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Online since: December 2008
Authors: A. Martín-Meizoso, A. Ríos
Journal of Materials
Science Letter, 1976. 11: p. 1567-1569
Journal of Composite Materials, 1990. 24(7): p. 707-726
Journal of Composite Materials, 1996. 30(5): p. 561-588
Journal of Materials Processing Technology.
Journal of Composite Materials, 2003. 37(16): p. 1415-1438
Journal of Composite Materials, 1990. 24(7): p. 707-726
Journal of Composite Materials, 1996. 30(5): p. 561-588
Journal of Materials Processing Technology.
Journal of Composite Materials, 2003. 37(16): p. 1415-1438
Online since: July 2017
Authors: Andrey A. Sharov, Viktor K. Moiseyev, Ekaterina G. Gromova, M.N. Mantusov
With further increase of the elastic tool pressure, the excessive material wave deforms along the bending former radius (fig. 1, c).
Akdemir, Computer aided modelling of flexible forming process, Journal of Materials Processing Technology. 148 (2004) 376–381
Ahmad, Sheet metal forming with the aid of flexible punch, numerical approach and experimental validation, CIRP Journal of Manufacturing Science and Technology. 3 (2010) 196–203
Ahmad, Computer aided modelling of friction in rubber-pad forming process, Journal of Materials Processing Technology. 209 (2009) 4925–4934
Plotnikov, Constrained Bend in Cold Sheet Press-Forming by Elastomer, Bulletin of Samara Scientific Center of the Russian Academy of Sciences. 6(4) (2013) 855-860
Akdemir, Computer aided modelling of flexible forming process, Journal of Materials Processing Technology. 148 (2004) 376–381
Ahmad, Sheet metal forming with the aid of flexible punch, numerical approach and experimental validation, CIRP Journal of Manufacturing Science and Technology. 3 (2010) 196–203
Ahmad, Computer aided modelling of friction in rubber-pad forming process, Journal of Materials Processing Technology. 209 (2009) 4925–4934
Plotnikov, Constrained Bend in Cold Sheet Press-Forming by Elastomer, Bulletin of Samara Scientific Center of the Russian Academy of Sciences. 6(4) (2013) 855-860
Online since: July 2017
Authors: S.V. Kuz’min, V.I. Lysak, Evgeniy V. Kuz’min, Alexander P. Peev
This paper presents the results of the effect of ultrasound on explosion welded materials.
Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, 21 (2012) 2375–2379
Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel, Journal of Materials Processing Technology. 195 (2008) 232–240
Kuzmin, Energy balance during explosive welding, Journal of Materials Processing Technology. 222 (2015) 356-364
Evolution of ideas, Journal of Materials Processing Technology. 212 (2012) 150-156
Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, 21 (2012) 2375–2379
Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel, Journal of Materials Processing Technology. 195 (2008) 232–240
Kuzmin, Energy balance during explosive welding, Journal of Materials Processing Technology. 222 (2015) 356-364
Evolution of ideas, Journal of Materials Processing Technology. 212 (2012) 150-156
Online since: March 2016
Authors: Zhong Ji, Chao Zheng, Jie Fu, Yun Hu Zhu
School of Materials Science and Engineering, Shandong University, 17923 Jingshi Road, Jinan, 250061, China
jizhong@sdu.edu.cn
Keywords: Zr-based metallic glass, Laser shock peening, Surface roughness.
Feng, et al, Homogeneous viscous flow behavior of a Cu-Zr based bulk metallic glass composites, Materials Science and Engineering A. 620 (2015) 352-358
Wang, The elastic properties, elastic models and elastic perspectives of metallic glasses, Progress in Materials Science. 57 (2012) 487-656
Woodward, et al, Effects of fatigue and fretting on residual stresses introduced by laser shock peening, Materials Science and Engineering A. 435-346 (2006) 12-18
Jeong, et al, Enhancement of abrasion and corrosion resistance of duplex stainless steel by laser shock peening, Journal of Materials Processing Technology. 212 (2012) 1347-1354
Feng, et al, Homogeneous viscous flow behavior of a Cu-Zr based bulk metallic glass composites, Materials Science and Engineering A. 620 (2015) 352-358
Wang, The elastic properties, elastic models and elastic perspectives of metallic glasses, Progress in Materials Science. 57 (2012) 487-656
Woodward, et al, Effects of fatigue and fretting on residual stresses introduced by laser shock peening, Materials Science and Engineering A. 435-346 (2006) 12-18
Jeong, et al, Enhancement of abrasion and corrosion resistance of duplex stainless steel by laser shock peening, Journal of Materials Processing Technology. 212 (2012) 1347-1354
Online since: October 2010
Authors: Da Zhen Wang, Pei Feng Feng, Ling You
[9] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 1998, Vol.83, pp151-158
[11] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 2000, Vol.101, pp10-20
[13] Y.M.Quan, Y.B.YE: Journal of Materials Processing Technology, 2003, Vol.138, pp464-467
[14] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 2004, Vol.152, pp23-34
[15] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 1998, Vol.83, pp277-285
[11] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 2000, Vol.101, pp10-20
[13] Y.M.Quan, Y.B.YE: Journal of Materials Processing Technology, 2003, Vol.138, pp464-467
[14] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 2004, Vol.152, pp23-34
[15] M.E.Gallab, M.Sklad: Journal of Materials Processing Technology, 1998, Vol.83, pp277-285
Online since: October 2010
Authors: Fei Long, Zheng Guang Zou, Yuan Chun Liu
CrxV6O13(x =0.01~0.05) cathode materials were prepared using NH4VO3 and Cr2O3 as raw material
by solid phase method in argon atmosphere.
Introduction Since Murphy [1] first reported that V6O13 could be used as cathode materials for lithium ion batteries, V6O13 has become one of research hot spots on cathode materials.
CrxV6O13 cathode materials were prepared by following process.
Unlike other lithium ion battery cathode materials like LiCoO2, all Li/V6O13 cells are first discharged.
Ian Hill: Power Sources Vol. 136(2004), p. 290-295 [12] WEI Yuanxun, Mo Tianlin, XU Wuizheng, ZHANG Xihui, XU Jie, GU Qingchao: Journal of Inorganic Chemistry Vol. 8(1992), p. 34-37 [13] XU Canyang, PANG Mingjie, YUAN Chenguang, CHE Zhigang, PAN yi: Journal of Materials Science & Engineering Vol. 24(2006), p. 252-254 [14] Marphy D W, Christian P A, Disalvo F J, Carides J N.
Introduction Since Murphy [1] first reported that V6O13 could be used as cathode materials for lithium ion batteries, V6O13 has become one of research hot spots on cathode materials.
CrxV6O13 cathode materials were prepared by following process.
Unlike other lithium ion battery cathode materials like LiCoO2, all Li/V6O13 cells are first discharged.
Ian Hill: Power Sources Vol. 136(2004), p. 290-295 [12] WEI Yuanxun, Mo Tianlin, XU Wuizheng, ZHANG Xihui, XU Jie, GU Qingchao: Journal of Inorganic Chemistry Vol. 8(1992), p. 34-37 [13] XU Canyang, PANG Mingjie, YUAN Chenguang, CHE Zhigang, PAN yi: Journal of Materials Science & Engineering Vol. 24(2006), p. 252-254 [14] Marphy D W, Christian P A, Disalvo F J, Carides J N.
Online since: March 2016
Authors: Xiang Fang Fan, Hong Mei Zhu, Juan Zhou, Yong Chen
Chen, Synthesis and microwave absorbing properties of Mn–Zn nanoferrite produced by microwave assisted ball milling, Journal of Materials Science Materials in Electronics 25 (2014) 4246-4251
Liu, High-energy mechanical milling of atomized iron-based powder, Materials Science and Engineering of Powder Metallurgy 13(2008) 223-228
Li, Influence of powder metallurgy process on mechanical properties of magnetic iron powder core, Materials Science and Engineering of Powder Metallurgy 16(2011) 558-562
Cai, Effects of Co element on microstructure and magnetic properties of Fe-6.5wt%Si magnetic powder cores, Materials Science Forum, 816(2015) 688-693
Xiao, Magnetic properties of Fe78.4Si9.5B9Cu0.6Nb2.5 nanocrystalline alloy powder cores, Journal of Materials Science 46(2011) 7567-7572.
Liu, High-energy mechanical milling of atomized iron-based powder, Materials Science and Engineering of Powder Metallurgy 13(2008) 223-228
Li, Influence of powder metallurgy process on mechanical properties of magnetic iron powder core, Materials Science and Engineering of Powder Metallurgy 16(2011) 558-562
Cai, Effects of Co element on microstructure and magnetic properties of Fe-6.5wt%Si magnetic powder cores, Materials Science Forum, 816(2015) 688-693
Xiao, Magnetic properties of Fe78.4Si9.5B9Cu0.6Nb2.5 nanocrystalline alloy powder cores, Journal of Materials Science 46(2011) 7567-7572.
Online since: August 2011
Authors: Didier Vincent, Taline Boyajian, Martine Le Berre, Sophie Neveu
Vincent: Materials Science and Engineering: C, vol. 28 (2006), p. 755-758
Wong: Journal of Electronic Materials, vol. 36 (2007), p. 593-597
Gu: Applied Surface Science, vol. 252 (2005), p. 888-892
Brosseau: Journal of Magnetism and Magnetic Materials, vol. 249 (2002), p. 481-485
Ng: Journal of Magnetism and Magnetic Materials, vol. 195 (1999), p. 452-459
Wong: Journal of Electronic Materials, vol. 36 (2007), p. 593-597
Gu: Applied Surface Science, vol. 252 (2005), p. 888-892
Brosseau: Journal of Magnetism and Magnetic Materials, vol. 249 (2002), p. 481-485
Ng: Journal of Magnetism and Magnetic Materials, vol. 195 (1999), p. 452-459
Online since: September 2014
Authors: Jun Wang, Peng Yao, Zhong Wei Zhang, Yong Wang, Hong Tao Zhu, Chuan Zhen Huang
It is widely applied to corrosion resistance materials, high temperature resistance materials and wear resistance materials, etc.
In general the removal of brittle materials is achieved through the formation, propagation and nucleation of micro-cracks produced by particle impacts.
Che: International Journal of Machine tools & Manufacture 49 (2009) 569-578
Momber: Experimental thermal and fluid science. 2001, 25: 31- 41
Hashish: Journal of Engineering Materials and Technology, ASME. 1989, 111: 221-228
In general the removal of brittle materials is achieved through the formation, propagation and nucleation of micro-cracks produced by particle impacts.
Che: International Journal of Machine tools & Manufacture 49 (2009) 569-578
Momber: Experimental thermal and fluid science. 2001, 25: 31- 41
Hashish: Journal of Engineering Materials and Technology, ASME. 1989, 111: 221-228
Online since: October 2015
Authors: Jie Gang Mou, Tian Xing Fan, Lan Fang Jiang, Deng Hao Wu, Shui Hua Zheng, Yun Qing Gu
Journal of Huazhong University of Science of Technology: Natural Science Edition, 2014, 42(6), p 22-27
Science China: Technological Sciences, 2010, 11, p 2960-2965
Journal of Huazhong University of Science of Technology: Natural Science Edition, 2015, 43(1), p 16-20
Journal of Hazardous Materials, 2011, 197, p 169-175
Science China Technological Sciences, 2009, 52(2), p 273-284.
Science China: Technological Sciences, 2010, 11, p 2960-2965
Journal of Huazhong University of Science of Technology: Natural Science Edition, 2015, 43(1), p 16-20
Journal of Hazardous Materials, 2011, 197, p 169-175
Science China Technological Sciences, 2009, 52(2), p 273-284.