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Online since: July 2009
Authors: Andrew John Ruys, D.T. Chavara, Cyndi X. Wang
Ohtsuki: Evaluation of in vitro
bioactivity and biocompatibility of Bioglass®-reinforced polyethylene composite Journal of
Materials Science: Materials in Medicine 8(12), (1997), 809-813
Journal of Material Science Letters 6:188, (1987), 188-190. [9] J.
Materials Science and Engineering A 362(1-2), (2003), p. 61-80
Materials Science Forum 308-311, (1999), p. 319-22
Journal of Materials Science 28(10), (1993), p. 2820-26
Journal of Material Science Letters 6:188, (1987), 188-190. [9] J.
Materials Science and Engineering A 362(1-2), (2003), p. 61-80
Materials Science Forum 308-311, (1999), p. 319-22
Journal of Materials Science 28(10), (1993), p. 2820-26
Online since: November 2012
Authors: Jun Wei Zhou, Yong Tao Zhao, Zong Chang Liu
Experiment materials
Base metal in the experiment.
Elongation and reduction of area are looked as plasticity index of metal materials.
Journal of King Saud University-Engineering Sciences (2012), doi:10.1016/j.jksues.2011.12.001
Corrosion Science.55 (2012) 368–377
Journal of Iron and Steel research, international. 2009, 16(5): 66-72
Elongation and reduction of area are looked as plasticity index of metal materials.
Journal of King Saud University-Engineering Sciences (2012), doi:10.1016/j.jksues.2011.12.001
Corrosion Science.55 (2012) 368–377
Journal of Iron and Steel research, international. 2009, 16(5): 66-72
Online since: December 2005
Authors: Bing He Sun, Xian Qing Xie, Tian Chi Wang, Toshihiro Okabe, Tong Xiang Fan, Di Zhang
Synthesis of morph-genetic materials derived from biological structures by rapid,
high temperature conversion represents a novel technology of advanced materials processing.
Woods were selected as raw materials.
C.Wang and J.Tian: Chinese Journal of Materials Research Vol10(4)(1995), p.435 [12] X.
Fan et al.: Chinese Journal of Materials Research Vol. 16 (3)(2002), p.259 [13] T.Hirose, T.Fujino and T.
Xie, D.Zhang and T.X.Fan et al.: Materials Letters Vol.56(2002), p.102 [20] X.Q.Xie, T.X.Fan and B.H.Sun et al.: Materials Science and Engineering.
Woods were selected as raw materials.
C.Wang and J.Tian: Chinese Journal of Materials Research Vol10(4)(1995), p.435 [12] X.
Fan et al.: Chinese Journal of Materials Research Vol. 16 (3)(2002), p.259 [13] T.Hirose, T.Fujino and T.
Xie, D.Zhang and T.X.Fan et al.: Materials Letters Vol.56(2002), p.102 [20] X.Q.Xie, T.X.Fan and B.H.Sun et al.: Materials Science and Engineering.
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: October 2011
Authors: De Cai Jin, Yu Hua Zhao, Xiao Yi Cang, Jie Li
Electrode materials are carbon felt, iron, aluminum and titanium alloys.
Journal of Hazardous Materials B Vol.84(2001),p.29
Journal of Tongji University: Natural Science Vol.34(2006),p.638, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.27(2011),p.125, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.25 (2009),p.325, in Chinese.
Journal of Hazardous Materials B Vol.84(2001),p.29
Journal of Tongji University: Natural Science Vol.34(2006),p.638, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.27(2011),p.125, in Chinese
Journal of Shenyang Jianzhu University:Natural Science Vol.25 (2009),p.325, in Chinese.
Online since: August 2009
Authors: Si Rong Zhu, Xiao Yu Zhang, Zhuo Qiu Li, Ya Wen Dai
Virtual Experimental Studies on
Carbon Fiber Smart Materials Resistivity Tomography
Yawen Daia, Zhuoqiu Lib, Xiaoyu Zhang, Sirong Zhu
School of Science, Wuhan University of Technology, Wuhan,China
a
daiyaweny@163.com, bscience@whut.edu.cn
Keywords: carbon fiber smart materials,virtual experiment,resistivity tomography, field monitoring.
Introduction With development of smart materials and sensor technology, it is possible to diagnose and supervise security service characteristics of critical civil engineering [1].
With conductivity and piezoresistivity of smart materials and resistivity tomography, it is hopeful to realize visible field monitoring on civil engineering structure.
Acknowledgement The work was supported by the National Natural Science Foundation of China (No. 50878169).
Chung, Carbon Fiber-Reinforced Cement as a Strain-Sensing Coating, Cement and Concrete Research, 2001, 31:665-667 [4] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Zhu Sirong, Manufacture and Characteristics of Cement-Based Smart Surface, Huazhong University of Science and Technology Journal (natural science edition), 2006, 34(8): 97-99 [5] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Study on Sensing Feature of Carbon Fiber Smart Layer, Huazhong University of Science and Technology Journal 2008, 25(2): 36-38 [6] Mei Shuhui, Array Simulation on Carbon Fiber Smart Layer and its Structure [D], Wuhan University of Technology Master Paper, 2007.5
Introduction With development of smart materials and sensor technology, it is possible to diagnose and supervise security service characteristics of critical civil engineering [1].
With conductivity and piezoresistivity of smart materials and resistivity tomography, it is hopeful to realize visible field monitoring on civil engineering structure.
Acknowledgement The work was supported by the National Natural Science Foundation of China (No. 50878169).
Chung, Carbon Fiber-Reinforced Cement as a Strain-Sensing Coating, Cement and Concrete Research, 2001, 31:665-667 [4] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Zhu Sirong, Manufacture and Characteristics of Cement-Based Smart Surface, Huazhong University of Science and Technology Journal (natural science edition), 2006, 34(8): 97-99 [5] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Study on Sensing Feature of Carbon Fiber Smart Layer, Huazhong University of Science and Technology Journal 2008, 25(2): 36-38 [6] Mei Shuhui, Array Simulation on Carbon Fiber Smart Layer and its Structure [D], Wuhan University of Technology Master Paper, 2007.5
Online since: January 2015
Authors: Shuang Zhuang, Yan Fei Chen, Liang Yang
To get an elegant, luxurious decorative effect, decorative materials such as carpets, curtains, wall panels made of polymer materials are essential.
Combustion process of the decoration materials The combustion flue gas of the widely used decoration materials (such as wood, polymer materials) presently is quite harmful.
Kallonen, Esko Mikkola: submitted to Journal of Fire and Materials, ( 1999) [2] R.
Anhui Science and Technology Press, Hefei., 2003
Xu: submitted to Journal of Chinese people’s armed police force academy (2013)
Combustion process of the decoration materials The combustion flue gas of the widely used decoration materials (such as wood, polymer materials) presently is quite harmful.
Kallonen, Esko Mikkola: submitted to Journal of Fire and Materials, ( 1999) [2] R.
Anhui Science and Technology Press, Hefei., 2003
Xu: submitted to Journal of Chinese people’s armed police force academy (2013)
Online since: February 2012
Authors: Ying Xu, Yan Qing Cai, Gong Yue Dong
Preparation of Al-N based material by Ti-bearing
blast furnace slag
Ying XU1,a, Yanqing CAI1,b, Gongyue DONG2,c
1College of Materials Science and Engineering, Hebei United University, Tangshan,063009,China
2College of Materials Science and Engineering, East China University of Science and Technology, Shanghai, 200237, China
ayuyingdd@yahoo.com.cn, bcaiyanqing126@126.com, chl2010dgy@163.com
Keywords: Ti-bearing blast furnace slag, Al-N based materials, carbonitriding reaction
Abstract.
Eventually Al-N based materials that meet the design requirements were obtained.
Composition of raw materials and process route Composition of raw materials.
Flow diagram of preparation of Al-N based materials by Titanium slag was shown in Fig.1.
Journal of Anhui University of Technology (Natural Science), Vol. 25(1), 2008, p.1671- 7872 [5] X.X.
Eventually Al-N based materials that meet the design requirements were obtained.
Composition of raw materials and process route Composition of raw materials.
Flow diagram of preparation of Al-N based materials by Titanium slag was shown in Fig.1.
Journal of Anhui University of Technology (Natural Science), Vol. 25(1), 2008, p.1671- 7872 [5] X.X.
Online since: March 2017
Authors: Gao Jun An, Chun Hua Xiong, Chang Bo Lu, You Jie Zhou, Xu Dong Wang, Zhen Li Yang
Study on Properties of Spherical Non-Metallic Explosion Suppression Materials
Zhou Youjiea,1, Lu Changbo b,1, Chunhua Xiong c,1, Yang Zhenli d,2,
An Gaojun e,1, Wang Xudong f,1
1 Beijing POL Research Institute, Beijing, 102300, China
2 Nanjing University of Science and Technology, Nanjing, 210094, China
aemail: zhoujie_76@126.com, bemail:luchgnbo@163.com, cemail:xch@sina.com.cn,
demail:258414976@qq.com, eemail: angaojun2013@163.com, femail:wangxudong3637@163.com
Keywords: explosion suppression; spherical explosion suppression materials; cook-off.
Explosion suppression materials of experiment filled with: HDPE spherical non-metallic explosion suppression materials.
China Safety Science Journal, 2013, 23(12):66-70
Journal of Loss Prevention in the Process Industries, 2008, 21(5):493-505
Journal of Shenyang Institute of Engineering, 2006, 2(2):176-178
Explosion suppression materials of experiment filled with: HDPE spherical non-metallic explosion suppression materials.
China Safety Science Journal, 2013, 23(12):66-70
Journal of Loss Prevention in the Process Industries, 2008, 21(5):493-505
Journal of Shenyang Institute of Engineering, 2006, 2(2):176-178
Online since: November 2011
Authors: Jian Yong Feng, Jian Chun Zhang, Hua Zhang, Da Xiang Yang
Experiment
Filtration materials.The four different types of filtration materials and manufacturing place as is shown in table 1.
References [1]Sang Young Yeo,Dae young Lim,Sung Won Byun,et al.Design of filter bag media with high collection efficiency.Journal Matter Science,Vol.42,8040-8046,2007
Design and performance of foulresistant poly (vinylidene fluoride) membranes prepared in a single-step by surface segregation.Journal of Membrance Science,Vol.202, 119-135,2002
;Hill,A.J.Ultrapermeable, reverse-selective nanocomposite membranes.Science,Vol.296,519-522,2002
Study on gradual porous metallic membranes obtained by powder sedimentation.Journal of Porous Materials,Vol.12,934-942,2010
References [1]Sang Young Yeo,Dae young Lim,Sung Won Byun,et al.Design of filter bag media with high collection efficiency.Journal Matter Science,Vol.42,8040-8046,2007
Design and performance of foulresistant poly (vinylidene fluoride) membranes prepared in a single-step by surface segregation.Journal of Membrance Science,Vol.202, 119-135,2002
;Hill,A.J.Ultrapermeable, reverse-selective nanocomposite membranes.Science,Vol.296,519-522,2002
Study on gradual porous metallic membranes obtained by powder sedimentation.Journal of Porous Materials,Vol.12,934-942,2010