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Online since: July 2014
Authors: Wei Long, Da Qing Tian, Si Jian Lin
(1)
-crack length, - number of stress cycles , -crack growth rate, -material constant, -stress intensity factor range.
[2] Li Gang, Chen Changhong, Zhang Yusheng, Yang Xinmin, Wang Wei, Analysis on the static and dynamic strength of cyclone dust collector, China Safety Science Journal, Vol.9, No. 3, Jun .1999, pp.59-64
[4] Yu Shu-rong, Fuzzy assessment of pressure vessels safety based on the failure assessment diagram, Journal of Gansu University of Technology, Vol.22 No.2, Jun.1996, pp.43-47
[7] Jiang Nan, Chen Guoxuan, Li Zhaofeng, Effects of strain hardening on safety margin of pressure vessels, Journal of South China University of Technology (Nature Science Edition), Vol.40, No.11, November 2012, pp.89-93
[11] Paris P., Erdogan F., A critical analysis of crack growth laws, Journal of basic engineering, Transaction of the ASME, 1963(85), pp.528-534.
[2] Li Gang, Chen Changhong, Zhang Yusheng, Yang Xinmin, Wang Wei, Analysis on the static and dynamic strength of cyclone dust collector, China Safety Science Journal, Vol.9, No. 3, Jun .1999, pp.59-64
[4] Yu Shu-rong, Fuzzy assessment of pressure vessels safety based on the failure assessment diagram, Journal of Gansu University of Technology, Vol.22 No.2, Jun.1996, pp.43-47
[7] Jiang Nan, Chen Guoxuan, Li Zhaofeng, Effects of strain hardening on safety margin of pressure vessels, Journal of South China University of Technology (Nature Science Edition), Vol.40, No.11, November 2012, pp.89-93
[11] Paris P., Erdogan F., A critical analysis of crack growth laws, Journal of basic engineering, Transaction of the ASME, 1963(85), pp.528-534.
Online since: August 2015
Authors: Wen Long Xu, Shu Ping Gao, Yong Bi, Cheng Wang
Numerical Simulation of Damage Effective of Explosion in Buildings
Wenlong Xu, Cheng Wang *, Yong Bi and Shuping Gao
State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing, 100081, P.R.
The parameters of TNT, air, brick, concrete etc. are directly take from material database of AUTODYN.
Acknowledgments This research is supported by the National Natural Science Foundation of China (11272056), Beijing Natural Science Foundation (8132034), and the Foundation of State Key Laboratory of Explosion Science and Technology (Grant No.
Wang, et al, Studied scale similarity model of internal explosion in closed field, Journal of Vibration and Shock, 2014, 33(2): 128-133
[3] Edri, Z Savir, V R Feldgun et al, On Blast Pressure Analysis Due to a Partially confined Explosion: Experimental Studies, International Journal of protective Structures, 2011, 2(1): 1-19
The parameters of TNT, air, brick, concrete etc. are directly take from material database of AUTODYN.
Acknowledgments This research is supported by the National Natural Science Foundation of China (11272056), Beijing Natural Science Foundation (8132034), and the Foundation of State Key Laboratory of Explosion Science and Technology (Grant No.
Wang, et al, Studied scale similarity model of internal explosion in closed field, Journal of Vibration and Shock, 2014, 33(2): 128-133
[3] Edri, Z Savir, V R Feldgun et al, On Blast Pressure Analysis Due to a Partially confined Explosion: Experimental Studies, International Journal of protective Structures, 2011, 2(1): 1-19
Online since: November 2012
Authors: Zhen Yu Wang, Jin Fan Zhang, Jian Qun Jiang
, it has surpassed over conventional constructional materials and widely spread as mainstreams in many fields of constructional engineering[2] W.J.
Li: Journal of Constructional Steel Research, Vol. 46 (1998) No.1–3, p.400. .
Tan: Journal of Constructional Steel Research, Vol. 70 (2012) p.1. 5].
All of those material properties were taken from test data reported by the authors[18] Y.J.
Acknowledgements The work described in this paper was supported by the grants from the National Natural Science Foundation of China (Project No.51179171, No.51079127).
Li: Journal of Constructional Steel Research, Vol. 46 (1998) No.1–3, p.400. .
Tan: Journal of Constructional Steel Research, Vol. 70 (2012) p.1. 5].
All of those material properties were taken from test data reported by the authors[18] Y.J.
Acknowledgements The work described in this paper was supported by the grants from the National Natural Science Foundation of China (Project No.51179171, No.51079127).
Online since: October 2011
Authors: Xiao Ying Mu, Xiao Nan Yang, Fu Yi Cui, Zhi Wei Zhao
The environmental and health consequences of this material and the life-cycle implications merit attentions[1,2].
Materials and Methods Main reagents preparation Rutile nano-TiO2 water dispersion, with the particle size of 5-30nm, was used to prepare nanoparticle sotck solution (500mg·L-1) for the experiments.
References [1] Hongbo Tang: New materials industry Vol. 3 (2008), p. 51-55.
Crittenden: Water Air and Soil Pollution Vol. 178 (2007), p. 245-254 [9] Yang Zhang, Yongsheng Chen, Paul Westerhoff, Kiril Hristovski and John C Crittenden: Water Research Vol. 42 (2008), p. 2204-2212 [10] Yongliang Qiu, Hongling Chen, Xiaozu Wang and Nanping Xu: Journal of Chemical Engineering of Chinese Universities Vol. 01 (2005). p. 129-133 [11] Meng Li and Jincang Guo: Journal of Wuhan University of Technology Vol. 3 (2010), p. 83-85“In Chinese” [12] Yang Zhang, Yongsheng Chen, Paul Westerhoff and John Crittenden: Water Research Vol. 43 (2009), p. 4249-4257 [13] Hongxiao Tang: Journal of Anhui university(natural science edition) (1987), p. 13-24.
“In Chinese” [16] Hongxiao Tang: Progress of environmental science Vol. 2 (1993), p. 1-13.
Materials and Methods Main reagents preparation Rutile nano-TiO2 water dispersion, with the particle size of 5-30nm, was used to prepare nanoparticle sotck solution (500mg·L-1) for the experiments.
References [1] Hongbo Tang: New materials industry Vol. 3 (2008), p. 51-55.
Crittenden: Water Air and Soil Pollution Vol. 178 (2007), p. 245-254 [9] Yang Zhang, Yongsheng Chen, Paul Westerhoff, Kiril Hristovski and John C Crittenden: Water Research Vol. 42 (2008), p. 2204-2212 [10] Yongliang Qiu, Hongling Chen, Xiaozu Wang and Nanping Xu: Journal of Chemical Engineering of Chinese Universities Vol. 01 (2005). p. 129-133 [11] Meng Li and Jincang Guo: Journal of Wuhan University of Technology Vol. 3 (2010), p. 83-85“In Chinese” [12] Yang Zhang, Yongsheng Chen, Paul Westerhoff and John Crittenden: Water Research Vol. 43 (2009), p. 4249-4257 [13] Hongxiao Tang: Journal of Anhui university(natural science edition) (1987), p. 13-24.
“In Chinese” [16] Hongxiao Tang: Progress of environmental science Vol. 2 (1993), p. 1-13.
Online since: December 2011
Authors: Jing Liu, Ying Miao, Zheng Zhao
Materials and Methods
Whey hydrolysate preparation
Whey was made using raw skim milk via adjusting pH to 4.6 to remove casein.
Elution peak materials, whey peptides (WP), were collected.
International Journal of molecular Sciences.
Cho: Journal of Pharmacy and Pharmacology.
Decker: Journal of Food Science.
Elution peak materials, whey peptides (WP), were collected.
International Journal of molecular Sciences.
Cho: Journal of Pharmacy and Pharmacology.
Decker: Journal of Food Science.
Online since: December 2013
Authors: Yu Chao, Dong Sheng Wang, Ting Zhang
Materials and Methods
2.1 Reagents
OTC Standards were purchased from China Pharmaceutical and Biological identified, purity = 97.5%.
Journal of Chromatography A, 2002, 952(1-2):111-120
Journal of Agricultural and Food Chemistry, 2008, 56(5): 1683-1688
Journal of Environmental Quality, 2008, 37(2): 704-711
Applied Clay Science, 2009, 46(1): 27-36
Journal of Chromatography A, 2002, 952(1-2):111-120
Journal of Agricultural and Food Chemistry, 2008, 56(5): 1683-1688
Journal of Environmental Quality, 2008, 37(2): 704-711
Applied Clay Science, 2009, 46(1): 27-36
Online since: November 2015
Authors: A.L. Subramaniyan, R. Ilangovan, Arun Kumar, Sethupathi Sethupathi, T. Sorna Kumar
International journal of thermal sciences, 46, (2007),1-19
[15] Rumen Kirilov, Christian Girginov, Petko Stefchev.”Black Nanofluids for Solar Absorption on the basis of Hydrogen Peroxide treated Carbon Particles.”Advances in natural science, Theory and applications, 2: ,(2013),31-40
Otanicar, Robert A Taylor, Himanshu Tyagi “Trends and opportunities in Direct-Absorption Solar Thermal Collectors”, Journal of Thermal Science and Engineering Applications,5,(2013),021003-1
Iranian Journal of Materials Science & Engineering 8,2), (2011),48-56
[15] Rumen Kirilov, Christian Girginov, Petko Stefchev.”Black Nanofluids for Solar Absorption on the basis of Hydrogen Peroxide treated Carbon Particles.”Advances in natural science, Theory and applications, 2: ,(2013),31-40
Otanicar, Robert A Taylor, Himanshu Tyagi “Trends and opportunities in Direct-Absorption Solar Thermal Collectors”, Journal of Thermal Science and Engineering Applications,5,(2013),021003-1
Iranian Journal of Materials Science & Engineering 8,2), (2011),48-56
Online since: October 2011
Authors: Ze Zhong Chen, Ke Feng Liang, Shui Miao Wang, Jie Zheng
Finite Element Simulation and Respond Surface Optimization on Stretch Bending of Square Tube Aluminum Profile
Kefeng Liang1,a, Zezhong Chen1,b, Shuimiao Wang1,c and Jie Zheng1,d
1School of Materials Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
aliangkefeng88@126.com, bzzhchen@usst.edu.cn, cf2293349@163.com, dzhengjie0206@sina.cn
Keywords: Aluminum Profile, Stretch Bending, Finite Element Simulation, Response Surface Method, Neural Network, Genetic Algorithm
Abstract.
(In Chinese) [3] Miller J E, Kyriakdies S, Bastard A H : International Journal of Mechanical Sciences, Vol. 43 (2001) No.5, pp.1283-1371
[4] X.B.Zhou, H.Z.Gao and X.X.Li: Journal of Netshape Forming Engineer, Vol. 1 (2009) No.1, pp.7-12.
[6] G.W.Meng, L.Sha and F.Li: Journal of Jilin University (Engineering and Technology Edition), Vol. 39 (2009) No.6, pp.1516-1520.
(In Chinese) [7] L.Y.Sun, Y.J.Wang and J.B.Wang: Mechanical Science and Technology for Aerospace Engineering, Vol. 27 (2008) No.1, pp.65-68.
(In Chinese) [3] Miller J E, Kyriakdies S, Bastard A H : International Journal of Mechanical Sciences, Vol. 43 (2001) No.5, pp.1283-1371
[4] X.B.Zhou, H.Z.Gao and X.X.Li: Journal of Netshape Forming Engineer, Vol. 1 (2009) No.1, pp.7-12.
[6] G.W.Meng, L.Sha and F.Li: Journal of Jilin University (Engineering and Technology Edition), Vol. 39 (2009) No.6, pp.1516-1520.
(In Chinese) [7] L.Y.Sun, Y.J.Wang and J.B.Wang: Mechanical Science and Technology for Aerospace Engineering, Vol. 27 (2008) No.1, pp.65-68.
Online since: August 2013
Authors: Xue Jie Qi, Yun Qi, Yuan Lu Cui, Qiang Song Wang
Experimental Section
Materials.
Pan: Journal of controlled release, Vol. 162(2012), P. 628-635 [6] X.
Yao:International journal of pharmaceutics, Vol. 350(2008), P. 257-264 [7] A.
Jiang:Journal of Applied Polymer Science, Vol. 120(2011), P. 2374-2380 [8] X.
Liu: Applied Polymer Science, Vol. 121(2011), P. 3569-3578
Pan: Journal of controlled release, Vol. 162(2012), P. 628-635 [6] X.
Yao:International journal of pharmaceutics, Vol. 350(2008), P. 257-264 [7] A.
Jiang:Journal of Applied Polymer Science, Vol. 120(2011), P. 2374-2380 [8] X.
Liu: Applied Polymer Science, Vol. 121(2011), P. 3569-3578
Online since: April 2018
Authors: Olimpia Ghermec, Christian Ghermec, Elena Gavrilescu
Science.
The evolution of production technologies of renewable energies has not been possible without the evolution of the materials of which the basic functional components are mad, but the research regarding new resources of energetic raw materials.
Renewable energy systems comprise advanced materials that make the conversion of the above-mentioned sources in electric or thermal energy: · advanced materials for photovoltaic cells (semi-conductors of types GaAs, Cd-Te, or CuInSe2, semi-conductor polymers, solar cell based on nanostructure sensitized with porous nano-crystalline TiO2 dye and dyes based on ruthenium complex, complex dyes of zinc coupled with fullerenes), · advanced materials for aeolian energy (composite materials based on glass fibers, carbon fibers, Kevlar fibers, permanent magnets based on neodym).
The main components of the renewable energy systems are made of advanced materials.
Nicolescu, Methodology of transdisciplinarity – levels of reality, logic of the included middle and complexity, Transdisciplinary Journal of Engineering & Science Vol: 1, No:1, December, 2010, pp. 19-38.
The evolution of production technologies of renewable energies has not been possible without the evolution of the materials of which the basic functional components are mad, but the research regarding new resources of energetic raw materials.
Renewable energy systems comprise advanced materials that make the conversion of the above-mentioned sources in electric or thermal energy: · advanced materials for photovoltaic cells (semi-conductors of types GaAs, Cd-Te, or CuInSe2, semi-conductor polymers, solar cell based on nanostructure sensitized with porous nano-crystalline TiO2 dye and dyes based on ruthenium complex, complex dyes of zinc coupled with fullerenes), · advanced materials for aeolian energy (composite materials based on glass fibers, carbon fibers, Kevlar fibers, permanent magnets based on neodym).
The main components of the renewable energy systems are made of advanced materials.
Nicolescu, Methodology of transdisciplinarity – levels of reality, logic of the included middle and complexity, Transdisciplinary Journal of Engineering & Science Vol: 1, No:1, December, 2010, pp. 19-38.