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Online since: May 2011
Authors: Hui Jiang, Hui Dong Zhang, Yuan Feng Wang, De Jian Yang
Material parameters of the model.
While material properties such as ultimate plasticity strain and material strength effecting on structural bearing capacity have not be studied, which can not deeply analyze collapse mechanism of a structure.
Parameters are as follows: elasticity modules E1=2.06e11N/m2,tangent modulus E2=1.5e9N/m2,material density r=7450kg/m3,material failure strain 0.15,0.2,0.25 and kinematic hardening model is used, strain hardening is 1%.
,Yong Zhou:ASCE Journal of Engineering Mechanics, 128(1):1-6. (2002) [5] Meguro,K.
,Tagel-Din,H.: Journal of Natural Disaster Science, 24(2):65-82.(2002)
While material properties such as ultimate plasticity strain and material strength effecting on structural bearing capacity have not be studied, which can not deeply analyze collapse mechanism of a structure.
Parameters are as follows: elasticity modules E1=2.06e11N/m2,tangent modulus E2=1.5e9N/m2,material density r=7450kg/m3,material failure strain 0.15,0.2,0.25 and kinematic hardening model is used, strain hardening is 1%.
,Yong Zhou:ASCE Journal of Engineering Mechanics, 128(1):1-6. (2002) [5] Meguro,K.
,Tagel-Din,H.: Journal of Natural Disaster Science, 24(2):65-82.(2002)
Online since: November 2017
Authors: Hadi Samadian, Hamid Mobasheri, Saeed Hasanpour, Reza Faridi-Majid
Journal of materials science, 2011. 46(19): p. 6453-6456
Journal of Materials Science, 2013. 48(14): p. 4843-4850
Journal of Materials Science: Materials in Electronics, 2013. 24(10): p. 3976-3984
Materials Science and Engineering: C, 2015. 48: p. 673-678
Journal of Applied Polymer Science, 2004. 91(1): p. 242-246
Journal of Materials Science, 2013. 48(14): p. 4843-4850
Journal of Materials Science: Materials in Electronics, 2013. 24(10): p. 3976-3984
Materials Science and Engineering: C, 2015. 48: p. 673-678
Journal of Applied Polymer Science, 2004. 91(1): p. 242-246
Online since: November 2010
Authors: Shu Cai Li, L. Yang, B. Li, Y. Jiang
Research on the Propagation Pattern of 3-D Initial Crack in Rock-like
Material under Uniaxial Tension
L.
Experiments and numerical simulations were conducted to investigate the propagation patterns of pre-existing 3-D elliptical crack in rock-like material under uniaxial tension.
This fact is due to the heterogeneous of mortar material.
Chau, and Wei-Shen Zhu: submitted to International Journal of Rock Mechanics & Mining Sciences (2004)
Zhang: submitted to Chinese Journal of Geotechnical Engineering (2005).
Experiments and numerical simulations were conducted to investigate the propagation patterns of pre-existing 3-D elliptical crack in rock-like material under uniaxial tension.
This fact is due to the heterogeneous of mortar material.
Chau, and Wei-Shen Zhu: submitted to International Journal of Rock Mechanics & Mining Sciences (2004)
Zhang: submitted to Chinese Journal of Geotechnical Engineering (2005).
Online since: August 2014
Authors: Ling Yuan, Bao Chang, Jun Ying Jin
Materials and methods
Material
The materials is gramineous Hemarthria Compressa, which was supplied by the college of animal husbandry and veterinary medicine, southwest university; the soil is grey brown purple mud with the texture of sandy loam, and organic matter content 11.09g/kg, available nitrogen 56.73mg/kg, available phosphorus 15.48mg/kg, available potassium 70.00mg/kg, pH 6.89.
Liang: Journal of Nanjing Forestry University (Natural Sciences Edition), Vol.32 (2008), P.40
Wang, etc: Journal of Shangdong University (Natural Science), Vol.42 (2007), P.88
Sun, etc: Journal of Southwest Agriculture Sciences, Vol.23 (2010), P.170
Song, etc: Journal of Zhejiang Forestry Science and Technology, Vol.26 (2007), P.36
Liang: Journal of Nanjing Forestry University (Natural Sciences Edition), Vol.32 (2008), P.40
Wang, etc: Journal of Shangdong University (Natural Science), Vol.42 (2007), P.88
Sun, etc: Journal of Southwest Agriculture Sciences, Vol.23 (2010), P.170
Song, etc: Journal of Zhejiang Forestry Science and Technology, Vol.26 (2007), P.36
Online since: October 2011
Authors: Dlear Rafiq Saber, Omed Ghareb Abdullah
Narasimha Rao, "Optical properties of pure and doped PMMA-CO-P4VPNO polymer films", Materials Letters 57(30), 4678-4683 (2003)
Ryo Oono, "Distribution of carbon black in SBR", Journal of Applied Polymer Science, 21(7), 1743-1749 (1977)
Kajiwara, "Electrical properties of poly(n-butylamino) (di-allylamino) phosphazene", Journal of Material Science, 33(11), 2955-2959 (1998)
Hafez, "Physico-chemical stability of PVA films doped with Mn2+ ions against weathering conditions", The Arab Journal for Science and Engineering 34 (1A), 13-26 (2009)
Ayesh, "Electrical and optical characterization of PMMA doped with Y0.0025Si0.025 Ba0.9725(Ti(0.9)Sn0.1)O3 ceramic", Chinese Journal of Polymer Science 28(4), 537-546 (2010)
Ryo Oono, "Distribution of carbon black in SBR", Journal of Applied Polymer Science, 21(7), 1743-1749 (1977)
Kajiwara, "Electrical properties of poly(n-butylamino) (di-allylamino) phosphazene", Journal of Material Science, 33(11), 2955-2959 (1998)
Hafez, "Physico-chemical stability of PVA films doped with Mn2+ ions against weathering conditions", The Arab Journal for Science and Engineering 34 (1A), 13-26 (2009)
Ayesh, "Electrical and optical characterization of PMMA doped with Y0.0025Si0.025 Ba0.9725(Ti(0.9)Sn0.1)O3 ceramic", Chinese Journal of Polymer Science 28(4), 537-546 (2010)
Online since: April 2014
Authors: P. Inchidjuy, Waralak Jaisamritpon
Microwave heating has become an important method in chemical synthesis and materials processing.
Danjittisiri, Structures and Electrical Properties of Antimony-Doped Zinc Oxide, Materials Science, Chiang Mai University. 2008
Cui, Journal of Physica E 41 (2008) 96-100
Mayveev, Inorganic Materials, 2103, Vol. 49, No.2 pp.127-135 [16] D.
Berger, Semiconductor Materials, CRC, Boca Raton 1997
Danjittisiri, Structures and Electrical Properties of Antimony-Doped Zinc Oxide, Materials Science, Chiang Mai University. 2008
Cui, Journal of Physica E 41 (2008) 96-100
Mayveev, Inorganic Materials, 2103, Vol. 49, No.2 pp.127-135 [16] D.
Berger, Semiconductor Materials, CRC, Boca Raton 1997
Online since: January 2017
Authors: Qin Shuai, Zhong Hui Xu, Ya Hong Xu, Zao Jiang, Ping Li
Materials and Methods
Materials.
Cheesemanaetc: Journal of Nuclear Materials, Vol. 466 (2015) p.94
Vale: Journal of Hazardous Materials, Vol. 185 (2011) No.1, p.373
Zhai: Journal of Hazardous Materials, Vol. 262 (2013) No.22, p.325
Chaudhary: Journal of Materials Science, Vol. 42 (2007), No.3, p.729-746
Cheesemanaetc: Journal of Nuclear Materials, Vol. 466 (2015) p.94
Vale: Journal of Hazardous Materials, Vol. 185 (2011) No.1, p.373
Zhai: Journal of Hazardous Materials, Vol. 262 (2013) No.22, p.325
Chaudhary: Journal of Materials Science, Vol. 42 (2007), No.3, p.729-746
Online since: September 2013
Authors: Mohd Arif Anuar Mohd Salleh, Kazuhiro Nogita, Stuart Mcdonald
Gupta, Journal of Materials Engineering and Performance2010, 19, 335-341
Kangooie, Materials Science & Engineering A2011, 528, 3967-3972
Kamat, Materials Science & Engineering A2011, 529, 257-264
Arifin, Materials Science & Engineering A2012, 1-5
Chen, Materials Science and Engineering A2012, 545, 194– 200.
Kangooie, Materials Science & Engineering A2011, 528, 3967-3972
Kamat, Materials Science & Engineering A2011, 529, 257-264
Arifin, Materials Science & Engineering A2012, 1-5
Chen, Materials Science and Engineering A2012, 545, 194– 200.
Online since: February 2012
Authors: Zhao Wang Xia, Yuan Yuan Fang
Parameters considered include damper geometry, particle material and particle size.
Particle Impact Damping, Journal of Sound and Vibration, Vol.233 (2000) No.4, pp.93 [2] M.Saeki.
Impact Damping with Granular Materials in a Horizontally Vibrating System, Journal of Sound and Vibration, Vol.251 (2002) No.1, pp.153 [3] Zhaowang Xia, Yingchun Shan, Xiandong Liu.
Experimental Research on Particle Damping of Cantilever Beam, Journal of Aerospace Power, Vol.22(2007) No.10, pp.1737 [4] S.
Structural damping enhancement via non-obstructive particle damping technique, Journal of Vibration and Acoustics, Vol.114(2007), pp.101 [6] H.
Particle Impact Damping, Journal of Sound and Vibration, Vol.233 (2000) No.4, pp.93 [2] M.Saeki.
Impact Damping with Granular Materials in a Horizontally Vibrating System, Journal of Sound and Vibration, Vol.251 (2002) No.1, pp.153 [3] Zhaowang Xia, Yingchun Shan, Xiandong Liu.
Experimental Research on Particle Damping of Cantilever Beam, Journal of Aerospace Power, Vol.22(2007) No.10, pp.1737 [4] S.
Structural damping enhancement via non-obstructive particle damping technique, Journal of Vibration and Acoustics, Vol.114(2007), pp.101 [6] H.
Online since: April 2014
Authors: Siriporn Larpkiattaworn, Laksana Kreethawate, Siriporn Tong-On, Parkpoom Siriarchavatana
Tricalcium phosphate (TCP) and hydroxyapatite (HA) are materials widely used to repair and reconstruct damaged parts of bone.
Besides its, it relate to the microstructure and also improve the bioactive property of materials [4,5,6,7].
Each material and the mixture of both materials were investigated in this work.
Othman, Biocompatibility of in house b-tricalcium phosphate ceramics with normal human osteoblast cell, Journal of Engineering Science and Technology 7(2) (2012) 169-170
Arinzeh, Biphasic calcium phosphate ceramics for bone regeneration and tissue engineering applications, Materials 3 (2010) 815-826
Besides its, it relate to the microstructure and also improve the bioactive property of materials [4,5,6,7].
Each material and the mixture of both materials were investigated in this work.
Othman, Biocompatibility of in house b-tricalcium phosphate ceramics with normal human osteoblast cell, Journal of Engineering Science and Technology 7(2) (2012) 169-170
Arinzeh, Biphasic calcium phosphate ceramics for bone regeneration and tissue engineering applications, Materials 3 (2010) 815-826