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Online since: February 2014
Authors: Wei Cai, Yu Wu, Gang Wang, Sheng Li Yang, Ji Zhong Yin, Chen Xu Wang
Experimental Procedure
Test materials: electrolytic copper, pure nickel, pure titanium, electrolytic manganese, charcoal.
Acknowledgements This material is based upon work supported by the Jiangxi Province Natural Science Foundation (2009GZC0048), Jiangxi Provincial Department of Science and Technology-funded Project (2009DTZ01800) Funding.
[3] X Ren, N Miura, J.A.Zhang: Materials Science and Engineering, Vol. 312 A (2001), p.196
J.K.Chang: Metallurgical and Materials Transactions A,Vol. 35A (2004), p.465
[12] J.H.Choi, D.N.Lee: Materials Science and Engineering Vol.
Acknowledgements This material is based upon work supported by the Jiangxi Province Natural Science Foundation (2009GZC0048), Jiangxi Provincial Department of Science and Technology-funded Project (2009DTZ01800) Funding.
[3] X Ren, N Miura, J.A.Zhang: Materials Science and Engineering, Vol. 312 A (2001), p.196
J.K.Chang: Metallurgical and Materials Transactions A,Vol. 35A (2004), p.465
[12] J.H.Choi, D.N.Lee: Materials Science and Engineering Vol.
Online since: July 2017
Authors: Thomas Hutsch, Bernd Kieback, Thomas Weißgärber, Fabian Aßmann
TFP Reinforced Metal - One Way to Increase the Specific Strength
Thomas Hutsch1,a *, Fabian Aßmann1, Thomas Weißgärber1,b
and Bernd Kieback1,2,c
1Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM,
Branch Lab Dresden, Winterbergstraße 28, 01277 Dresden, Germany
2 Technische Universität Dresden, Institute for Materials Science,
Helmholtzstr. 7, 01069 Dresden, Germany
aThomas.Hutsch@ifam-dd.fraunhofer.de, bThomas.Weissgaerber@ifam-dd.fraunhofer.de, cBernd.Kieback@ifam-dd.fraunhofer.de
* Corresponding author
Keywords: Powder metallurgy, composite, SPS, carbon fiber, TFP, specific strength, load transfer
Abstract.
Sanders, Integration of glass fibre structures in aluminium cast parts for CFRP aluminium transition structures, Procedia Materials Science 2 (2013) pp 197-203 [8] D.L.
Shen, The fabrication and properties of short carbon fiber reinforced copper matrix composites, Journal of Composite Materials, 45 (24) (2011) pp 2567-2571 [10] S.T.
Zhang, Interface characteristics and mechanical properties of carbon fibre reinforced copper composites, Journal of Materials Science, 26 (1991) pp 5762-5766 [12] T.
Herrmann, Metal/FRP connection module – a power metallurgical approach, Materials Science Forum, Vol. 825-826 (2015) pp 449-456
Sanders, Integration of glass fibre structures in aluminium cast parts for CFRP aluminium transition structures, Procedia Materials Science 2 (2013) pp 197-203 [8] D.L.
Shen, The fabrication and properties of short carbon fiber reinforced copper matrix composites, Journal of Composite Materials, 45 (24) (2011) pp 2567-2571 [10] S.T.
Zhang, Interface characteristics and mechanical properties of carbon fibre reinforced copper composites, Journal of Materials Science, 26 (1991) pp 5762-5766 [12] T.
Herrmann, Metal/FRP connection module – a power metallurgical approach, Materials Science Forum, Vol. 825-826 (2015) pp 449-456
Online since: December 2012
Authors: Ze Qi Zhu, Hong Xia Li, Fu Jiang Chen
Energy Dissipation analysis on Unloading Confining Pressure failure Process of Rock Material
Fujiang Chen1, a, Hongxia Li2,b, Zeqi Zhu3,c
1Southwest Jiaotong University, Chengdu, Sichuan 610031 China
2College of Science, Naval University of Engineering, Wuhan, Hubei 430033, China
3Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan, Hubei 430071, China
a150006524@qq.com, b26953296@qq.com, czhuzeqi2005@tom.com
Keywords: rock mechanics; unloading confining pressure; energy dissipation; strain energy
Abstract.
The energy dissipation law of rock material are analyzed comprehensively by studying the energy exchange between test machine and rock sample in two typical stress-strain curve of unloading tests.
It shows that the energy dissipation is greatly related to the failure characteristic of rock material and confining pressure.
Acknowledgements This work was financially supported by the National Natural Science Foundation (51009030, 51279202).
Journal of China Coal Society, 20, 389(1995) [6] YOU Mingqing, HUA Anzeng.
The energy dissipation law of rock material are analyzed comprehensively by studying the energy exchange between test machine and rock sample in two typical stress-strain curve of unloading tests.
It shows that the energy dissipation is greatly related to the failure characteristic of rock material and confining pressure.
Acknowledgements This work was financially supported by the National Natural Science Foundation (51009030, 51279202).
Journal of China Coal Society, 20, 389(1995) [6] YOU Mingqing, HUA Anzeng.
Online since: August 2015
Authors: A.K. Lakshminarayanan, K. L. Harikrishna, B. Ezhil Vendhan
Recent research works indicate that magnesium alloy can be used for constructing light weight armor because of its density, which is 35% lower than aluminium and 77% lower than steel and also it exhibits superior vibration damping and better failure mechanisms than the contemporary ballistic materials.
As the thickness was increased plugging failure of the material was seen.
Projectiles hitting the target material either completely penetrated it or partially penetrated it both causing a deflection of material at the other face of the target.
Saleh., L.Edwards, “Ballistic performance of multi-layered metallic plates impacted by a 7.62-mm APM2 projectile”, Internationa Journal of Impact Engineering 38 (2011) 1022-1032
Rao Numerical, “Simulation of Ballistic Impact on Armour Plate with a Simple Plasticity Model”, Defence Science Journal, 64(1) 2014
As the thickness was increased plugging failure of the material was seen.
Projectiles hitting the target material either completely penetrated it or partially penetrated it both causing a deflection of material at the other face of the target.
Saleh., L.Edwards, “Ballistic performance of multi-layered metallic plates impacted by a 7.62-mm APM2 projectile”, Internationa Journal of Impact Engineering 38 (2011) 1022-1032
Rao Numerical, “Simulation of Ballistic Impact on Armour Plate with a Simple Plasticity Model”, Defence Science Journal, 64(1) 2014
Online since: June 2019
Authors: Urs A. Peuker, Christos G. Aneziris, Thomas Leißner, Jens Fruhstorfer, Jana Hubálková
Journal of
Material Science 1985;20:3501-14
Advanced Engineering Materials 2017;19(9):1700199-1-12
Advanced Engineering Materials 2017;18
Journal of Ceramic Science and Technology 2016;7(2):173-82
Journal of Ceramic Science and Technology 2014;5(2):155-66
Advanced Engineering Materials 2017;19(9):1700199-1-12
Advanced Engineering Materials 2017;18
Journal of Ceramic Science and Technology 2016;7(2):173-82
Journal of Ceramic Science and Technology 2014;5(2):155-66
Online since: October 2016
Authors: S.K. Lohit, K.V. Gangadharan, K. Hemanth, Hemantha Kumar
Smart Materials and Structures, 23(3), 035016
International Journal of Mechanical Sciences, 52(8), 1036-1046
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications, 215(3), 165-174
Smart Materials and Structures, 23(4), 045025
Smart materials and structures., 16(4), 1310
International Journal of Mechanical Sciences, 52(8), 1036-1046
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications, 215(3), 165-174
Smart Materials and Structures, 23(4), 045025
Smart materials and structures., 16(4), 1310
Online since: January 2016
Authors: Madis Mikola, Anti Haavajõe, Meelis Pohlak
Mechanics of Materials, 2014, 79, 73-84
Materials Science-Medziagotyra, 2012, 18, 1, 45-50
International Journal of Material Forming, 3(Suppl:1), 631 - 634
S., A Model for the Manufacturing Process of Thermoplastic Matrix Composites, Journal of Composite Materials, 1987, 26, 2348-2410
B., Design and Fabrication of an On-Line Consolidation Facility for Thermoplastic Composites, Journal of Thermoplastic Composite Materials, 2, 293-306, 1989.
Materials Science-Medziagotyra, 2012, 18, 1, 45-50
International Journal of Material Forming, 3(Suppl:1), 631 - 634
S., A Model for the Manufacturing Process of Thermoplastic Matrix Composites, Journal of Composite Materials, 1987, 26, 2348-2410
B., Design and Fabrication of an On-Line Consolidation Facility for Thermoplastic Composites, Journal of Thermoplastic Composite Materials, 2, 293-306, 1989.
Online since: October 2016
Authors: J.P. Pandey, Rahul Rahul, Gautam Sen, Pinki Pal
Materials and Methods
Materials.
Singh, Advanced drag reducing and flocculating materials based on polysaccharides, in: N.
Fai (Eds.), Polymers and Other Advanced Materials: Emerging Technologies and Business Opportunities, Plenum Press, New York, 1995, pp.227-249
Tripathy, Biodegradable drag reducing agents and flocculants based on polysaccharides: Materials and applications, Polymer Engineering & Science. 40 (2000) 46-60
Singh, A model of flocculation, Materials Letters. 61 (2007) 438-4384
Singh, Advanced drag reducing and flocculating materials based on polysaccharides, in: N.
Fai (Eds.), Polymers and Other Advanced Materials: Emerging Technologies and Business Opportunities, Plenum Press, New York, 1995, pp.227-249
Tripathy, Biodegradable drag reducing agents and flocculants based on polysaccharides: Materials and applications, Polymer Engineering & Science. 40 (2000) 46-60
Singh, A model of flocculation, Materials Letters. 61 (2007) 438-4384
Online since: March 2016
Authors: Zhi Hong Wang, Feng Gao, Yan Jiao Zhang
Introduction
Development of materials industry is inseparable from mineral resources (including fossil fuels) support.
The materials and energy consumption of 1kg the crude steel production in EAF process is listed in table 8.
Wang, Study on equivalent of non-renewable resources depletion for building materials life-cycle-assessment, China building materials science and technology, 4(2009)1-5
Exergy, an International Journal, 4(2001) 234-255
Fan, The characterization factors of abiotic resource depletion and its changes with time in LCA, Journal of Fudan University(Natural Science), 51(2012) 125-130
The materials and energy consumption of 1kg the crude steel production in EAF process is listed in table 8.
Wang, Study on equivalent of non-renewable resources depletion for building materials life-cycle-assessment, China building materials science and technology, 4(2009)1-5
Exergy, an International Journal, 4(2001) 234-255
Fan, The characterization factors of abiotic resource depletion and its changes with time in LCA, Journal of Fudan University(Natural Science), 51(2012) 125-130
Online since: July 2015
Authors: M. Rusop, S. Abdullah, Mohd Husairi Fadzilah Suhaimi, Kevin Alvin Eswar, Z.N. Atikah, A. Azlinda
Introduction
In the semiconductor industry, many types of materials, such as silicon, gallium arsenic, titanium dioxide and zinc oxide (ZnO), are used as base materials.
Wang, "Novel nanostructures of ZnO for nanoscale photonics, optoelectronics, piezoelectricity, and sensing," Applied Physics A: Materials Science & Processing, vol. 88, pp. 7-15, 2007
Zhang, "Synthesis and characterization of novel flower-shaped ZnO nanostructures," Materials Chemistry and Physics, vol. 105, pp. 194-198, 2007
Wang, "Electrochemical synthesis of ZnO nanoflowers and nanosheets on porous Si as photoelectric materials," Applied Surface Science, vol. 257, pp. 4643-4649, 2011
Abdullah, "Electrical properties of carbon nanotubes synthesis by double furnace thermal-CVD technique at different temperatures on porous silicon template," IOP Conference Series: Materials Science and Engineering, vol. 46, p. 012023, 2013
Wang, "Novel nanostructures of ZnO for nanoscale photonics, optoelectronics, piezoelectricity, and sensing," Applied Physics A: Materials Science & Processing, vol. 88, pp. 7-15, 2007
Zhang, "Synthesis and characterization of novel flower-shaped ZnO nanostructures," Materials Chemistry and Physics, vol. 105, pp. 194-198, 2007
Wang, "Electrochemical synthesis of ZnO nanoflowers and nanosheets on porous Si as photoelectric materials," Applied Surface Science, vol. 257, pp. 4643-4649, 2011
Abdullah, "Electrical properties of carbon nanotubes synthesis by double furnace thermal-CVD technique at different temperatures on porous silicon template," IOP Conference Series: Materials Science and Engineering, vol. 46, p. 012023, 2013