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Online since: February 2014
Authors: Zhen Li, Li Xia Xu, Guo Zhu Liu, Xin Yue Li, Chun Lan Lu
Liaoning Biomedical Materials R&D center Co.
Journal of Polymer Science Part B-Polymer Physics. 2009;47(2):121-9
Characterization and testing of polymeric materials.China Light Industry Press,Beijing. 2008
Journal of Polymer Science Part B-Polymer Physics. 2009,47(2):121-129
Journal of Applied Polymer Science. 2005,97(4):1605-1620.
Journal of Polymer Science Part B-Polymer Physics. 2009;47(2):121-9
Characterization and testing of polymeric materials.China Light Industry Press,Beijing. 2008
Journal of Polymer Science Part B-Polymer Physics. 2009,47(2):121-129
Journal of Applied Polymer Science. 2005,97(4):1605-1620.
Online since: April 2021
Authors: Alexander V. Fetisov, Nikita D. Serdyukov, Vladimir A. Nosenko
The high adhesive activity of titanium alloys in interaction with abrasive materials is the main cause of poor grinding treatment.
Of the classical abrasive materials, silicon carbide is the most commonly used material for grinding titanium alloys [16-19].
[3] Masafumi Kikuchia, Yukyo Takadaa, Seigo Kiyosueb, etc., Grindbility of cast Ti-Cu alloys, Dental materials. 19 (2003) 375-381
Nosenko, Interaction intensity criterion for machined and abrasive materials in grinding (2001) Problemy Mashinostraeniya i Nadezhnos'ti Mashin. 5 (2001) 85-91
Aspinwall, Reciprocating surface grinding of a gamma titanium aluminide intermetallic alloy, Journal of Materials Processing Technology. 118 (2001) 22-28
Of the classical abrasive materials, silicon carbide is the most commonly used material for grinding titanium alloys [16-19].
[3] Masafumi Kikuchia, Yukyo Takadaa, Seigo Kiyosueb, etc., Grindbility of cast Ti-Cu alloys, Dental materials. 19 (2003) 375-381
Nosenko, Interaction intensity criterion for machined and abrasive materials in grinding (2001) Problemy Mashinostraeniya i Nadezhnos'ti Mashin. 5 (2001) 85-91
Aspinwall, Reciprocating surface grinding of a gamma titanium aluminide intermetallic alloy, Journal of Materials Processing Technology. 118 (2001) 22-28
Online since: December 2014
Authors: Qing Hao Yang, Zhen Zhong Hou, Lin Tao Yang, Deng Pan Dong, Zhong Yi Tu
The notion of defects in PPy bulk material has never been demonstrated before.
Gu, et al: Progress in Polymer Science, Vol.36 (2011) No.10, p.1415 [2]Dhibar S., Sahoo S.
:Journal of Applied Polymer Science.
Wan: Journal of Materials Chemistry, Vol.11 (2001) No.2, p.404 [16] J Bhadra, D Sarkar: Indian Journal of Physics, Vol.84 (2010) No.10, p.1321 [17] A.
Caruso: Advanced Materials, Vol.13 (2001) No.1, p. 11.
Gu, et al: Progress in Polymer Science, Vol.36 (2011) No.10, p.1415 [2]Dhibar S., Sahoo S.
:Journal of Applied Polymer Science.
Wan: Journal of Materials Chemistry, Vol.11 (2001) No.2, p.404 [16] J Bhadra, D Sarkar: Indian Journal of Physics, Vol.84 (2010) No.10, p.1321 [17] A.
Caruso: Advanced Materials, Vol.13 (2001) No.1, p. 11.
Online since: May 2014
Authors: Gerardo Antonio Rosas Trejo, J. Luis López-Miranda, M.A. Espinosa-Medina, Rodrigo Alonso Esparza Muñoz, J.R. Romero-Romero
The aim of the study of these materials is intended for use in the generation of hydrogen from water.
Rosas, DSC-TGA hydrogen evaluation during mechanical milling of AlFe intermetallic, Materials Science Forum 755 (2013) 105-110
Hirscher, Metal hydride materials for solid hydrogen storage: A review, International Journal of Hydrogen Energy 32 (2007) 1121-1140
Liu, Recent advances in ordered intermetallics, Materials Chemistry and Physics 42 (1995) 77-86
Jensen, Mechanochemical synthesis of hydrogen storage materials, Progress in Materials Science 58 (2013) 30-75
Rosas, DSC-TGA hydrogen evaluation during mechanical milling of AlFe intermetallic, Materials Science Forum 755 (2013) 105-110
Hirscher, Metal hydride materials for solid hydrogen storage: A review, International Journal of Hydrogen Energy 32 (2007) 1121-1140
Liu, Recent advances in ordered intermetallics, Materials Chemistry and Physics 42 (1995) 77-86
Jensen, Mechanochemical synthesis of hydrogen storage materials, Progress in Materials Science 58 (2013) 30-75
Online since: February 2018
Authors: Hai Lin Yang, Jian Ming Ruan, Lin Chang, Shouxun Ji, Jue Liu
Asokanmani, GOGIA A K: Progress in Materials Science, Vol. 54 (2009) No.3, p.397
(In Chinese) [6] N Sankaguchi, M Niinomi, and T Akahori: Materials Science and Engineering C, Vol. 25 (2005), p.363
Ruan: Materials Science and Engineering C, Vol 71 (2017), p.512
LIU: Journal of Materials Science & Technology, Vol.02 (2006), p.205.
Asokanmani, GOGIA A K: Progress in Materials Science, Vol. 54 (2009) No.3, p.397
(In Chinese) [6] N Sankaguchi, M Niinomi, and T Akahori: Materials Science and Engineering C, Vol. 25 (2005), p.363
Ruan: Materials Science and Engineering C, Vol 71 (2017), p.512
LIU: Journal of Materials Science & Technology, Vol.02 (2006), p.205.
Asokanmani, GOGIA A K: Progress in Materials Science, Vol. 54 (2009) No.3, p.397
Online since: November 2012
Authors: Zheng Liu, Yan Zi Liu, Jiong Li, Xin Chen
Fig. 5 Torque-strain curve of Fig. 6 Torque-strain curve of
bending tension section (H5) circumferential CFRP strip (H5)
CFRP Materials Stress Analysis
Circumferential CFRP strip of stress and strain: Fig. 6 and Fig. 7 of the CFRP strip strain-time curves were shown.
The data of finite element analysis was showed that the circumferential CFRP materials efficiency were better than longitudinal CFRP materials.
Ye: China Civil Enginering Journal, Vol. 36 (2003) No.2, p.46-51
Dhanaraj:Indian Concrete Journal, Vol. 73(1999) No.12, p.737-740
Jiang: Nonlinear finite element analysis of reinforced concrete structure (Shan xi Science and Technology Press, China 1994)
The data of finite element analysis was showed that the circumferential CFRP materials efficiency were better than longitudinal CFRP materials.
Ye: China Civil Enginering Journal, Vol. 36 (2003) No.2, p.46-51
Dhanaraj:Indian Concrete Journal, Vol. 73(1999) No.12, p.737-740
Jiang: Nonlinear finite element analysis of reinforced concrete structure (Shan xi Science and Technology Press, China 1994)
Online since: August 2019
Authors: V.V. Volkov, Ilya L. Borisov, N.V. Ushakov, E.S. Finkel’stein, E.A. Grushevenko
Such materials are polyalkylenesiloxanes.
The optimal material science solution would be to combine the properties of polymers with a siloxane and hydrocarbon chain.
Chemistry–A European Journal, 22(17) (2016) 6059-6070
Materials science of membranes for gas and vapor separation.
Science. 303 (2007) 132-139
The optimal material science solution would be to combine the properties of polymers with a siloxane and hydrocarbon chain.
Chemistry–A European Journal, 22(17) (2016) 6059-6070
Materials science of membranes for gas and vapor separation.
Science. 303 (2007) 132-139
Online since: October 2010
Authors: Feng Xing, Xian Feng Wang, Norio Hasebe
The study of debonding is of importance in providing a good understanding of the bonded interfaces of dissimilar materials.
Since Williams[1] first reported the oscillatory near-tip stress behavior of the elastic plane composed of two dissimilar materials, the problems of the interfacial crack and debonding have been discussed by many researchers.
Acknowledgment The authors gratefully acknowledge the financial support provided by the Natural Science Foundation for the team project of Guangdong Province, China (No. 9351806001000001), the National Science Fund for Distinguished Young Scholars (No. 50925829) and Shenzhen University Science and Technology Foundation.
Rice: Elastic fracture mechanics concepts for interfacial cracks, Journal of Applied Mechanics, ASME, vol. 55 (1988), p. 98
[3] M.Comninou: The interface crack, Journal of Applied Mechanics, ASME, vol. 44 (1977), p. 631
Since Williams[1] first reported the oscillatory near-tip stress behavior of the elastic plane composed of two dissimilar materials, the problems of the interfacial crack and debonding have been discussed by many researchers.
Acknowledgment The authors gratefully acknowledge the financial support provided by the Natural Science Foundation for the team project of Guangdong Province, China (No. 9351806001000001), the National Science Fund for Distinguished Young Scholars (No. 50925829) and Shenzhen University Science and Technology Foundation.
Rice: Elastic fracture mechanics concepts for interfacial cracks, Journal of Applied Mechanics, ASME, vol. 55 (1988), p. 98
[3] M.Comninou: The interface crack, Journal of Applied Mechanics, ASME, vol. 44 (1977), p. 631
Online since: November 2011
Authors: Cheng Sun, Qian Huang, Yuan Yuan Wang, Qi Ming Xian
Long-term storage of these materials is therefore not feasible, and nanoparticles must be used shortly after production.
The SEM micrographs of the different materials were shown in Fig.1.
He: Journal of Hazardous Materials.
Lu: Textile Research Journal.
Chang: Journal of Hazardous Materials.
The SEM micrographs of the different materials were shown in Fig.1.
He: Journal of Hazardous Materials.
Lu: Textile Research Journal.
Chang: Journal of Hazardous Materials.
Online since: September 2011
Authors: Zheng Huan Hu, Bao Yu Wang, Yang Jiang, Jian Guo Lin
The material of workpiece is AISI-1045.
Zheng: Materials Science and Engineering A.
Du: Journal of Materials Processing Technology.
Du: Journal of Plasticity Engineering.
Pater: Journal of Materials Processing Technology. 155-156 (2004), p. 1867-1873.
Zheng: Materials Science and Engineering A.
Du: Journal of Materials Processing Technology.
Du: Journal of Plasticity Engineering.
Pater: Journal of Materials Processing Technology. 155-156 (2004), p. 1867-1873.