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Online since: October 2013
Authors: Bo Huang
Since friction between the foot and the ground is an important force in most sports, modern athletic shoes are designed to maximize this force, and materials, such as rubber, are used.
Journal of Dance Medicine & Science 2011, Vol. 15 Issue 2, p61 [3] Griffiths, Ian.
Journal of Sports Sciences Feb 2011, Vol. 29 Issue 4, p373 [5] Hagen, Marco; Hennig, Ewald M.
Journal of Sports Sciences Feb 2009, Vol. 27 Issue 3, p267 [6] Hennig, Ewald M.
Journal of Sports Science & Medicine Dec2009, Vol. 8 Issue 4, p607 [8] Odebiyi, Daniel O.; Ajiboye, Eyitola O.; Jaja, Smith I.
Journal of Dance Medicine & Science 2011, Vol. 15 Issue 2, p61 [3] Griffiths, Ian.
Journal of Sports Sciences Feb 2011, Vol. 29 Issue 4, p373 [5] Hagen, Marco; Hennig, Ewald M.
Journal of Sports Sciences Feb 2009, Vol. 27 Issue 3, p267 [6] Hennig, Ewald M.
Journal of Sports Science & Medicine Dec2009, Vol. 8 Issue 4, p607 [8] Odebiyi, Daniel O.; Ajiboye, Eyitola O.; Jaja, Smith I.
Online since: March 2020
Authors: Ikram El Abbassi, Cheikh Sidi Ethmane Kane, A. Moumen Darcherif, Mamoudou Ndongo, Labouda Ba
From the tables, we can deduce that in this bibliographic study, 1/3 of the materials are used for thermal insulation and the remaining 2/3 for building materials (the mixture of insulation materials and building materials).
Generally, materials used as building materials have good mechanical performance.
The materials are either insulation materials or building materials with the addition of insulation materials to improve thermal performance (refer with: Table 7).
[17] Y Elhamdouni, A Khabbazi, C Benayad, S Mounir, A Dadi, Thermophysical and mechanical characterization of clay bricks reinforced by alfa or straw fibers, IOP Conference Series: Materials Science and Engineering. 186 (2017)
Oussouaddi, Thermal insulation improvement in construction materials by adding spent coffee grounds: An experimental and simulation study, Journal of Cleaner Production 209 (2019) 1411-1419
Generally, materials used as building materials have good mechanical performance.
The materials are either insulation materials or building materials with the addition of insulation materials to improve thermal performance (refer with: Table 7).
[17] Y Elhamdouni, A Khabbazi, C Benayad, S Mounir, A Dadi, Thermophysical and mechanical characterization of clay bricks reinforced by alfa or straw fibers, IOP Conference Series: Materials Science and Engineering. 186 (2017)
Oussouaddi, Thermal insulation improvement in construction materials by adding spent coffee grounds: An experimental and simulation study, Journal of Cleaner Production 209 (2019) 1411-1419
Online since: May 2011
Authors: Shi Qun Guo, Zhen Yang
Fundamental solutions of a normal force in semi-infinite coating materials.
In common, main failure of coating materials is delamination.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2196-2203 [3] T.Y.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2204-2209 [4] H.
Fischer-Cripps: Journal of Materials Science, Vol. 32(1997): p. 5653-5659 [6] J.F.
In common, main failure of coating materials is delamination.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2196-2203 [3] T.Y.
Nix: Journal of Materials Research, Vol. 14(1999): p. 2204-2209 [4] H.
Fischer-Cripps: Journal of Materials Science, Vol. 32(1997): p. 5653-5659 [6] J.F.
Online since: September 2017
Authors: Tatyana Lesnikova, A. Korinteli, I.V. Cherunova
This causes a variation of the properties of textile materials that depend on the concentration of aggressive components in the structure of textile materials.
Khalil, Textile Environmental Conditioning: Effect of Relative Humidity Variation on the Tensile Properties of Different Fabrics, Journal of Analytical Sciences, 2 (2012) 92-97
Yodh, Rheology of Soft Materials Annual Reviews, 2010
Punjee, Extraction Methods for Tuberose Oil and Their Chemical Components, Kasetsart Journal: Natural Science, 43 (2009) 204-211
Cherunov, Study of the structural and acoustic properties of clothing materials for thermal protection of human, International Journal of Applied Engineering Research, 19(10) (2015) 40506-40512
Khalil, Textile Environmental Conditioning: Effect of Relative Humidity Variation on the Tensile Properties of Different Fabrics, Journal of Analytical Sciences, 2 (2012) 92-97
Yodh, Rheology of Soft Materials Annual Reviews, 2010
Punjee, Extraction Methods for Tuberose Oil and Their Chemical Components, Kasetsart Journal: Natural Science, 43 (2009) 204-211
Cherunov, Study of the structural and acoustic properties of clothing materials for thermal protection of human, International Journal of Applied Engineering Research, 19(10) (2015) 40506-40512
Online since: September 2013
Authors: Xiao Dong Li
Biomimetic materials and industrial design
Biomimetic materials refer to materials that imitate various biological characteristics or features to develop.
Usually those that modeled on the operation of the living system and the structure law of biological materials to design and manufacture of artificial materials called biomimetic materials.
Human modified materials by imitation and innovation of biological function, through the combination of science and nature, create more new materials for human.
[2] Lang Li-juan,Jiang Wen, Innovative Production Design Based on M aterial Characteristics, Journal of Guangdong University of Technology (Social Sciences Edition), 12(2012) 77-78
The leading journal for enterprise, (2011) 263-264
Usually those that modeled on the operation of the living system and the structure law of biological materials to design and manufacture of artificial materials called biomimetic materials.
Human modified materials by imitation and innovation of biological function, through the combination of science and nature, create more new materials for human.
[2] Lang Li-juan,Jiang Wen, Innovative Production Design Based on M aterial Characteristics, Journal of Guangdong University of Technology (Social Sciences Edition), 12(2012) 77-78
The leading journal for enterprise, (2011) 263-264
Online since: February 2011
Authors: Chang Bing Chen
In this paper, lateral pressure of bulk materials in silos is discussed.
With the increase of the height of bulk materials, this deviation may become greater and greater.
Journal of Engineering Mechanics, Vol. 127, No. 10, (2001), p. 1033-1043
Journal of Building Structures, Vol. 16, No. 5, (1995), p. 57-63.
Architectural Science, Vol. 14, No. 4, (1998), p. 14-18.
With the increase of the height of bulk materials, this deviation may become greater and greater.
Journal of Engineering Mechanics, Vol. 127, No. 10, (2001), p. 1033-1043
Journal of Building Structures, Vol. 16, No. 5, (1995), p. 57-63.
Architectural Science, Vol. 14, No. 4, (1998), p. 14-18.
Online since: June 2013
Authors: Tang Wei Liu, He Hua Xu, Xue Lin Qiu, Xiao Bin Shi
Multiscale Parameter Identification Method for Three Dimension Steady
Heat Transfer Model of Composite Materials
TangWei Liu1,2,3,a , HeHua Xu1,b , XueLin Qiu1,c , and XiaoBin Shi1,d
1CAS Key Laboratory of Marginal Sea Geology, South China Sea Institute of Oceanology,
Chinese Academy of Sciences, Guangzhou, 510301,P.
China atwliu@ecit.cn, b xhhcn@scsio.ac.cn, c xlqiu@scsio.ac.cn, d xbshi@scsio.ac.cn Keywords: Multiscale Method, Parameter Identification, Three Dimension Heat Transfer Model, Composite Materials.
In this paper, for heat conductivity identification of three dimension steady heat transfer model of composite materials, a new hybrid Tikhonov regularization mixed multiscale finite-element method is present.
Method of Inverse Problem for Surface Heat Flux(in Chinese), Journal of Nanchang University(Natural Science), 29(3):261-265(2005) [12] HE Xinguang , REN Li, Adaptive multiscale finite element method for unsaturated flow in heterogeneous porous media I.
Numerical scheme(in Chinese), SHUILI XUEBAO, 40(1),38- 45(2009) [13] XUE Yu-qun, YE Shu-jun, XIE Chun-hong, ZHANG Yun, Application of multi-scale finite element method to simulation of groundwater flow(in Chinese), SHUILI XUEBAO,7,7-13(2004) [14] Aixiang Huang, TianXiao Zhou, Theories and Methods of Finite Element(I)(in Chinese), Science Press, Beijing, 164-167(2009) [15] Yu Changming, Numerical Analysis of Heat and Mass Transfer for Porous Materials(in Chinese), TsingHua University Press,Beijing(2011) [16] Curtis R.
China atwliu@ecit.cn, b xhhcn@scsio.ac.cn, c xlqiu@scsio.ac.cn, d xbshi@scsio.ac.cn Keywords: Multiscale Method, Parameter Identification, Three Dimension Heat Transfer Model, Composite Materials.
In this paper, for heat conductivity identification of three dimension steady heat transfer model of composite materials, a new hybrid Tikhonov regularization mixed multiscale finite-element method is present.
Method of Inverse Problem for Surface Heat Flux(in Chinese), Journal of Nanchang University(Natural Science), 29(3):261-265(2005) [12] HE Xinguang , REN Li, Adaptive multiscale finite element method for unsaturated flow in heterogeneous porous media I.
Numerical scheme(in Chinese), SHUILI XUEBAO, 40(1),38- 45(2009) [13] XUE Yu-qun, YE Shu-jun, XIE Chun-hong, ZHANG Yun, Application of multi-scale finite element method to simulation of groundwater flow(in Chinese), SHUILI XUEBAO,7,7-13(2004) [14] Aixiang Huang, TianXiao Zhou, Theories and Methods of Finite Element(I)(in Chinese), Science Press, Beijing, 164-167(2009) [15] Yu Changming, Numerical Analysis of Heat and Mass Transfer for Porous Materials(in Chinese), TsingHua University Press,Beijing(2011) [16] Curtis R.
Online since: August 2010
Authors: Yuan Hua Xie, Shi Wei Zhang, Li Yuan Hou, Yong Chao Han
Material Science and Engineering, B69-70 (2000), p. 500
[2] Wu.
J.of Membrane Science, 172 (2000), p. 199 [3] C.
Nanostructured Materials, 3 (1993), P. 19 [6] C.
Materials Science and Engineering, A220 (1996), P. 69 [8] Ye Lingying, Zhang Xinming, Zheng Dawei, et al.
Journal of Materials Processing Technology, 209 (2009), P. 3300 [10] J.
J.of Membrane Science, 172 (2000), p. 199 [3] C.
Nanostructured Materials, 3 (1993), P. 19 [6] C.
Materials Science and Engineering, A220 (1996), P. 69 [8] Ye Lingying, Zhang Xinming, Zheng Dawei, et al.
Journal of Materials Processing Technology, 209 (2009), P. 3300 [10] J.
Online since: July 2011
Authors: Yu Shan Zhang, Dong Mei Cao, Jia Kai Zhang, Hong Wei Zhang, Luo Feng Liu
The achievements will lay solid foundation for the development of lithium adsorption materials.
These ion-sieve materials have so many advantages, such as good selectivity, low cost, large adsorption capacity and stable chemical constitution, which make them the most prospective green materials for the industry of lithium extraction[2,3].
Table 1 Experimental factors and levels factor A Li/Mn ratio of raw materials B addition of oxidant /ml C holding time /h level 1 2 3 3.5 4 4.5 60 95 115 12 18 24 Evaluation index: adsorption capacity of the adsorption materials Q (mg/g).
Moreover, the significance level of Li/Mn ratio of raw materials is 0.1.
References [1] Ting Chen, Shuyi Yan, Zihua Kang: Jounral of Salt and Chemical Industry, Vol. 36 (2007), p. 19 (In Chinese) [2] Kelleman D G, Gorshkov V S: Russian Journal of Electrochemisty, Vol. 37 (2001), p. 1227 [3] Koyanaka H, Matsubaya O, Koyanaka Y, et al: Journal of Electroanalytical Chemistry, Vol. 559 (2003), p. 77 [4] Chitrakar R, Kanoh H, Miyai Y, et a1: Ind Eng Chem Res, Vol. 40 (2001), p. 2054 [5] Kaitai Fang, Changxing Ma: Orthogonal and Uniform Experimental Design (Science Press, CHN 2001)
These ion-sieve materials have so many advantages, such as good selectivity, low cost, large adsorption capacity and stable chemical constitution, which make them the most prospective green materials for the industry of lithium extraction[2,3].
Table 1 Experimental factors and levels factor A Li/Mn ratio of raw materials B addition of oxidant /ml C holding time /h level 1 2 3 3.5 4 4.5 60 95 115 12 18 24 Evaluation index: adsorption capacity of the adsorption materials Q (mg/g).
Moreover, the significance level of Li/Mn ratio of raw materials is 0.1.
References [1] Ting Chen, Shuyi Yan, Zihua Kang: Jounral of Salt and Chemical Industry, Vol. 36 (2007), p. 19 (In Chinese) [2] Kelleman D G, Gorshkov V S: Russian Journal of Electrochemisty, Vol. 37 (2001), p. 1227 [3] Koyanaka H, Matsubaya O, Koyanaka Y, et al: Journal of Electroanalytical Chemistry, Vol. 559 (2003), p. 77 [4] Chitrakar R, Kanoh H, Miyai Y, et a1: Ind Eng Chem Res, Vol. 40 (2001), p. 2054 [5] Kaitai Fang, Changxing Ma: Orthogonal and Uniform Experimental Design (Science Press, CHN 2001)
Online since: November 2015
Authors: Ana Boşneag, Marius Adrian Constantin, Daniela Monica Iordache, Eduard Laurentiu Nitu, Alin Rizea
Introduction
In terms of appearance, composite materials are very old, but metal matrix composite materials have emerged in the 1970s.
Ma, Tensile properties and strain-hardening behaviour of friction stir welded SiCp/AA2009 composite joints, Materials Science & Engineering.
Suri, An Improved FSW Tool for Joining Commercial Aluminum Plates, Procedia Materials Science. 6 (2014) 1857 – 1864
Ma, Friction stir welding and processing, Materials Science and Engineering R. 50 (2005) 1–78
Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters, Materials and Design. 56 (2014) 185–192.
Ma, Tensile properties and strain-hardening behaviour of friction stir welded SiCp/AA2009 composite joints, Materials Science & Engineering.
Suri, An Improved FSW Tool for Joining Commercial Aluminum Plates, Procedia Materials Science. 6 (2014) 1857 – 1864
Ma, Friction stir welding and processing, Materials Science and Engineering R. 50 (2005) 1–78
Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters, Materials and Design. 56 (2014) 185–192.