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Online since: August 2009
Authors: Bin Zhang, Xiao Ning Tang, Gang Xie, Su Qiong He, Yang Dong
JOURNAL OF WUHAN UNIVERSITY OF
TECHNOLOGY-MATERIALS SCIENCE EDITION.
MATERIALS LETTERS.
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A.
RARE METAL MATERIALS AND ENGINEERING.
JOURNAL OF RARE EARTHS.
MATERIALS LETTERS.
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A.
RARE METAL MATERIALS AND ENGINEERING.
JOURNAL OF RARE EARTHS.
Online since: January 2017
Authors: Jamaluddin Mahmud, Siti Humairah Kamarul Bahrain
Hyperelastic materials are unique materials that have high tendency to stretch and its highly non-linear behaviour is commonly investigated using hyperelastic constitutive models.
Journal of the Mechanical Behaviour and Biomedical Materials, Vol. 18 (2013), p. 167–180
Materials and Design, Vol. 30(9) (2009), p. 3667–3672
ARPN Journal of Engineering and Applied Sciences, Vol. 10(15) (2015), p. 6329–6335
Mechanics of Materials, Vol. 85 (2015), p. 57–65
Journal of the Mechanical Behaviour and Biomedical Materials, Vol. 18 (2013), p. 167–180
Materials and Design, Vol. 30(9) (2009), p. 3667–3672
ARPN Journal of Engineering and Applied Sciences, Vol. 10(15) (2015), p. 6329–6335
Mechanics of Materials, Vol. 85 (2015), p. 57–65
Online since: February 2014
Authors: Mohd Razali Muhamad, Nur Izan Syahriah Hussein, Mohd Amri Lajis, Laily Suraya, Nor Assyura, Mohd Amran Ali, Bukhari Manshoor
Acrylic plastic material was selected as to represent the other groups of non-conductive materials.
It is common for EDM to machine conductive materials.
Journal. 29 (2011)
Material Science.6 (2001) 2037-2043
Material Processing Journal. (2004) 1658-1661
It is common for EDM to machine conductive materials.
Journal. 29 (2011)
Material Science.6 (2001) 2037-2043
Material Processing Journal. (2004) 1658-1661
Online since: August 2018
Authors: Teik Cheng Lim
Lim: Journal of Materials Science, vol. 40 (2005) p. 3275-3277
Lim: Journal of Materials Science, vol. 47 (2012) p. 368-373
Lim: Journal of Materials: Design and Applications, vol. 229 (2015) p. 447-454
Lim: International Journal of Mechanical and Materials Engineering, vol. 11 (2016) p. 13
Lim: Journal of Engineering Materials and Technology, vol. 138 (2016) p. 041011
Lim: Journal of Materials Science, vol. 47 (2012) p. 368-373
Lim: Journal of Materials: Design and Applications, vol. 229 (2015) p. 447-454
Lim: International Journal of Mechanical and Materials Engineering, vol. 11 (2016) p. 13
Lim: Journal of Engineering Materials and Technology, vol. 138 (2016) p. 041011
Online since: June 2013
Authors: Khemais Saanouni, A. Erman Tekkaya, Zhen Ming Yue, Celal Soyarslan, Houssem Badreddine
Tekkaya, A damage coupled orthotropic finite plasticity model for sheet metal forming: CDM approach, Computational Materials Science. 48(2010) 150-165
Tekkaya, A cyclic twin bridge shear test for the identification of kinematic hardening parameters, International Journal of Mechanical Sciences. 59(2012) 31-43
Heijne, Development of simple shear test for the measurement of work hardening, Journal of Materials Processing Technology. 209(2009) 4248-4254
[15] E.F Rauch, Plastic anisotropy of sheet metals determined by simple shear tests, Materials Science and Engineering: A. 241 (1998) 179-183
Allwood, Design and use of a novel sample design for formability testing in pure shear, Journal of Materials Processing Technology. 210(2010) 1304-1313.
Tekkaya, A cyclic twin bridge shear test for the identification of kinematic hardening parameters, International Journal of Mechanical Sciences. 59(2012) 31-43
Heijne, Development of simple shear test for the measurement of work hardening, Journal of Materials Processing Technology. 209(2009) 4248-4254
[15] E.F Rauch, Plastic anisotropy of sheet metals determined by simple shear tests, Materials Science and Engineering: A. 241 (1998) 179-183
Allwood, Design and use of a novel sample design for formability testing in pure shear, Journal of Materials Processing Technology. 210(2010) 1304-1313.
Online since: October 2012
Authors: Yang Sun
Application and Perspective of Intelligent Materials
Yang Sun
1Institute of Art&Fashion, Tianjin Polytechnic University, Tianjin, 300387
a874195639@qq.com
Key words: intelligent costume materials, clothing design,garment cloth
Abstract.The rapid development of science and technology shows a profound impact to the development of clothing.
If this material is appropriately applied to the medical care clothing design, it can greatly reduce the stimulation and injury to the patients caused by environmental temperature change.
To solve this problem, we can consider using some composite materials to produce this intelligent waterproof breathable fabric.
Medical care clothing design with intelligent thermal-sensitive shape memory fabric Shape memory material includes alloy and polymer.
Conclusion Implantation of intelligent materials has become an inevitable trend in the field of clothing design, bringing more innovation and more value, playing a positive role to promote the development of the clothing.
If this material is appropriately applied to the medical care clothing design, it can greatly reduce the stimulation and injury to the patients caused by environmental temperature change.
To solve this problem, we can consider using some composite materials to produce this intelligent waterproof breathable fabric.
Medical care clothing design with intelligent thermal-sensitive shape memory fabric Shape memory material includes alloy and polymer.
Conclusion Implantation of intelligent materials has become an inevitable trend in the field of clothing design, bringing more innovation and more value, playing a positive role to promote the development of the clothing.
Online since: July 2011
Authors: Yong Bo Wu, Zhi Qiang Liang, Yun Feng Peng, Yin Biao Guo, T. Jiang, X. Chen
Research on the Ductile Chip Formation in Grinding of Brittle Materials
Y.F.
Acknowledgement This work was supported by China National Natural Science Foundation (No.50905150).
Stephenson: Advances in Technology of Materials and Materials Processing Vol. 8(1) (2006), pp: 13-22
McPherson: Fine Scale Abrasive Wear of Ceramics by a Plastic Cutting Process, Science of Hard Materials, Institute Physics Conference Series Vol. 75(9) 1986, pp: 856-871
Li: Journal of Materials Processing Technology Vol. 113 (2001), pp: 348-354
Acknowledgement This work was supported by China National Natural Science Foundation (No.50905150).
Stephenson: Advances in Technology of Materials and Materials Processing Vol. 8(1) (2006), pp: 13-22
McPherson: Fine Scale Abrasive Wear of Ceramics by a Plastic Cutting Process, Science of Hard Materials, Institute Physics Conference Series Vol. 75(9) 1986, pp: 856-871
Li: Journal of Materials Processing Technology Vol. 113 (2001), pp: 348-354
Online since: October 2013
Authors: Yuan Wang, Zhao Lin Zhan, Ju Rong, Xiao Hua Yu
Recent development of vacancy formation energy
Xiaohua YU 1,a, Zhaolin ZHAN 1*,b, Ju Rong 2,c, Yuan WANG 3,d
1Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, China;
2Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016,china;
3School of Machinery & Transportation Engineering, Southwest Forestry University, Kunming 650224, China.
Notably, Jiang Qing and his partners[16]found, in melting point and vacancy materials at nanometer scale, diffusion of nanoscale materials is still apply.
[2] Francesco Delogu: Materials Chemistry and Physics, Vol. 115(2009) p. 361
[12] Sun haoliang, Xu kewei: Scientific Journal of Materials Science, Vol. 1 (2006) p. 335.
[34] W.H.QI, M.P.WANG: Journal of Materials Science, Vol. 39 (2004) p. 2529
Notably, Jiang Qing and his partners[16]found, in melting point and vacancy materials at nanometer scale, diffusion of nanoscale materials is still apply.
[2] Francesco Delogu: Materials Chemistry and Physics, Vol. 115(2009) p. 361
[12] Sun haoliang, Xu kewei: Scientific Journal of Materials Science, Vol. 1 (2006) p. 335.
[34] W.H.QI, M.P.WANG: Journal of Materials Science, Vol. 39 (2004) p. 2529
Online since: February 2014
Authors: Nikol Žižková, Jitka Hroudová, Jiří Zach
Insulation materials based on natural fibers represent a good alternative for current standardly used insulation materials like foamed plastic materials and mineral wool.
Input materials for such industrial insulation materials are particularly crude oil and non-renewable natural resources (moreover, manufacture of these insulation materials consumes high amount of energy).
To compare behavior of thermo insulating materials in the ETICS system, classic thermo-insulating materials were used (EPS, Multipor) as well as alternative materials - hemp boards, flax boards, straw boards.
Indian Journal of Fibre & Textile Research [online], Vol. 34, p. 377 – 379. (2009).
Journal of Sol-gel Science and Technology [online], Vol. 58, Issue 1, p. 18-23. (2011) Information on: http://link.springer.com/article/10.1007%2Fs10971-010-2349-8?
Input materials for such industrial insulation materials are particularly crude oil and non-renewable natural resources (moreover, manufacture of these insulation materials consumes high amount of energy).
To compare behavior of thermo insulating materials in the ETICS system, classic thermo-insulating materials were used (EPS, Multipor) as well as alternative materials - hemp boards, flax boards, straw boards.
Indian Journal of Fibre & Textile Research [online], Vol. 34, p. 377 – 379. (2009).
Journal of Sol-gel Science and Technology [online], Vol. 58, Issue 1, p. 18-23. (2011) Information on: http://link.springer.com/article/10.1007%2Fs10971-010-2349-8?
Online since: December 2011
Authors: Rui Qi Li, Zheng Jin, Chuan Li Qin, Bo Hong Li, Xiao Min Ren, Shan Tao Yan, Dong Yu Zhao
Hybrid Supercapacitors Based on Polyaniline and Carbon Aerogels Composite Electrode Materials
Zheng Jin1, 2, a, Dongyu Zhao1, 2, b, Bohong Li1, c, Xiaomin Ren1, d,
Shantao Yan1, e , Chuanli Qin1, 2, f and Ruiqi Li3,g
1Laboratory of Functional Polymer Materials, School of Chemistry and Material Sciences, Heilongjiang University, Harbin, Heilongjiang, China
2Key Laboratory of Chemical Engineering Process&Technology for High-efficiency Conversion,College of Heilongjiang Province
3School of Material Science and Chemical Engineering, Harbin Engineering University, Harbin, P.
The performance of supercapacitors is depends on electrode materials which can be categorised into three types: carbon electrode materials, metal oxide electrode materials and conductive polymer electrode materials [2].
Park: Journal of Powers Sources Vol. 111 (2002), p. 185
Liu: Current Opinion in Solid and Materials Science Vol. 12 (2008), p. 9
Qiao: Journal of Colloid and Interface Science Vol. 331 (2009).
The performance of supercapacitors is depends on electrode materials which can be categorised into three types: carbon electrode materials, metal oxide electrode materials and conductive polymer electrode materials [2].
Park: Journal of Powers Sources Vol. 111 (2002), p. 185
Liu: Current Opinion in Solid and Materials Science Vol. 12 (2008), p. 9
Qiao: Journal of Colloid and Interface Science Vol. 331 (2009).