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Online since: March 2008
Authors: Wei Shen Zhu, Shu Cai Li, Bin Sui, Wen Tao Wang
In this phase, the model materials are gypsum, diatomite and water mixture that
can be conveniently poured to set.
Materials and fracture parameters.
International Journal of Rock Mechanics and Mining Science & Geomechanics Abstracts, Vol. 28, Issue 1(1991), p.
Chau : Crack coalescence in a rock-like material containing two cracks.International Journal of Rock Mechanics and Mining Sciences, Vol. 35, Issue 2(1998), p.147-164 [3] Shen Ting : Research on Strength Property of Shear Plane Including Discontinuity and Rock Bridge.
International Journal of Rock Mechanics and Mining Sciences, Vol. 40, Issue 5(2003), p. 687-700 [6] Du Jingcan, Chen Zuyu, Mi Hongliang, Wang Xiaogang, Zhou Jiacong : Determination of Comprehensive Shear Strength for Jointed Rock Masses in 3D Condition Using Genetic Algorithm and Monte-Carlo Method.
Materials and fracture parameters.
International Journal of Rock Mechanics and Mining Science & Geomechanics Abstracts, Vol. 28, Issue 1(1991), p.
Chau : Crack coalescence in a rock-like material containing two cracks.International Journal of Rock Mechanics and Mining Sciences, Vol. 35, Issue 2(1998), p.147-164 [3] Shen Ting : Research on Strength Property of Shear Plane Including Discontinuity and Rock Bridge.
International Journal of Rock Mechanics and Mining Sciences, Vol. 40, Issue 5(2003), p. 687-700 [6] Du Jingcan, Chen Zuyu, Mi Hongliang, Wang Xiaogang, Zhou Jiacong : Determination of Comprehensive Shear Strength for Jointed Rock Masses in 3D Condition Using Genetic Algorithm and Monte-Carlo Method.
Online since: February 2011
Authors: Hai Liang Wang, Zhuo Cui, Chuan Li, Ru Cang Bao
Introduction
About the research on building materials by explosion, we studied explosive lining from three aspects of theoretical analysis, experimental investigation and numerical simulation from 1997.
The problems for expansion lining surrounded with two kinds of materials for the round shaft and the spherical cavity are analytically solved for the first time by elastic-plastic mechanics[4].
Applying DYNA-2D to simulate the physical process of explosive lining, we gain the varying regularity of the stress and the displacement of the building materials and the soil with time[6-7].
In the explosive lining tests, the explosion impacted on building materials was carried out in an enclosed area.
References [1] Hailiang Wang, Changgen Feng, Liqiong Wang: Chinese Journal of Explosives & Shock Vol. 24 (2) (2001), p.12 (in Chinese) [2] Hailiang Wang, Changgen Feng, Liqiong Wang, Zhenbiao Wang: Chinese Journal of Explosion & Shock, Vol. 21(4) (2001), P.291 (in Chinese) [3] Hailiang Wang, Huizhe Ding, Min Ma, Xinming Li, in: Proceeding of the 2007 International Autumn Seminar on Propellants, Explosive and Pyrotechnics, edited by Ping HUANG, Yajun WANG and Shengcai LI, volume 7 of Theory and Practice of Energetic Materials, Section, 3, Science Press (2007) [4] Hailiang Wang, Huifeng Su, Qingzhi Liu, Min Ma, in Proceedings of the 2007 international conference on mine hazards prevention and control, eited by Chun-qin Wang, Wei-jia Guo, and Jiu-long Cheng, Mine Hazards Prevention and Control Technology, Part, 2, Science Press 2007 [5] Hailiang Wang, Xinming Li, Huizhe Ding, Changwei Zhao: Science & Technology Review Vol.25 (2007), p.38 (in Chinese) [6] Changgen Feng, Hailiang Wang,
The problems for expansion lining surrounded with two kinds of materials for the round shaft and the spherical cavity are analytically solved for the first time by elastic-plastic mechanics[4].
Applying DYNA-2D to simulate the physical process of explosive lining, we gain the varying regularity of the stress and the displacement of the building materials and the soil with time[6-7].
In the explosive lining tests, the explosion impacted on building materials was carried out in an enclosed area.
References [1] Hailiang Wang, Changgen Feng, Liqiong Wang: Chinese Journal of Explosives & Shock Vol. 24 (2) (2001), p.12 (in Chinese) [2] Hailiang Wang, Changgen Feng, Liqiong Wang, Zhenbiao Wang: Chinese Journal of Explosion & Shock, Vol. 21(4) (2001), P.291 (in Chinese) [3] Hailiang Wang, Huizhe Ding, Min Ma, Xinming Li, in: Proceeding of the 2007 International Autumn Seminar on Propellants, Explosive and Pyrotechnics, edited by Ping HUANG, Yajun WANG and Shengcai LI, volume 7 of Theory and Practice of Energetic Materials, Section, 3, Science Press (2007) [4] Hailiang Wang, Huifeng Su, Qingzhi Liu, Min Ma, in Proceedings of the 2007 international conference on mine hazards prevention and control, eited by Chun-qin Wang, Wei-jia Guo, and Jiu-long Cheng, Mine Hazards Prevention and Control Technology, Part, 2, Science Press 2007 [5] Hailiang Wang, Xinming Li, Huizhe Ding, Changwei Zhao: Science & Technology Review Vol.25 (2007), p.38 (in Chinese) [6] Changgen Feng, Hailiang Wang,
Online since: October 2010
Authors: Ji Wen Li, Ai Qin Wang, Jing Pei Xie, W.Y. WANG
Journal of Materials Processing Technology Vol. 135 (2003), p.271-277
[3] S.P.
Materials Science and Engineering A, Vol. 390 (2005), p. 63–69 [4] Zhonghua Zhang, Xiufang Bian, Zhenqing Wang, et al.
New Metallic materials of Non-equilibrium solidification(Science Press, China 2004), p. 96-140(In Chinese) [6] Das S K,Perepezko J H,Wu R I,et al.
Materials Science and Engineering A, Vol. 304-306(2001), p. 159-165 [7] Hongwen Zhang, Jianqiang Wang, Ke Lu.
Chinese journal of materials research, Vol. 10 (2000) No.6, p.815 [9] Gengxiang Hu, Miaogen Qian.
Materials Science and Engineering A, Vol. 390 (2005), p. 63–69 [4] Zhonghua Zhang, Xiufang Bian, Zhenqing Wang, et al.
New Metallic materials of Non-equilibrium solidification(Science Press, China 2004), p. 96-140(In Chinese) [6] Das S K,Perepezko J H,Wu R I,et al.
Materials Science and Engineering A, Vol. 304-306(2001), p. 159-165 [7] Hongwen Zhang, Jianqiang Wang, Ke Lu.
Chinese journal of materials research, Vol. 10 (2000) No.6, p.815 [9] Gengxiang Hu, Miaogen Qian.
Online since: July 2015
Authors: Chong Lin Chen, R. Guo, Amar Bhalla, Ming Liu, Madhuparna Pal, Chun Rui Ma
Introduction:
Relaxor like ferroelectric materials have been intensively studied and investigated for theoretical understanding [1, 2] as well as practical applications [3, 4].
Bhalla, Materials Letters, 60 (2006) 3861-3865
Frontiers of Ferroelectricity: A Special Issue of the Journal of Materials Science, Springer US, 2007, pp. 87-96
Tokumoto, Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 14 (1996) 602-605
Kalinin, Journal of Materials Science, 41 (2006) 107-116
Bhalla, Materials Letters, 60 (2006) 3861-3865
Frontiers of Ferroelectricity: A Special Issue of the Journal of Materials Science, Springer US, 2007, pp. 87-96
Tokumoto, Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 14 (1996) 602-605
Kalinin, Journal of Materials Science, 41 (2006) 107-116
Online since: December 2006
Authors: Wing Yiu Yeung, Richard Wuhrer, Malik Lee
Sintering heat treatments are then applied to develop the strength of the bonded materials
[3].
Shorshorov: Physics and Chemistry of Materials Processing Vol. 1 (1967), p.1252. 5.
Yeung: Journal of Materials Science Vol. 34 (1999), p.277. 9.
Yeung: Journal of Materials Science Vol. 34, (1999), p.2029. 10.
Yeung, Journal of Materials Science Vol. 35 (2000), p.4357. 11.
Shorshorov: Physics and Chemistry of Materials Processing Vol. 1 (1967), p.1252. 5.
Yeung: Journal of Materials Science Vol. 34 (1999), p.277. 9.
Yeung: Journal of Materials Science Vol. 34, (1999), p.2029. 10.
Yeung, Journal of Materials Science Vol. 35 (2000), p.4357. 11.
Online since: February 2011
Authors: Yi Luo, Jian Su, Li Meng Yin, Zhen Kang Li, Bin Liu, Chang Hua Du
Microstructure and Mechanical Property of (Sn-9Zn0.05Ce)xBi Solder
Changhua Du1, a, Yi Luo1, b, Jian Su1, c, Limeng Yin2, d,
Zhenkang Li1, e and Bin Liu1, f
1School of Materials Science and Engineering, Chongqing University of Technology, Chongqing 400050, China
2School of Metallurgy and Materials Engineering, Chongqing University of Science and Technology, Chongqing 401331, China
aemail: duchanghua@cqut.edu.cn, bemail: luoyi@cqut.edu.cn, cemail: sujian@cqut.edu.cn, demail: yeenlm@163.com, eemail: lizhenkang110@cqut.edu.cn, femail: liubin1012@cqut.edu.cn
Keywords: (Sn-9Zn0.05Ce)xBi Solder; Microstructure; Tensile Strength; Hardness
Abstract: The (Sn-9Zn0.05Ce)xBi solders with different Bi contents were prepared by a new process.
Experiment details Preparation of alloy materials.
The existence flaws of inclusions at grain boundary, micro-porosities and cracks around deflection within materials induce micro-pores.
Wang: Journal of Electronic Materials Vol. 31 (2002), p.921-927
Sun, et al: Journal of Southeast University (Natural Science Edition) Vol. 36 (2006), p.832-835
Experiment details Preparation of alloy materials.
The existence flaws of inclusions at grain boundary, micro-porosities and cracks around deflection within materials induce micro-pores.
Wang: Journal of Electronic Materials Vol. 31 (2002), p.921-927
Sun, et al: Journal of Southeast University (Natural Science Edition) Vol. 36 (2006), p.832-835
Online since: September 2013
Authors: Hui Fang Li, Xiao Ju Sun, Lan Qing Tang, Cai Fu Qian
Lapique et al. [7] studied the material fracture in different materials.
Fatigue and Fracture of Engineering Materials and Structures.
Key Engineering Materials.
Materials Science and Engineering A, Vol. 539(2012), p.360-368 [7]F.
Journal of Applied Polymer Science, Vol. 77 (2000), p. 2370-2382 [8]M.
Fatigue and Fracture of Engineering Materials and Structures.
Key Engineering Materials.
Materials Science and Engineering A, Vol. 539(2012), p.360-368 [7]F.
Journal of Applied Polymer Science, Vol. 77 (2000), p. 2370-2382 [8]M.
Online since: April 2025
Authors: Bishweshwar Babu, Neil Saju, T. Dilip Castro, D. Rohit
Recent experimental studies on various materials have revealed a limitation in classical continuum theories [6-8].
Aifantis, Mechanics of Materials 35 (2003) 259-280
Aifantis, International Journal of Engineering Science 30 (1992) 1279-1299
Patel, Mechanics of Advanced Materials and Structures 26 (2019) 1316-1332
Reddy, International Journal of Engineering Science 45 (2007) 288-307.
Aifantis, Mechanics of Materials 35 (2003) 259-280
Aifantis, International Journal of Engineering Science 30 (1992) 1279-1299
Patel, Mechanics of Advanced Materials and Structures 26 (2019) 1316-1332
Reddy, International Journal of Engineering Science 45 (2007) 288-307.
Online since: March 2014
Authors: Rama Koteswara Rao Sajja, Venkata V. Subba Rao, Hari Krishna Kallipudi
[4] B.L.Mordike, T.Ebert, Magnesium: Properties-applications-potential, Material Science Engg.
[6] Mordike, B.L. and Ebert, T., “ Magnesium: properties-applications-potential,” Materials science and engineering A, Vol. 302, No.1, pp. 37- 45, 2001
[8] Elizer, D. and Aghion, E., “Magnesium science, Technology and Applications, “ Advanced performance materials, Vol. 5 No. 3, pp. 201-212, 1998
Y., Zhang, H.L., Kang, Y.L. and Suzuki, H.G., “Preparation and characterization of ass rolled AZ31 magnesium alloy sheets, “ Journal of Materials Processing technology, Vol. 184, No. 1-3, pp. 102-107, 2007
Mechanical and thermal modeling of friction stir welding , Journal of materials processing technology, 2006, 171(3): 348-357
[6] Mordike, B.L. and Ebert, T., “ Magnesium: properties-applications-potential,” Materials science and engineering A, Vol. 302, No.1, pp. 37- 45, 2001
[8] Elizer, D. and Aghion, E., “Magnesium science, Technology and Applications, “ Advanced performance materials, Vol. 5 No. 3, pp. 201-212, 1998
Y., Zhang, H.L., Kang, Y.L. and Suzuki, H.G., “Preparation and characterization of ass rolled AZ31 magnesium alloy sheets, “ Journal of Materials Processing technology, Vol. 184, No. 1-3, pp. 102-107, 2007
Mechanical and thermal modeling of friction stir welding , Journal of materials processing technology, 2006, 171(3): 348-357
Online since: January 2013
Authors: Mohammed Rafiq Abdul Kadir, Azli Yahya, Andromeda Trias, Safura Hashim Nor Liyana, Mahmud Nazriah
Journal of Materials Processing Technology, 2007. 191(1–3): p. 141-144
Journal of Materials Processing Technology, 2003. 140: p. 303-307
The Open Materials Science Journal, 2010. 4: p. 113-116
Journal of the Mechanical Behavior of Biomedical Materials, 2011. 4(8): p. 1955-1962
Journal of the Mechanical Behavior of Biomedical Materials, 2011. 4(3): p. 417-422
Journal of Materials Processing Technology, 2003. 140: p. 303-307
The Open Materials Science Journal, 2010. 4: p. 113-116
Journal of the Mechanical Behavior of Biomedical Materials, 2011. 4(8): p. 1955-1962
Journal of the Mechanical Behavior of Biomedical Materials, 2011. 4(3): p. 417-422