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Online since: November 2015
Authors: Daniela Monica Iordache, Eduard Laurentiu Nitu, Ana Boşneag, Marius Adrian Constantin, 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.
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: 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: September 2012
Authors: Katharina Vones
3) How can the development of ‘material enchantment’ and ‘technological beauty’ enhance the use of these materials in the field of contemporary jewellery and thereby strengthen the discipline’s capacity to contribute to other spheres and to become instigators for collaborations between the creative arts and sciences?
Recent developments in the fields of materials science, interaction design and human computer interaction have contributed to a surge in interest on how to bridge the gap between the craft practitioner and scientific discovery.
While the use of smart materials in such an experimental yet theory-based context may have piqued the interest of the field, the common perception of smart materials prevalent within the contemporary jewellery community speaks of a reluctance to perceive these materials as a vehicle for artistic self-expression.
Press, All this useless beauty: the case for craft practice in design for a digital age, The Design Journal , 7 (2004) 42–53
Ube, Photomobile polymer materials: from nano to macro, Mater Today, Vol. 14, (2011) 480-487
Recent developments in the fields of materials science, interaction design and human computer interaction have contributed to a surge in interest on how to bridge the gap between the craft practitioner and scientific discovery.
While the use of smart materials in such an experimental yet theory-based context may have piqued the interest of the field, the common perception of smart materials prevalent within the contemporary jewellery community speaks of a reluctance to perceive these materials as a vehicle for artistic self-expression.
Press, All this useless beauty: the case for craft practice in design for a digital age, The Design Journal , 7 (2004) 42–53
Ube, Photomobile polymer materials: from nano to macro, Mater Today, Vol. 14, (2011) 480-487
Online since: December 2018
Authors: Kamen Tushtev, Laura Eleonora Depero, Elza Bontempi, Alessandra Zanoletti, Fabjola Bilo, Gabriele Valente, Dario Zappa, Laura Treccani
Synthesis of porous materials.
Characterization of materials.
For comparison also ceramic materials, fibers and other natural materials are reported.
Lenaerts, Photocatalytic degradation of soot deposition: Self-cleaning effect on titanium dioxide coated cementitious materials, Chemical Engineering Journal 222 (2013) 411–418
Materials and Design: The Art and Science of Material Selection in Product Design, third ed.
Characterization of materials.
For comparison also ceramic materials, fibers and other natural materials are reported.
Lenaerts, Photocatalytic degradation of soot deposition: Self-cleaning effect on titanium dioxide coated cementitious materials, Chemical Engineering Journal 222 (2013) 411–418
Materials and Design: The Art and Science of Material Selection in Product Design, third ed.
Online since: May 2020
Authors: A. Ustinov, Eugene Pitukhin
Improving the Efficiency of Protection of the Forest Fire Machine against Forest Fires with the Help of Composite Materials
A.
Traditional materials of which the cabin railings are made are heated quickly and do not effectively resist such extreme conditions.
Development of Fire-Protective Composite Material Good mechanical strength, fire safety, environmental safety open up prospects for the use of composite materials (CM), which actively entered into life and replaced traditional materials in energy, transport, electronics and other fields of activity [6-13].
Volkova, Thermophysical properties of composite materials with polymer matrix and solid solutions, М.: Science education Publ., 2011, 101 p
Shelestov, Thermal Insulation Properties Research of the Composite Material “Water Glass – Graphite Microparticles”, IOP Conference series: Materials science and engineering. 123 (2016) 012018
Traditional materials of which the cabin railings are made are heated quickly and do not effectively resist such extreme conditions.
Development of Fire-Protective Composite Material Good mechanical strength, fire safety, environmental safety open up prospects for the use of composite materials (CM), which actively entered into life and replaced traditional materials in energy, transport, electronics and other fields of activity [6-13].
Volkova, Thermophysical properties of composite materials with polymer matrix and solid solutions, М.: Science education Publ., 2011, 101 p
Shelestov, Thermal Insulation Properties Research of the Composite Material “Water Glass – Graphite Microparticles”, IOP Conference series: Materials science and engineering. 123 (2016) 012018
Online since: May 2011
Authors: Kai Yue, Lian Cun Zheng, Xin Xin Zhang, Bin Wan
The effective thermal conductivity of composite materials with spherical dispersed phase
Bin Wan 1, a, Kai Yue 1,b , Liancun Zheng 2,c and Xinxin Zhang 1,d
1Department of Thermal Engineering, University of Science and Technology Beijing
Beijing 100083, China
2Department of Mathematics & Mechanics, University of Science and Technology Beijing,
Beijing 100083, China
awanbin225@163.com, byuekai@ustb.edu.cn, cliancunzheng@163.com, dxxzhang@ustb.edu.cn
Keywords: Composite materials, ETC, Radiation, Porosity
Abstract.
Dieska: Metallic Materials, 40(2) (2002), p.74–81
Dieska: Metallic Materials, 41(4) (2003), p.152–161
Cordfunke: Journal of nuclear materials, 223 (1995), p.135-142
Kingery: Journal of American Ceramic Society, 37(1954), p.99-107.
Dieska: Metallic Materials, 40(2) (2002), p.74–81
Dieska: Metallic Materials, 41(4) (2003), p.152–161
Cordfunke: Journal of nuclear materials, 223 (1995), p.135-142
Kingery: Journal of American Ceramic Society, 37(1954), p.99-107.
Online since: December 2012
Authors: Yan Hong Wang, Hua Zhang, Zhao Hui Feng
State parameter reflects the state of blast furnace operation; also focus on the conversion characteristics of the main materials and auxiliary materials.
Journal of University of Science and Technology Beijing,2001,23(4):305-307
Journal of Materials and Metallurgy, 2002,1(2):120-123 [5] ZHA Feng-wei, LIU Qi .
Journal of Natural Gas Science and Engineering, 2011,3 (4) 555-570
Journal of University of Science and Technology Liaoning, 2010,33(3):245-247.
Journal of University of Science and Technology Beijing,2001,23(4):305-307
Journal of Materials and Metallurgy, 2002,1(2):120-123 [5] ZHA Feng-wei, LIU Qi .
Journal of Natural Gas Science and Engineering, 2011,3 (4) 555-570
Journal of University of Science and Technology Liaoning, 2010,33(3):245-247.
Online since: January 2007
Authors: Wei Peng, F.Q. Liu, Tao Gao, C.Y. Yao, Xun Lv, Ju Long Yuan
Experimental Setup
Preparation of Bonding Materials.
Journal of the ASPE Vol. 21, No 2/3 pp.134-139
Journal of materials Processing Technology, Vol. 113(2001), pp.385-388
Yao: Journal of Materials Processing Tech.
Gao: Key Engineering Materials Vol. 259(1) (2004), pp.59-63.
Journal of the ASPE Vol. 21, No 2/3 pp.134-139
Journal of materials Processing Technology, Vol. 113(2001), pp.385-388
Yao: Journal of Materials Processing Tech.
Gao: Key Engineering Materials Vol. 259(1) (2004), pp.59-63.
Online since: June 2010
Edited by: Akii Okonigbon Akaehomen Ibhadode
This periodical edition includes peer-reviewed papers based on results of scientific research and engineering solutions in different areas of modern engineering science.
Keywords:
Materials Science, Materials, Mechanics, Civil Engineering, Electrical Engineering, Cumputer Science, Environmental Engineering
Keywords:
Materials Science, Materials, Mechanics, Civil Engineering, Electrical Engineering, Cumputer Science, Environmental Engineering