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Online since: October 2012
Authors: Wei Ping Hu, Hua Qing Niu
The Use of Super Absorbent Polymer for Interior Decoration Materials
Huaqing Niu 1, a, Weiping Hu2,b
1Master of Fine Arts, Faculity of Art and Communication, Kunming University of Science
and Technology, Yunnan, China
2Faculity of Art and Communication, Kunming University of Science and Technology, Yunnan, China
a 913861787@qq.com,b yncaid@sina.com
Keywords: Super absorbent polymer; Interior decoration materials; Water absorbing materials; water molecule; polar group.
The introduction of interior decoration materials Interior decoration materials are all kinds of materials used in inside buildings.
Whether are the SAP materials suitable to apply in interior decoration materials?
Xu, A composite of borohydride and super absorbent polymer for hydrogen generation [J], Journal of Power Sources, 196 (8), p. 3863-3867, 2011 [4] Obana Hirotaka, Okihashi Masahiro, Kakimoto Sachiko,Hori Shinjiro, Determination of Acephate and Methamidophos in Foods Using Super-absorbent Polymer [J], Analytical Communications, 34 (9), p. 253-256, 1997 [5] KAMIYAMA, TOMOKO, Sample Book for Interior Decoration Materials, Patent Abstract of Japan, 2003 [6] Wang Song-Yung, Tsai Ming-Jer, Assessment of temperature and relative humidity conditioning performances of interior decoration materials in the Taipei area (II) [J], Journal of Wood Science, 46 (6), p. 470-476, 2000 [7] "How do Super Absorbent Polymers Work?".
Shahidul, Yeum Jeong Hyun, Das Ajoy Kumar, Synthesis of poly(vinyl acetate–methyl methacrylate) copolymer microspheres using suspension polymerization [J], Journal of Colloid and Interface Science, 368 (1), p. 400-405, 2012
The introduction of interior decoration materials Interior decoration materials are all kinds of materials used in inside buildings.
Whether are the SAP materials suitable to apply in interior decoration materials?
Xu, A composite of borohydride and super absorbent polymer for hydrogen generation [J], Journal of Power Sources, 196 (8), p. 3863-3867, 2011 [4] Obana Hirotaka, Okihashi Masahiro, Kakimoto Sachiko,Hori Shinjiro, Determination of Acephate and Methamidophos in Foods Using Super-absorbent Polymer [J], Analytical Communications, 34 (9), p. 253-256, 1997 [5] KAMIYAMA, TOMOKO, Sample Book for Interior Decoration Materials, Patent Abstract of Japan, 2003 [6] Wang Song-Yung, Tsai Ming-Jer, Assessment of temperature and relative humidity conditioning performances of interior decoration materials in the Taipei area (II) [J], Journal of Wood Science, 46 (6), p. 470-476, 2000 [7] "How do Super Absorbent Polymers Work?".
Shahidul, Yeum Jeong Hyun, Das Ajoy Kumar, Synthesis of poly(vinyl acetate–methyl methacrylate) copolymer microspheres using suspension polymerization [J], Journal of Colloid and Interface Science, 368 (1), p. 400-405, 2012
Online since: July 2021
Authors: Victor V. Nosov, Egor V. Grigoriev, Sabina A. Peretyatko, Artem P. Artyushchenko
Nanotechnologies of Strength Control of Materials
Victor V.
Tarasenko, Brittle strength conditions of isotropic materials, Journal of Mining Institute 36(3) (2018) 146-156
Kuten, Analysis of acoustic emission parameters changes with the growth of fatigue racks in steel samples, Materials Science Forum 970 (2019) 137–144
Manzhikov, Damage accumulation model for solids and the catastrophy prediction for large-scale objects, Journal of Mining Science 46(4) (2010) 384-393
Sultonov, M.Z Rustamova, Changes in structure of natural heterogenous materials under deformation, Journal of Mining Science 45(4) (2009) 355-358
Tarasenko, Brittle strength conditions of isotropic materials, Journal of Mining Institute 36(3) (2018) 146-156
Kuten, Analysis of acoustic emission parameters changes with the growth of fatigue racks in steel samples, Materials Science Forum 970 (2019) 137–144
Manzhikov, Damage accumulation model for solids and the catastrophy prediction for large-scale objects, Journal of Mining Science 46(4) (2010) 384-393
Sultonov, M.Z Rustamova, Changes in structure of natural heterogenous materials under deformation, Journal of Mining Science 45(4) (2009) 355-358
Online since: July 2011
Authors: Wen Cai Xu, Dong Li Li, Ya Bo Fu
A method of reducing volatile compounds in polypropylene packaging materials
Dongli Li 1, a, Wencai Xu 1,b and Yabo Fu1,c
1 Beijing Key Lab. of Printing and Packaging Materials and Technology
Beijing Institute of Graphic Communication, Beijing 102600, China
a lidongli@bigc.edu.cn, b xuwencai@bigc.edu.cn, c fuyabo@bigc.edu.cn
Keywords: packaging materials, nano-modification, printing ink, volatile compounds, food safety.
With many of the multilayer packaging materials adhesives are used to bind the layers together.
These organic solvents from adhesives and print inks can adsorbed by multilayer packaging materials and transfer from packaging materials to foodstuff.
The blended raw materials were melt mixing in twin-screw extruder at 160~220˚C.
De Candia: Journal of Applied Polymer Science Vol.57 (1995), P.533 [20] Kitty S.M.
With many of the multilayer packaging materials adhesives are used to bind the layers together.
These organic solvents from adhesives and print inks can adsorbed by multilayer packaging materials and transfer from packaging materials to foodstuff.
The blended raw materials were melt mixing in twin-screw extruder at 160~220˚C.
De Candia: Journal of Applied Polymer Science Vol.57 (1995), P.533 [20] Kitty S.M.
Online since: March 2012
Authors: De Hong Zhuang, Xing She, Hai Bo Wang
Intelligent materials based on the functional materials, there are two major categories.
Realize the using function product need science and technology to support.
This design acquired award of American popular science magazine.
For instance, self-adjusting, shape memory materials, photochromic materials, thermochromism materials, electrochromic material, etc.
Journal of mechanical engineering.
Realize the using function product need science and technology to support.
This design acquired award of American popular science magazine.
For instance, self-adjusting, shape memory materials, photochromic materials, thermochromism materials, electrochromic material, etc.
Journal of mechanical engineering.
Online since: January 2010
Authors: Mustafa Koçak, Peter Staron, Andreas Schreyer, Thomas Lippmann, Felix Beckmann, Astrid Haibel, Lars Lottermoser, Julia Herzen, Torben Fischer, Norbert Schell
The New GKSS Materials Science Beamlines at DESY:
Recent Results and Future Options
P.
Introduction In engineering materials science X-ray scattering and micro-tomography using synchrotron radiation have over approximately the last 10 years evolved as an increasingly accepted and utilized technique for characterizing the internal structure of materials.
The new high-energy beamline HARWI II is dedicated to texture, strain, and imaging measurements for materials science (Fig. 1).
Synchrotron radiation based micro computed tomography (SRµCT) is an established imaging method in the field of materials science.
Thus, GKSS is offering a suite of beamlines and corresponding experimental environments with a strong focus on the engineering materials science community.
Introduction In engineering materials science X-ray scattering and micro-tomography using synchrotron radiation have over approximately the last 10 years evolved as an increasingly accepted and utilized technique for characterizing the internal structure of materials.
The new high-energy beamline HARWI II is dedicated to texture, strain, and imaging measurements for materials science (Fig. 1).
Synchrotron radiation based micro computed tomography (SRµCT) is an established imaging method in the field of materials science.
Thus, GKSS is offering a suite of beamlines and corresponding experimental environments with a strong focus on the engineering materials science community.
Online since: November 2011
Authors: Bao Guo Ma, Wen Yang, Jun Wang, Jian Liang Zhang
Preparation of RHA-paraffin phase change materials
Jun Wang1,2,a, Baoguo Ma1, Jianliang Zhang2,b, Wen Yang2
1 state Key Laboratory for Silicate Materials Science Engineering, Wuhan University of Technology, Wuhan, Hubei, 430070, China
2China Construction Ready-mixed Concrete Co.
Materials and Impregnation Porous Materials The RHA for experiment comes from Wuhan Kaidi Electric Power Co.
Al-Hallaj, A review on phase change energy storage: materials and applications, Energy Conversion and Management 2004, 45(9-10): 1597-1615
Journal of Materials Science and Engineering, 2003, 21(5): 647-650.
Mater Science, 1988, 23(12): 21–25
Materials and Impregnation Porous Materials The RHA for experiment comes from Wuhan Kaidi Electric Power Co.
Al-Hallaj, A review on phase change energy storage: materials and applications, Energy Conversion and Management 2004, 45(9-10): 1597-1615
Journal of Materials Science and Engineering, 2003, 21(5): 647-650.
Mater Science, 1988, 23(12): 21–25
Online since: January 2020
Authors: Zhi Ping Mao, Wei Dong Li, Ton Gjun Ma
Experimental Work
Materials.
Firsov: Science Vol.306 (2004), p. 666-669 [3] K.
Hone: Science Vol.321 (2008), p. 385-388 [6] H.
Coleman: Journal of Materials Chemistry Vol.22 (2012), p. 12907-12914 [17] W.
Osman: Journal of Materials Science Vol.52 (2017), p. 5928-5937 [23] S.
Firsov: Science Vol.306 (2004), p. 666-669 [3] K.
Hone: Science Vol.321 (2008), p. 385-388 [6] H.
Coleman: Journal of Materials Chemistry Vol.22 (2012), p. 12907-12914 [17] W.
Osman: Journal of Materials Science Vol.52 (2017), p. 5928-5937 [23] S.
Online since: September 2024
Authors: Andriy Melnichenko, Oleg Kulakov, Albert Katunin, Andrei Lesko
Paper [19] analyses the correlation dimension of the state of the gas environment during early ignition of materials.
Science and Transport Progress. 27 (2009) 143–148
Gornostal, Analysis of correlation dimensionality of the state of a gas medium at early ignition of materials.
Materials of Science Forum. 1068 (2022) 239–247
Materials of Science Forum. 1068 (2021) 361–373.
Science and Transport Progress. 27 (2009) 143–148
Gornostal, Analysis of correlation dimensionality of the state of a gas medium at early ignition of materials.
Materials of Science Forum. 1068 (2022) 239–247
Materials of Science Forum. 1068 (2021) 361–373.
Online since: May 2021
Authors: Natalya A. Gasratova, Victor S. Zuev
Scheme of the nylon seal
· Physical and mechanical properties of materials [7] are given in table 1:
Table1.
Mechanical properties of materials Material Young’s modulus E, GPa Poison’s ratio ν Density ρ, kg/m3 σp, MPa σc, MPa PMMA 3.3 0.32 1190 82 125 Nylon 2.8 0.4 1150 — — Aluminum 70 0.33 4510 — — Loads and boundary conditions · The radius of the outer surface of the sphere R0=845mm; · The radius of the inner surface of the sphere Ri=737.5mm; · The angle of the upper hatch; · The angle of the bottom plate;; Internal working pressure P1 = 1 atm. (0.1 MPa); · External hydrostatic pressure P2 = 89.6 atm. (8.96 MPa - corresponds to a pressure of 900 m); · The interface conditionis met at the media contact boundary: σn1+σn2=0;u1=u2; · The material is considered in two cases as: o Linear material o Non-linear material.
The research was supported by the Russian Science Foundation (project no. 21-71-20020).
Zuev, On the design of deep-sea optical elements made of PMMA, IOP Conference Series: Materials Science and Engineering 734 (1) (2020) doi:10.1088/1757-899X/734/1/012069
Wei-Hao, A Uniform Viscoelastic-Plastic Constitutive Model for MD-PMMA at a Wide Temperature Range, Journal of Research Updates in Polymer Science. 4 (2015) 139-148
Mechanical properties of materials Material Young’s modulus E, GPa Poison’s ratio ν Density ρ, kg/m3 σp, MPa σc, MPa PMMA 3.3 0.32 1190 82 125 Nylon 2.8 0.4 1150 — — Aluminum 70 0.33 4510 — — Loads and boundary conditions · The radius of the outer surface of the sphere R0=845mm; · The radius of the inner surface of the sphere Ri=737.5mm; · The angle of the upper hatch; · The angle of the bottom plate;; Internal working pressure P1 = 1 atm. (0.1 MPa); · External hydrostatic pressure P2 = 89.6 atm. (8.96 MPa - corresponds to a pressure of 900 m); · The interface conditionis met at the media contact boundary: σn1+σn2=0;u1=u2; · The material is considered in two cases as: o Linear material o Non-linear material.
The research was supported by the Russian Science Foundation (project no. 21-71-20020).
Zuev, On the design of deep-sea optical elements made of PMMA, IOP Conference Series: Materials Science and Engineering 734 (1) (2020) doi:10.1088/1757-899X/734/1/012069
Wei-Hao, A Uniform Viscoelastic-Plastic Constitutive Model for MD-PMMA at a Wide Temperature Range, Journal of Research Updates in Polymer Science. 4 (2015) 139-148
Online since: October 2013
Authors: Hui Min Sun, Zhao Zhan Gu, Ran Ran Yang
Study on Absorbing Properties of Honeycomb Absorbing Materials
Hui-min SUN1,a, Zhao-zhan GU1,b and Ran-ran YANG1,c
1Nanjing University, College of Electronic Science and engineering, Nanjing 210093, China
awhhyshm__1016@sina.com, btommygu@nju.edu.cn, cyangranrannju@gmail.com
Keywords: honeycomb absorbing materials, electromagnetic parameters, dip-coating.
Honeycomb absorbing materials belong to structural absorbing materials.
Zeng, et al: Packaging Journal.2(2010),p.21-23 [4] D.
Berry, et al: Journal of Mechanical Engineering Science.221(2007),p.753-767 [5] L.
Liu: Journal of Aeronautical Materials.20(2000),p.187-191 [6] K.
Honeycomb absorbing materials belong to structural absorbing materials.
Zeng, et al: Packaging Journal.2(2010),p.21-23 [4] D.
Berry, et al: Journal of Mechanical Engineering Science.221(2007),p.753-767 [5] L.
Liu: Journal of Aeronautical Materials.20(2000),p.187-191 [6] K.