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Online since: June 2014
Authors: Fábio Roverto Chavarette, Nelson José Peruzzi, Douglas da Costa Ferreira
Journal of Micro/Nanolithography, MEMS, and MOEMS, 11(3), (2012)
Journal of Micromechanics and Microengineering, No. 21, (2011)
Applied Mechanics and Materials, Vols. 138-139 (2012)
Nonlinear science and numerical simulation, 1397, pp. 1246-1255, 2008
Applied Mechanics and Materials Vols. 52-54 (2011)
Journal of Micromechanics and Microengineering, No. 21, (2011)
Applied Mechanics and Materials, Vols. 138-139 (2012)
Nonlinear science and numerical simulation, 1397, pp. 1246-1255, 2008
Applied Mechanics and Materials Vols. 52-54 (2011)
Online since: December 2012
Authors: Wan You Zhang, Rui Yuan Zhang, Lijuan Xi
The test scheme
Raw materials and sample preparation.
Journal of Southeast University(Natural Science Edition), 2006, 36: 139-144 [2] YuanYingshu, Zhang Xinsen, Ji Yongsheng.
China Civil Engineering Journal 2006, 39 ( 3 ): 42-46 [3] Ma Liangzhe, Chen Huijuan, Bai Changju.
Journal of Building Structures, 2011, 32(2): 41-47 [5] TamerA, Khaled A.
Journal of Materials in Civil Engineering, 2003, 15(1): 41-47
Journal of Southeast University(Natural Science Edition), 2006, 36: 139-144 [2] YuanYingshu, Zhang Xinsen, Ji Yongsheng.
China Civil Engineering Journal 2006, 39 ( 3 ): 42-46 [3] Ma Liangzhe, Chen Huijuan, Bai Changju.
Journal of Building Structures, 2011, 32(2): 41-47 [5] TamerA, Khaled A.
Journal of Materials in Civil Engineering, 2003, 15(1): 41-47
Online since: February 2014
Authors: Da Shen, Wei Hong Huang, Jin Yu Chu
References
[1] Mehmet Kobya, Orhan Taner Can, Mahmut Bayramoglu: Journal of Hazardous Materials. 100 (2003) 163–178
[2] Manuel Carmona, Mohamed Khemisb, Jean-Pierre Leclercb: Chemical Engineering Science. 61 (2006) 1237–1246
[4] Engracia Lacasa, Pablo Ca˜nizares, Cristina Saez: Chemical Engineering Journal. 172 (2011) 137-143
De Petris-Wery: Journal of Hazardous Materials. 168 (2009) 983–991
Morán: Journal of Environmental Management. 122 (2013) 1-7
[2] Manuel Carmona, Mohamed Khemisb, Jean-Pierre Leclercb: Chemical Engineering Science. 61 (2006) 1237–1246
[4] Engracia Lacasa, Pablo Ca˜nizares, Cristina Saez: Chemical Engineering Journal. 172 (2011) 137-143
De Petris-Wery: Journal of Hazardous Materials. 168 (2009) 983–991
Morán: Journal of Environmental Management. 122 (2013) 1-7
Online since: September 2012
Authors: Fernando B.N. Ferreira, M. Conceição Paiva, Alexandre Ferreira
In the second group are the conductive yarns, conventional yarns modified with various functional materials, conducting polymer or carbon fibre, which are flexible materials developed to incorporate electronics and transducer yarns [4, 5].
Carbon nanotubes are a class of new materials that has been showing potential for sensing application.
Experimental Materials.
The materials used and the composites prepared are described in Table 1.
De Rossi, et al., Dressware: wearable hardware, Materials Science and Engineering: C,. 7 (1999) 31-35
Carbon nanotubes are a class of new materials that has been showing potential for sensing application.
Experimental Materials.
The materials used and the composites prepared are described in Table 1.
De Rossi, et al., Dressware: wearable hardware, Materials Science and Engineering: C,. 7 (1999) 31-35
Online since: June 2014
Authors: Alexandra Levesque, Delphine Retraint, Hicham Benhayoune, A. Poznanski, V. Steenhout, Clémence Demangel
Journal of the Mechanical Behavior of Biomedical Materials, 6 June 2013
Materials end Design 32 (2011) 3287-3292
Materials Science Forum Vol. 579 (2008) pp 91-108
Materials Science and Engineering A 375-377 (2004) 38-45
Materials Science and Engineering C 29 (2009) 153–158.
Materials end Design 32 (2011) 3287-3292
Materials Science Forum Vol. 579 (2008) pp 91-108
Materials Science and Engineering A 375-377 (2004) 38-45
Materials Science and Engineering C 29 (2009) 153–158.
Online since: July 2021
Authors: Farrukh Aminov, Zafar Okhunov, Olim Rasulov, Amirkhon Aminov, Shivam Mishra
Next, we select materials for shotcrete, which must meet certain standards (GOST 27006-86).
The highest priority was given to the environmental friendliness of the materials used for the preparation of solutions.
“Materials used for Insulation in Buildings and Energy Savings, Residential Constructions, (2004) 16-18
Scientific and information journal MUIT.
Science and Innovation Technologies, Bishkek, (2016) 301-305
The highest priority was given to the environmental friendliness of the materials used for the preparation of solutions.
“Materials used for Insulation in Buildings and Energy Savings, Residential Constructions, (2004) 16-18
Scientific and information journal MUIT.
Science and Innovation Technologies, Bishkek, (2016) 301-305
Online since: September 2007
Authors: Gui Ping Zhao, Jian Xin Zhang, Qiao Ping Huang, Zheng Hao Wang
A rate dependent model was introduced to simulate
the material response.
Introduction There is increasing interest in using advanced composite materials to construct structures that would be subject to blast and impact loading.
Results and Analyses As shown in Fig.3, the tensile strength and initial elastic modulus of the T300 /Epoxy composites for both stacking sequences of [(0/45/90/-45)2]s and [(45/-45)4]s are rate sensitive materials.
T300/Epoxy composites are strain rate dependent materials.
Welsh: Journal of Materials Science Vol. 18 (1983), p. 1810 0. 0 0. 5 1. 0 1. 5 2. 0 2. 5 0 150 300 450 600 750 900 St r es s / MPa St r ai n/ % H- 0- 1 H- 0- 2 H- 0- 3 H- 0- 4 St r es s r at e: 995 1/ s 0 1 2 3 4 0 50 100 150 200 250 St r es s / MPa St r ai n/ % H- 45- 1 H- 45- 2 H- 45- 3 St r ai n r at e: 787 1/ s
Introduction There is increasing interest in using advanced composite materials to construct structures that would be subject to blast and impact loading.
Results and Analyses As shown in Fig.3, the tensile strength and initial elastic modulus of the T300 /Epoxy composites for both stacking sequences of [(0/45/90/-45)2]s and [(45/-45)4]s are rate sensitive materials.
T300/Epoxy composites are strain rate dependent materials.
Welsh: Journal of Materials Science Vol. 18 (1983), p. 1810 0. 0 0. 5 1. 0 1. 5 2. 0 2. 5 0 150 300 450 600 750 900 St r es s / MPa St r ai n/ % H- 0- 1 H- 0- 2 H- 0- 3 H- 0- 4 St r es s r at e: 995 1/ s 0 1 2 3 4 0 50 100 150 200 250 St r es s / MPa St r ai n/ % H- 45- 1 H- 45- 2 H- 45- 3 St r ai n r at e: 787 1/ s
Online since: March 2016
Authors: Yun Kai Li, Xiao Cong Hang
So the second method, which is called the confinement mechanism was discussed in this paper.[5-7] And firstly the theory of crack propagation of ceramic materials was discussed.
It is mainly used to investigate the strength of the brittle materials including ceramics.
And adding the lateral confinement to the specimen is an effective method, because it will produce compressive stress in materials, just like the Fig.1 (b) showed.
Jiao, Physical properties of inorganic materials, Tsinghua University Press, 2011
Wang, Influence of ceramic confined effect on ballistic performance of composite armor, Ordnance material science and engineering. 31(2008) 61-64.
It is mainly used to investigate the strength of the brittle materials including ceramics.
And adding the lateral confinement to the specimen is an effective method, because it will produce compressive stress in materials, just like the Fig.1 (b) showed.
Jiao, Physical properties of inorganic materials, Tsinghua University Press, 2011
Wang, Influence of ceramic confined effect on ballistic performance of composite armor, Ordnance material science and engineering. 31(2008) 61-64.
Online since: July 2014
Authors: S.T. Selvamani, K. Palanikumar, K. Umanath, K. Vigneswar
American Society for Testing of Materials (ASTM E8M-04) deliberating principle were followed in preparing the test specimens.
Characterization of mechanical properties in AISI 1040 parts welded by friction welding, Materials Characterization 58 (2007) 1033–1038
Akata, Joining with friction welding of plastically deformed steel, Journal of Material Processing Technology 142(1) (2003) 239–46
Karthikeyan, Assessment of factors influencing surface roughness on the machining of glass fiber-reinforced polymer composites, Materials and Design 27(2006) 862–871
Sunderesan, Structure and properties of friction welds between high-speed steel and medium carbon steel for bimetal tools, Material Science and Techno lodge 2(1986) 865−870, [13] Y.
Characterization of mechanical properties in AISI 1040 parts welded by friction welding, Materials Characterization 58 (2007) 1033–1038
Akata, Joining with friction welding of plastically deformed steel, Journal of Material Processing Technology 142(1) (2003) 239–46
Karthikeyan, Assessment of factors influencing surface roughness on the machining of glass fiber-reinforced polymer composites, Materials and Design 27(2006) 862–871
Sunderesan, Structure and properties of friction welds between high-speed steel and medium carbon steel for bimetal tools, Material Science and Techno lodge 2(1986) 865−870, [13] Y.
Online since: October 2014
Authors: R. Ibrahim, Zazuli Mohid, N.M. Warap, E.A. Rhim
In LAMM, when the material is heated using laser, the material cutting region temperature rises higher.
Acknowledgement Thanks are given to Ministry of Science Technology and Innovation Malaysia (MOSTI) for their support to the research project named “Laser Assisted Micro-Milling of Biomaterial for Implant Parts”,vot number S020.
Ozel, "Experimental and finite element simulation based investigations on micro-milling Ti-6Al-4V titanium alloy: Effects of cBN coating on tool wear," Journal of Material Processing Technology, vol. 213, pp. 532-542, 2013
Lahoti, "Laser assisted micro-milling of hard-to-machine materials," CIRP Annals - Manufacturing Technology, vol. 58, pp. 45-48, 2009
Koksal, "Evaluation of wear mechanisms of coated carbide tools when face milling titanium alloy," Journal of Materials Processing Technology, vol. 99, pp. 266-274, 2000.
Acknowledgement Thanks are given to Ministry of Science Technology and Innovation Malaysia (MOSTI) for their support to the research project named “Laser Assisted Micro-Milling of Biomaterial for Implant Parts”,vot number S020.
Ozel, "Experimental and finite element simulation based investigations on micro-milling Ti-6Al-4V titanium alloy: Effects of cBN coating on tool wear," Journal of Material Processing Technology, vol. 213, pp. 532-542, 2013
Lahoti, "Laser assisted micro-milling of hard-to-machine materials," CIRP Annals - Manufacturing Technology, vol. 58, pp. 45-48, 2009
Koksal, "Evaluation of wear mechanisms of coated carbide tools when face milling titanium alloy," Journal of Materials Processing Technology, vol. 99, pp. 266-274, 2000.