazardous chemicals viz fluorinated materials or organic/inorganic nanoparticles. The coating was prepared using modified cellulose nanofibers which can readily transform a TP into an excellent oil/water separation membrane as well as a highly efficient dye absorbent upon spray coating. While the as-synthesized superhydrophobic cellulose surface shows water contact angle 161° (±3°), the coated TP displays 144° (±3°). Nevertheless, the coated TP shows outstanding separation performances towards various oil/water mixtures. Besides that, the coated TP also shows excellent dye absorption capacity from aqueous solution within 10 min. To further explore the multifunctional roles of the coating material, when spray it on a dishwasher sponge, the sponge became a super oil absorbent material and able to separate various oils from water at unbelievably faster rate. Hence, we believe that our ecofriendly versatile superhydrophobic coating material can be a new promising choice for many advanced applications to create more sustainable earth.Graphical abstract: [ABSTRACT FROM AUTHOR]

Published

2018

97. Integral technique for evaluation and optimization of Ni (II) ions adsorption onto regenerated cellulose using response surface methodology.

Author

Davarnejad, Reza, Moraveji, Mostafa Keshavarz, and Havaie, Marjan

Abstract

The removal efficiency of Ni (II) ions from aqueous solution using regenerated cellulose was studied. The effects of solution pH, time, initial metal concentration and adsorbent dosage on metal adsorption efficiency were investigated. Response surface methodology (RSM) was applied to predict the behavior of the system. Based on the developed model, pH was found to be the main factor which had the highest influence on Ni (II) removal efficiency. It was observed that an increase in the pH from 3.75 to 7.25 resulted in a 51.6% increase in Ni (II) removal efficiency. Additionally, the time and adsorbent dosage were found to have positive influence on metal removal efficiency while Ni (II) removal efficiency reduced with initial metal concentration. The optimization of the integral main factors was performed. The suggested optimum values for pH, time, initial metal concentration, adsorbent dosage and Ni (II) removal efficiency were 6.4, 175.27 min, 32.5 ppm, 0.4 g and 98%, respectively. [ABSTRACT FROM AUTHOR]

Published

2018

98. 影响生活用纸柔软度主要因素的研究进展.

Author

管敏, 李晨曦, and 刘洪斌

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

99. ANÁLISE DE MERCADO E NÍVEL DE CONCENTRAÇÃO DA INDÚSTRIA DE PAPEL TISSUE NO BRASIL.

Author

Coimbra de Souza, Sebastião Décio and Lima Bastos, Samilla

Abstract

Copyright of Revista Producao Online is the property of Associacao Brasileira de Engenharia de Producao 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

2018

100. Evaluation of Linter Cellulose as an Alternative Raw Material for Tissue Paper Production.

Author

Tutuş, Ahmet, Özdemir, Ayşe, and Çiçekler, Mustafa

Abstract

Copyright of Wood Industry / Drvna Industrija is the property of Drvna Industrija 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

2017