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Online since: September 2011
Authors: Fu Lai Qu, Shun Bo Zhao, Zhi Mei Zhou, Baoan Yuan
The concrete is modeled by means of eight-node solid elements, while the steel bars are represented by two-node truss element; a bond-link element exhibiting a relative slip between the two materials couples the concrete elements to the corresponding bar elements.
Leung: Journal of materials in Civil Engineering, Vol. 13 (2001) No.3, pp. 169-175
Huang: Journal of Huazhong University of Science and Technology, Vol. 37 (2009) No.5, pp. 109-112 (in Chinese)
Chung.: ACI Material, Vol. 97 (2000) No.2, pp. 214-220
Gambarova: Journal of Structural Engineering, Vol. 16 (2004) No.8, pp. 1214-1224
Leung: Journal of materials in Civil Engineering, Vol. 13 (2001) No.3, pp. 169-175
Huang: Journal of Huazhong University of Science and Technology, Vol. 37 (2009) No.5, pp. 109-112 (in Chinese)
Chung.: ACI Material, Vol. 97 (2000) No.2, pp. 214-220
Gambarova: Journal of Structural Engineering, Vol. 16 (2004) No.8, pp. 1214-1224
Online since: March 2022
Authors: B.A. Solahuddin
Patel, “Flexural toughness of steel fiber reinforced concrete,” ACI Materials Journal, vol. 89, no. 6, pp. 541–546, 1992
Hamaza, “Steel and synthetic fibers as shear reinforcement,” ACI Materials Journal, vol. 89, no. 5, pp. 499–508, 1992
Ashour, “Mechanical properties of high strength fiber reinforced concrete,” ACI Materials Journal, vol. 89, no. 5, pp. 449–455, 1992
Ramaswamy, “Mechanical properties of steel fiber-reinforced concrete,” Journal of Materials for Civil Engineering, vol. 19, no. 5, pp. 285–392, 2007
Journal of Materials in Civil Engineering, Vol. 14, No. 2, pp. 130–136
Hamaza, “Steel and synthetic fibers as shear reinforcement,” ACI Materials Journal, vol. 89, no. 5, pp. 499–508, 1992
Ashour, “Mechanical properties of high strength fiber reinforced concrete,” ACI Materials Journal, vol. 89, no. 5, pp. 449–455, 1992
Ramaswamy, “Mechanical properties of steel fiber-reinforced concrete,” Journal of Materials for Civil Engineering, vol. 19, no. 5, pp. 285–392, 2007
Journal of Materials in Civil Engineering, Vol. 14, No. 2, pp. 130–136
Online since: September 2011
Authors: Zhi Bin Zhao, Er Ming He, Hong Jian Wang
Whitehead: Journal of Mechanical Engineering and Science, Vol. 18 (1966) No.10, p.15
Whitehead: Journal of Mechanical Engineering Science, Vol. 18 (1976) No.10, p.306
Whitehead: ASME Journal of Engineering for Gas Turbines and Power, Vol. 120 (1998) No.2, p.115
Ewins: ASME Journal of Turbomachinery, Vol. 125 (2003) No.10, p.623
Pierre: Journal of Engineering for Gas Turbines and Power, Vol. 123 (2001) No. 5, p.940.
Whitehead: Journal of Mechanical Engineering Science, Vol. 18 (1976) No.10, p.306
Whitehead: ASME Journal of Engineering for Gas Turbines and Power, Vol. 120 (1998) No.2, p.115
Ewins: ASME Journal of Turbomachinery, Vol. 125 (2003) No.10, p.623
Pierre: Journal of Engineering for Gas Turbines and Power, Vol. 123 (2001) No. 5, p.940.
Online since: July 2014
Authors: A. Ravi, R. Gandhinathan
With rapid development in Science and Technology, several innovations have come up and process industries deal with thousands of new materials and several processes.
It is necessary to develop communication strategies and information methods to create motivation and consciousness of these groups. 8Palle Haastrup, et al analysed the accidents to explore systematic ways to address the problem of accidents involving hazardous materials which actually occurred in Europe and to make a realistic estimate. 9Sekar, et al conducted a survey in 93 fireworks industries, which aimed at studying the status of working environment, the type of construction of buildings and other social factors of fireworks industries.
The materials inside the factory should never be dragged vii.
Vilchez, J.Casal, Study of the severity of industrial accidents with hazardous substances by historical analysis, Journal of Loss Prevention in the Process Industries 15(2002)517-524 [7] Kirsten Jorgensen, A systematic use of information from accidents as a basis of prevention activities, Safety science 46(2008) 164-175 [8] Palle Haastrupet, et al., [9] Sekar.T.
,et al.,2010,Planning of industrial estate for fireworks industries in Sivakasi, International Journal of Engineering Science and Technology,2207-2217 [10] Zhang Guoshun, Causes and lessons of five explosion accidents, Journal of Loss Prevention in the Process Industries 13 (2000) 439-442 [11] R.Lardner and R.Scaife, Helping engineers to analyse and influence the human factors in accidents at work, Trans IChemE, Part B, May 2006 Process Safety and Environmental Protection, 84(B3):179-183
It is necessary to develop communication strategies and information methods to create motivation and consciousness of these groups. 8Palle Haastrup, et al analysed the accidents to explore systematic ways to address the problem of accidents involving hazardous materials which actually occurred in Europe and to make a realistic estimate. 9Sekar, et al conducted a survey in 93 fireworks industries, which aimed at studying the status of working environment, the type of construction of buildings and other social factors of fireworks industries.
The materials inside the factory should never be dragged vii.
Vilchez, J.Casal, Study of the severity of industrial accidents with hazardous substances by historical analysis, Journal of Loss Prevention in the Process Industries 15(2002)517-524 [7] Kirsten Jorgensen, A systematic use of information from accidents as a basis of prevention activities, Safety science 46(2008) 164-175 [8] Palle Haastrupet, et al., [9] Sekar.T.
,et al.,2010,Planning of industrial estate for fireworks industries in Sivakasi, International Journal of Engineering Science and Technology,2207-2217 [10] Zhang Guoshun, Causes and lessons of five explosion accidents, Journal of Loss Prevention in the Process Industries 13 (2000) 439-442 [11] R.Lardner and R.Scaife, Helping engineers to analyse and influence the human factors in accidents at work, Trans IChemE, Part B, May 2006 Process Safety and Environmental Protection, 84(B3):179-183
Online since: August 2014
Authors: Xiao Bing Jia, Er Ping Zhao, Qiu Fei Liu, Xuan Yan
The curves of permeability coefficient and volume water content of the slope material with matrix suction as shown in Fig. 1, Fig. 2.
Journal of Liaoning Technical University, 2007, 26(2):235-237
Analysis on Unsaturated Seepage Calculation Parameter [J].Journal of YANGTZE River Scientific Research Institute, 2004, 21(5):28-31
Study on Stability of Slope and Mechanisms of Deformation and Failure of Embankment [D].WUHAN: INSTITUTE OF ROCK & SOIL MECHANICS CHINESE ACADEMY OF SCIENCES, 2006.12
Clem: submitted to Journal of Materials Research (2003)
Journal of Liaoning Technical University, 2007, 26(2):235-237
Analysis on Unsaturated Seepage Calculation Parameter [J].Journal of YANGTZE River Scientific Research Institute, 2004, 21(5):28-31
Study on Stability of Slope and Mechanisms of Deformation and Failure of Embankment [D].WUHAN: INSTITUTE OF ROCK & SOIL MECHANICS CHINESE ACADEMY OF SCIENCES, 2006.12
Clem: submitted to Journal of Materials Research (2003)
Online since: February 2013
Authors: Wen Yan Yu, Jian Guo Wang
The model length is 4.5 mm, the external diameter being 0.9 mm, the wall thickness being 0.05 mm.
2.3 Material properties and the grid partition
The stent material is an elastic-plastic material, and material is medical 316L stainless steel.
Materials parameters of stent and balloon are described in Table 2.
New England Journal of Medicine 346,1773–1780
Stent optimization based on different expansion models[J].Journal of Harbin Institute of Technology 43(1), 267–272
Journal of Biomechanics 41,1053-1061.
Materials parameters of stent and balloon are described in Table 2.
New England Journal of Medicine 346,1773–1780
Stent optimization based on different expansion models[J].Journal of Harbin Institute of Technology 43(1), 267–272
Journal of Biomechanics 41,1053-1061.
Online since: November 2011
Authors: Li Hong Lan, Ping Lan, Tao Xie, An Ping Liao
Experiment
Materials The sample of the schoolyard domestic sewage was brought from Guangxi University for Nationalities.
It was produced by the National Science and Technology and BC University of Canada.
Acknowledgements This research was financially supported by Guangxi Natural Science Foundation (0542019) and (0575003), Guangxi Science and Technology Development Program Project(0992928-13).
Biochemical Engineering Journal, 31(2006),p. 56–66 [8] K.G.
Biochemical Engineering Journal,28(2006),p.237–242 [9] Haidong Huang,Gang Hou.Study on Measurement of K_La in Bioreactor by Methodof Imitate Steady State, Journal of Tianjin Agricultural University,3(2004),p.28-31 [10]Yikun Zhao,Li Zhou Li,Lingyun Li.Impact of DO Concentration on Filamentous Sludge Bulking in Treatment of Brewery Wastewater by SBR Process, China Environmental Protection Industry, 9(2010),p.52-55
It was produced by the National Science and Technology and BC University of Canada.
Acknowledgements This research was financially supported by Guangxi Natural Science Foundation (0542019) and (0575003), Guangxi Science and Technology Development Program Project(0992928-13).
Biochemical Engineering Journal, 31(2006),p. 56–66 [8] K.G.
Biochemical Engineering Journal,28(2006),p.237–242 [9] Haidong Huang,Gang Hou.Study on Measurement of K_La in Bioreactor by Methodof Imitate Steady State, Journal of Tianjin Agricultural University,3(2004),p.28-31 [10]Yikun Zhao,Li Zhou Li,Lingyun Li.Impact of DO Concentration on Filamentous Sludge Bulking in Treatment of Brewery Wastewater by SBR Process, China Environmental Protection Industry, 9(2010),p.52-55
Online since: December 2010
Authors: Xue Ying Wei, Jun Hai Zhao, Xin Zhong Li
Acknowledgements
The supports of the National Nature Science Foundation of China under Grant 50908015 and Nature Science Foundation of Shaanxi Province under Grant SJ08E204 are gratefully acknowledged.
[3] Cai Shao-huai, Jiao Zhan-shuai: Journal of Building Sructures(In Chinese), 1997,18(6):20-25
[4] Schneider SP: Journal of Structural Engineering, 1998, 124(10): 1125-38
[7] Han Lin-hai, Liu Wei and Yang You-fu: Journal of Construction Steel Research. 2008, 64:377-387
Beijing: Science Press, 2003.
[3] Cai Shao-huai, Jiao Zhan-shuai: Journal of Building Sructures(In Chinese), 1997,18(6):20-25
[4] Schneider SP: Journal of Structural Engineering, 1998, 124(10): 1125-38
[7] Han Lin-hai, Liu Wei and Yang You-fu: Journal of Construction Steel Research. 2008, 64:377-387
Beijing: Science Press, 2003.
Online since: October 2014
Authors: Heng Feng Li, Chun Bo Yue, Ya Qing Weng, Ming Yu Wang, Guo Ping Zeng
Chain structure and dynamic mechanical property of the vinylidenefluoride and chlorotrifluoroethylene copolymers
Guoping Zeng1,a, Chunbo Yue2, Yaqing Weng1, Mingyu Wang2, Hengfeng Li2,b
1Institute of Applied Chemistry, Jiangxi Academy of Sciences, Nanchang, 330096, China
2School of Materials Science and Engineering, Central South University, Changsha, 410083, China
aemail: nczgp@126.com, bemail:lihengfeng@gmail.com
Keywords: chain elements structure, length distribution of chain segments, copolymer, dynamic mechanical property
Abstract.
The VDF-CTFE rubber has a potential using in the damping materials.
Journal of Membrane Science, 2008 (325)319-325
Journal of applied physics, 2005 (97)094105
Journal of the American chemical society, 2007 (129)5106-15107
The VDF-CTFE rubber has a potential using in the damping materials.
Journal of Membrane Science, 2008 (325)319-325
Journal of applied physics, 2005 (97)094105
Journal of the American chemical society, 2007 (129)5106-15107