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Online since: May 2011
Authors: Yan Beygelzimer
It provides simple and natural answers to a number of questions at the border between mechanics of solids and materials science.
Van Swygenhoven: Materials Science and Engineering A 483-484 (2008) p. 33 [3] U.F.
Beygelzimer: Mechanics of Materials 37 (7) (2005) p. 753 [7] N.A.Enikeev, M.F.Abdullin, A.A.Nazarov, I.J.Beyerlein: International Journal of Materials Research 98 (3) (2007) p. 167 [8] I.
[in Russian] [31] Y.Beygelzimer, A.Reshetov, S.Synkov, O.Prokof'eva, R.Kulagin: Journal of materials processing technology 209 (2009 ) p. 3650 [32] R.Z.Valiev, R.K.Islamgaliev, I.V.Alexandrov: Progress in Materials Science 45 (2000) p. 103 [33] X.
Pippan: Materials Science and Engineering A 410–411 (2005) p. 345
Van Swygenhoven: Materials Science and Engineering A 483-484 (2008) p. 33 [3] U.F.
Beygelzimer: Mechanics of Materials 37 (7) (2005) p. 753 [7] N.A.Enikeev, M.F.Abdullin, A.A.Nazarov, I.J.Beyerlein: International Journal of Materials Research 98 (3) (2007) p. 167 [8] I.
[in Russian] [31] Y.Beygelzimer, A.Reshetov, S.Synkov, O.Prokof'eva, R.Kulagin: Journal of materials processing technology 209 (2009 ) p. 3650 [32] R.Z.Valiev, R.K.Islamgaliev, I.V.Alexandrov: Progress in Materials Science 45 (2000) p. 103 [33] X.
Pippan: Materials Science and Engineering A 410–411 (2005) p. 345
Online since: July 2016
Authors: Duangrudee Chaysuwan, Jia Bai, Thapanee Srichumpong, Kallaya Suputtamongkol, Warat Chinpanuwat, Pronbadin Nampachoke, Sukanda Angkulpipat, Sahadsaya Prasertwong
materials.
Noort, Introduction Dental Materials, fourth ed.,: E-Publishing Inc.
Yamashita, Machinable glass-ceramics forming as a restorative dental material, Dental Materials Journal 30(3) (2011) 358-367
Boccaccini, Glass-ceramics: Their production from wastes- A review, Journal of Materials Science. 41(3) (2006) 733-761
Branda, Nucleation in glass and differential thermal analysis, Journal of Materials Science. 16 (1981) 341-344
Noort, Introduction Dental Materials, fourth ed.,: E-Publishing Inc.
Yamashita, Machinable glass-ceramics forming as a restorative dental material, Dental Materials Journal 30(3) (2011) 358-367
Boccaccini, Glass-ceramics: Their production from wastes- A review, Journal of Materials Science. 41(3) (2006) 733-761
Branda, Nucleation in glass and differential thermal analysis, Journal of Materials Science. 16 (1981) 341-344
Online since: August 2016
Authors: Thomas Ebel, Anok Babu Nagaram
Research on biomaterials is connected inherently with the various aspects of materials science, chemistry, biology and medicine.
Rack* Titanium alloys in total joint replacement—a materials science perspective Biomaterials 19 (1998) 1621-1639
Progress in Materials Science 54 (2009) 397
Katerska, Some Biocompatible Materials Used in Medical Pratice, Trakia Journal of Science, 8 (2010) 119-125
Silva, Carlos Cairo, Production of new titanium alloy for orthopedic implants, Materials Science and Engineering: C, 24 (2004) 683-687
Rack* Titanium alloys in total joint replacement—a materials science perspective Biomaterials 19 (1998) 1621-1639
Progress in Materials Science 54 (2009) 397
Katerska, Some Biocompatible Materials Used in Medical Pratice, Trakia Journal of Science, 8 (2010) 119-125
Silva, Carlos Cairo, Production of new titanium alloy for orthopedic implants, Materials Science and Engineering: C, 24 (2004) 683-687
Online since: January 2018
Authors: Jiří Brožovský, Tomáš Jarolím, Naděžda Pizúrová, Dominik Šácha
Nanoparticles are the most worldwide examining in materials science.
Journal Wuham University of Technology – Materials Science Edition 2014, Vol. 29, Issue 3, pp. 513-517.
Construction and Building Materials .Elsevier 2013, Vol. 49, pp. 527-535.
Advances in Materials Science and Engineering, 2016, no. 2016, p. 1-6.
Highly-dispersed carbon nanotube-reinforced cement-based materials.
Journal Wuham University of Technology – Materials Science Edition 2014, Vol. 29, Issue 3, pp. 513-517.
Construction and Building Materials .Elsevier 2013, Vol. 49, pp. 527-535.
Advances in Materials Science and Engineering, 2016, no. 2016, p. 1-6.
Highly-dispersed carbon nanotube-reinforced cement-based materials.
Online since: February 2014
Authors: Ritu Gupta, Norrozila Sulaiman, Mohammed Dalour Hossain Beg, Arun Gupta
NFRPC’s can also be made successfully with recycled materials [3].
Scientists have investigated with many materials, which are helpful to improve the compatibility between the two materials that are not compatible [12].
Clyne, An introduction to composite materials.
Sheldon, Composite Polymeric Materials” (Applied Science, London) (1982). p. 58
Journal of Applied Polymer Science (1989). 37: 751–775
Scientists have investigated with many materials, which are helpful to improve the compatibility between the two materials that are not compatible [12].
Clyne, An introduction to composite materials.
Sheldon, Composite Polymeric Materials” (Applied Science, London) (1982). p. 58
Journal of Applied Polymer Science (1989). 37: 751–775
Online since: June 2010
Authors: Zhen Jia, Guo Liang Li, Jian Li
The objective of this paper is to apply the wood-based composite materials into the field of
intelligent decorative materials or wooden crafts materials, and then improve people's life quality in
the micro-environment.
With the development of science technology, people come up with higher and higher demands on materials utilization.
The traditional structural materials and functional materials can not meet the requirements of these technologies.
The development of materials science is turning from the traditional and single, only having the carrying capacity of structural materials or functional materials to the multi-functional, intelligent, structural materials.
Journal of Northeast Forestry University, vol.23 (1995), p. 95-100 [3] Cai Honghua, Luo Zhongkuan: The development Status of Photochromic Materials and its Application Prospects in the Architecture.
With the development of science technology, people come up with higher and higher demands on materials utilization.
The traditional structural materials and functional materials can not meet the requirements of these technologies.
The development of materials science is turning from the traditional and single, only having the carrying capacity of structural materials or functional materials to the multi-functional, intelligent, structural materials.
Journal of Northeast Forestry University, vol.23 (1995), p. 95-100 [3] Cai Honghua, Luo Zhongkuan: The development Status of Photochromic Materials and its Application Prospects in the Architecture.
Online since: June 2014
Authors: Hong Xun Wang, Wei Fang Zhang, Xiao Liang Fang
The research process and application prospect of the smart piezoelectric materials
Xiaoliang Fang1, a, Weifang Zhang1, b, Hongxun Wang 1, c
1BeiHang University, School of Reliability and Systems Engineering, Science & Technology Laboratory on Reliability & Environment Engineering, XueYuan Road No.37,HaiDian District, Beijing, China.
The common perception materials include photosensitive materials, heat-sensitive materials, moisture-sensitive materials, acoustic emission material, inductor material, shape memory materials, magnetostrictive materials, piezoelectric materials etc.
The common actuating materials include shape-memory materials, electrostrictive materials, electrorheological fluids, magnetostrictive material, magnetorheological fluid and piezoelectric materials [2, 3, 4].
With the rapid development of the materials science, microelectronics and computer technology, the piezoelectric materials show broad prospect of application which catches the interests of the global scientists.
Zhang et al: Chinese Journal Sensors and Actuators.
The common perception materials include photosensitive materials, heat-sensitive materials, moisture-sensitive materials, acoustic emission material, inductor material, shape memory materials, magnetostrictive materials, piezoelectric materials etc.
The common actuating materials include shape-memory materials, electrostrictive materials, electrorheological fluids, magnetostrictive material, magnetorheological fluid and piezoelectric materials [2, 3, 4].
With the rapid development of the materials science, microelectronics and computer technology, the piezoelectric materials show broad prospect of application which catches the interests of the global scientists.
Zhang et al: Chinese Journal Sensors and Actuators.
Online since: October 2012
Authors: Cheng Hua Shi, Li Min Peng, Juan Huang, Zu De Ding
Most scholars treat traffic loading as cyclic loading to study the deformation characteristic of weak geotechnical materials.
On the other hand, the test is mainly developed on particular geotechnical materials, which makes the test results have too many regional features, and can't truly reflect the essence of geotechnical materials under cyclic dynamic loading.
The two-surfaced model is first put forward by Krieg (1975) and Dafalias (1975) and is applied to metal materials.
Later, Mroze (1979) and Bardet (1985) applied this theory to describe constitutive properties of geotechnical materials under cyclic load.
A model for nonlinearly hardening materials for complex loading.
On the other hand, the test is mainly developed on particular geotechnical materials, which makes the test results have too many regional features, and can't truly reflect the essence of geotechnical materials under cyclic dynamic loading.
The two-surfaced model is first put forward by Krieg (1975) and Dafalias (1975) and is applied to metal materials.
Later, Mroze (1979) and Bardet (1985) applied this theory to describe constitutive properties of geotechnical materials under cyclic load.
A model for nonlinearly hardening materials for complex loading.
Online since: February 2011
Authors: Jin Xiang Chen, Su Jun Guan, Shun Hua Zhang, Jing Jing Zheng, Juan Xie, Yun Lu
Tu: New Building Materials Vol. 7(2001), p. 10-12
[4] A.
Xu: Journal of Hazardous Materials Vol. 179(2010), p. 203-207 [7] Q.
Tao: Polymer Materials Science & Engineering Vol. 22(2006), p. 231-234 [11] W.
Sucharda: Journal of Composite Materials May Vol. 43(2009), p. 1109-1120 [21] Q.
Wu: Materials Review Vol. 23(2007), p. 112-115 [26] M.
Xu: Journal of Hazardous Materials Vol. 179(2010), p. 203-207 [7] Q.
Tao: Polymer Materials Science & Engineering Vol. 22(2006), p. 231-234 [11] W.
Sucharda: Journal of Composite Materials May Vol. 43(2009), p. 1109-1120 [21] Q.
Wu: Materials Review Vol. 23(2007), p. 112-115 [26] M.
Online since: November 2014
Authors: Mohd Faris Khamidi, Nadzhratul Husna Ahmad Puad, Syed Ahmad Farhan, Khairun Azizi Azizli
Aerogel is one of the best insulation materials with distinctive properties that can replace existing building insulation materials such as fibre glass and polyurethane.
Thermal insulation is a material or combination of materials that can retard the rate of heat flow by conduction, convection, and radiation.
Review on reinforcement of insulation materials.
Hyun, Effect of mixing on thermal and mechanical properties of Aerogel-PVB composites, Journal of Materials Science, 38 (2003) 1961-1966
Du, Thermal conductivities study on silica Aerogel and its composite insulation materials, Journal of Heat and Mass Transfer, 54 (2011) 2355-2366
Thermal insulation is a material or combination of materials that can retard the rate of heat flow by conduction, convection, and radiation.
Review on reinforcement of insulation materials.
Hyun, Effect of mixing on thermal and mechanical properties of Aerogel-PVB composites, Journal of Materials Science, 38 (2003) 1961-1966
Du, Thermal conductivities study on silica Aerogel and its composite insulation materials, Journal of Heat and Mass Transfer, 54 (2011) 2355-2366