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Computer Modeling of the Process of Synthesis of Porous Glass-Composite Materials L.A.
Research Journal of Pharmaceutical, Biological and Chemical Sciences. 7 (5) (2016) 1073-1081
IOP Conference Series: Materials Science and Engineering. 262 (2017) 012020
Research Journal of Pharmaceutical, Biological and Chemical Sciences. 7 (6) (2016) 136-146
Materials Science Forum. 843 (2016) 183-188

The 37th volume of the journal "Advanced Engineering Forum" includes peer-reviewed manuscripts presenting the engineering solutions and research results dealing with contemporary problems in applied materials science, mechanical engineering, building engineering, applied mechanics, power engineering and engineering management.

Simulation of expansive stress in cement-based materials subjected to sulfate attack Yin Guangji1, a, Zuo Xiaobao2,b ,Sun Xianghua3, c ,Tang Yujuan4,d 1 Nanjing University of Science & Technology, Nanjing 210094, China 2 Nanjing University of Science & Technology, Nanjing 210094, China 3 Nanjing University of Science & Technology, Nanjing 210094, China 4 Nanjing University of Science & Technology, Nanjing 210094, China a YinXJlove@163.com, b xbzuo@sina.com, c sxianghua@sina.com, d tyjdsr19891103@163.com Keywords: Sulfate attack; Cement-based material; Mechanics analysis model; Equivalent stress; Crystallization stress Abstract: For the volume expansive of cement-based materials subjected to sulfate attack, based on microporous mechanics, the model of representative volume element(RVE) is established to analyze the distribution of microcosmic expansive stress in RVE.
The relationship of RVE macroscopic Fig 4 The relationship of RVE macroscopic equivalent stress and the ettringite concentration equivalent stress and the initial porosity Summary This paper analyzes the macroscopic equivalent stress of RVE, which provides the basic for the analysis of equivalent elastic modulus of cement-basic materials under sulfate attack.
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[6] Jin Zuquan, Sun Wei and Zhang Yunsheng: Journal of the Chinese Ceramic Society 2006 Vol. 34(5), p. 630-635
[7] Zuo Xiaobao and Sun Wei: Journal of the Chinese Ceramic Society Vol. 37(7) (2009), p. 1063-1067

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Stimuli-responsive Materials Applied as Carriers of Immobilized Enzymes Yu ZHANG 1,2,a，Jingliang XU 1,b，and Zhenhong YUAN 1,c 1.
Most widely used temperature-responsive materials were NIPA (N-isopropylacrylamide) derivatives.
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Introduction Loose materials stand between rocks and liquids.
Soil anchors – the methods and machines for their installation // Journal of Mining Science, 2007, Volume 43, Issue 6, pp. 640–645
Part I: Etiology and evolution of the Patomsky crater // Journal of Mining Science, 2011, Volume 47, Issue 4, pp. 413–426
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Shear Mechanical Properties Characterization of Material via Ultrasound Vibrometry Ke Chen1,a, Jiangli Lin1,b, Guangfu Yin1,c and Yi Zheng2,d 1College of Materials Science and Engineering, Sichuan University, China 2Department of Electrical and Computer Engineering, St.
Measurement of mechanical properties is very important in material science research area.
Introduction How to measure mechanical properties of materials and biological tissue noninvasively is an important issue in material science, non-destructive test, and medical diagnosis.
A usual approach for noninvasive measurement is to quantify responses of materials stressed by external force.
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A NOVEL FORMING PROCESS OF COPPER CLADDING ALUMINUM COMPOSITE MATERIALS WITH CORE-FILLING CONTINUOUS CASTING Jianxin XIE 1, a , Chunjing WU1, b , Xuefeng LIU1, c and Xinhua LIU 1, d 1 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China a email: jxxie@mater.ustb.edu.cn, b email: cjwu@mater.ustb.edu.cn, cemail: xuefeng.liu@263.net, d email: liuxinhua18@sina.com Keywords: core-filling continuous casting, bimetal composite materials, copper cladding aluminum, bonding interface Abstract.
To simplify forming process of cladding materials with high performance, such as copper cladding aluminum composite materials, and to improve the interface quality of cladding materials, a novel forming process called Core-Filling continuous Casting (CFC) for bimetal composite materials is proposed.
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