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Online since: March 2013
Authors: C. Guo, Zhi Xian Yang, Ze Hua Liu, Zhen Dong Dai
Nano indentation techniques are convenient to study the biological materials.
Some questions are wandering in our minds like as ‘Can we learn from this to produce bio-inspired materials?
The mechanical properties of these raw materials are common.
Bolshakov: Journal of Materials Research Vol. 17 (2002), p.2660 [24] I.N.
Guo: Chinese Science Bulletin Vol. 55(2010), p.771
Some questions are wandering in our minds like as ‘Can we learn from this to produce bio-inspired materials?
The mechanical properties of these raw materials are common.
Bolshakov: Journal of Materials Research Vol. 17 (2002), p.2660 [24] I.N.
Guo: Chinese Science Bulletin Vol. 55(2010), p.771
Online since: January 2014
Authors: Xiao Chu Wang, Le Zhou, Yun Hao Bai
And, due to the axial compression ratio, shear span ratio and the amount of reinforcement influence the shear capacity of the FRP materials.
With the advancement of science and technology, the development of civil engineering disciplines are largely depend on the application and development of new materials with excellent properties and new technologies.
Conclusion With the development of science and the progress of the society, the FRP materials will be more widely applied in the field of civil engineering.
ACl Structural Journal, V .99.
Journal of Building Structures, 2000, 21(2): 59-67.
With the advancement of science and technology, the development of civil engineering disciplines are largely depend on the application and development of new materials with excellent properties and new technologies.
Conclusion With the development of science and the progress of the society, the FRP materials will be more widely applied in the field of civil engineering.
ACl Structural Journal, V .99.
Journal of Building Structures, 2000, 21(2): 59-67.
Online since: August 2008
Authors: Jia Horng Lin, Ching Wen Lou, P. Chen
The SASB was combined with two skin
materials and one core material.
Developing new sound absorption materials could effectively solve this problem.
Therefore, textiles have been widely used in sound absorption materials.
Masiak: Journal of Sound and Vibration, (1974), p. 24
Guignouard: Journal of Sound and Vibration; Vol. 156(3) (1992), p. 541
Developing new sound absorption materials could effectively solve this problem.
Therefore, textiles have been widely used in sound absorption materials.
Masiak: Journal of Sound and Vibration, (1974), p. 24
Guignouard: Journal of Sound and Vibration; Vol. 156(3) (1992), p. 541
Online since: August 2018
Authors: Zhi Wang, Zhi Hao Wang, Qian Liu, Jun Yan Wu
Yin, Research advance on brittleness of Ti-Al intermetallics, Materials Science and Engineering of Powder Metallurgy 12 (2007) 330-336
Xie, Glass formation and icosahedral medium-range order in liquid Ti-Al alloys, Computational Materials Science. 95 (2014) 502-508
Processing, spark plasma sintering, and mechanical behavior of alumina/titanium composites, Journal of Materials Science. 49 (2014) 3823-3830
Ferrante, Interface compounds formed during the diffusion, Interface compounds formed during the diffusion bonding of Al2O3 to Ti, Journal of Materials Science. 35 (2000) 4243-4249
Shen, et al, Study of the Ti/Al2O3 interface, Journal of Materials Science. 30 (1995) 339-346
Xie, Glass formation and icosahedral medium-range order in liquid Ti-Al alloys, Computational Materials Science. 95 (2014) 502-508
Processing, spark plasma sintering, and mechanical behavior of alumina/titanium composites, Journal of Materials Science. 49 (2014) 3823-3830
Ferrante, Interface compounds formed during the diffusion, Interface compounds formed during the diffusion bonding of Al2O3 to Ti, Journal of Materials Science. 35 (2000) 4243-4249
Shen, et al, Study of the Ti/Al2O3 interface, Journal of Materials Science. 30 (1995) 339-346
Online since: August 2012
Authors: Guerold Sergueevitch Bobrovinitchii, Ana Lúcia Diegues Skury, Marcia G. de Azevedo, Sérgio Neves Monteiro
Composition and granulometry of the precursor materials.
Yano: Journal Materials Science Vol. 39 (1) (2004), p. 4705
Wang: Journal of Materials Processing Technology Vol. 209 (2009), p. 355
Skury and S.N., Monteiro: Materials Science Forum Vol. 660-661 (2010), p. 837
Tang: Journal of University Of Science And Technology Beijing Vol. 31 (2009), p. 215
Yano: Journal Materials Science Vol. 39 (1) (2004), p. 4705
Wang: Journal of Materials Processing Technology Vol. 209 (2009), p. 355
Skury and S.N., Monteiro: Materials Science Forum Vol. 660-661 (2010), p. 837
Tang: Journal of University Of Science And Technology Beijing Vol. 31 (2009), p. 215
Online since: January 2012
Authors: Jun Yan, Hong Guang Li, Hai Ping Cui, Ming Qiu Wang, Shi Guo Du
Experiments
Experimental Materials.
Hao: Journal of Inorganic Materials Vol.20(2005), p. 1189(In Chinese) [5] Y.
Jose: Journal of Collid and Inerface Science (2004), p 1 [9] B.
Cui: Rare Metal Materials and Engineering Vol.38(2009), p. 468(In Chinese) [10] S.
Li: Journal of Inorganic Materials Vol.12(1997), p. 774(In Chinese) [12] D.
Hao: Journal of Inorganic Materials Vol.20(2005), p. 1189(In Chinese) [5] Y.
Jose: Journal of Collid and Inerface Science (2004), p 1 [9] B.
Cui: Rare Metal Materials and Engineering Vol.38(2009), p. 468(In Chinese) [10] S.
Li: Journal of Inorganic Materials Vol.12(1997), p. 774(In Chinese) [12] D.
Online since: April 2012
Authors: Jie Cao, Yan Liu, Zhi Gang Luo
(2)Materials.
Fiber used is cellulose fiber produced by Shanghai Royang material company
Acknowledgements This work was financially supported by Science and Technology Project of CAAC (MHRD2009206) and Beijing SME Technology Innovation Fund (Z11110305511120).
Journal of Bulding Material, 12-16
“Shrinkage cracking of high strength concrete”, ACI Materials Journal, 93(5):409-415
Fiber used is cellulose fiber produced by Shanghai Royang material company
Acknowledgements This work was financially supported by Science and Technology Project of CAAC (MHRD2009206) and Beijing SME Technology Innovation Fund (Z11110305511120).
Journal of Bulding Material, 12-16
“Shrinkage cracking of high strength concrete”, ACI Materials Journal, 93(5):409-415
Online since: December 2011
Authors: Yun Ying Fan, Ye Hua Jiang, Jian Xin Xu, Wen Quan Wang
Introduction
Composite plating technology is widely used to prepare composite materials with satisfactory performance[1~4].
Joseph: Journal of Materials Processing Technology, Vol.209(2009), p.2632 [3] K.S.
Tetsuo: Diamond and Related Materials, Vol.15(2006), p.1570 [4] J.
Chen: Advanced Materials Research, Vol.97-101(2010), p.1416 [9] S.M.
Shi: CIESC Journal, Vol.54(2003), p.886 (in Chinese)
Joseph: Journal of Materials Processing Technology, Vol.209(2009), p.2632 [3] K.S.
Tetsuo: Diamond and Related Materials, Vol.15(2006), p.1570 [4] J.
Chen: Advanced Materials Research, Vol.97-101(2010), p.1416 [9] S.M.
Shi: CIESC Journal, Vol.54(2003), p.886 (in Chinese)
Online since: November 2012
Authors: Saíd Jalali, Joana Faria, F. Pacheco-Torgal
Materials and embodied energy coefficients (EI)
Material
Quantity
EI (MJ/kg)
Ref.
Building materials with lower embodied energy.
Berge, The Ecology of Building Materials, 2º Edition, Architectural Press, ISBN 978-1-85617-537-1, Elsevier Science, 2009
Cunha, Durability analysis of bamboo as concrete reinforcement, Materials and Structures 41(2008) 981-989
Franzoni, Embodied energy of building materials: A new parameter for sustainable architectural design, International Journal of Heat and Technology 27 (2010) 163-167
Building materials with lower embodied energy.
Berge, The Ecology of Building Materials, 2º Edition, Architectural Press, ISBN 978-1-85617-537-1, Elsevier Science, 2009
Cunha, Durability analysis of bamboo as concrete reinforcement, Materials and Structures 41(2008) 981-989
Franzoni, Embodied energy of building materials: A new parameter for sustainable architectural design, International Journal of Heat and Technology 27 (2010) 163-167
Online since: June 2013
Authors: Frédéric Barlat, Krishnaswamy Hariharan, Omid Majidi, Chong Min Kim, Myoung Gyu Lee
The rate dependency of the material in mechanical properties can be utilized to enhance the formability of metallic materials.
Materials Science and Engineering: A, 2006. 421(1–2): p. 103-108
Materials Science and Engineering: A, 1993. 167(1–2): p. 73-79
Journal of Engineering Materials and Technology, 1976. 98(3): p. 193-202
Journal of Materials Processing Technology, 2011. 211(5): p. 851-862.
Materials Science and Engineering: A, 2006. 421(1–2): p. 103-108
Materials Science and Engineering: A, 1993. 167(1–2): p. 73-79
Journal of Engineering Materials and Technology, 1976. 98(3): p. 193-202
Journal of Materials Processing Technology, 2011. 211(5): p. 851-862.