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Online since: July 2012
Authors: Xu Yan Zong, Xu Qiao Feng, Hui Bo Luo, Chang Jiang Liu, Li Li, Jian Zhou
In recent years, many antioxidative substances have been and are being isolated from natural materials, including foods.
Materials and methods Materials.
[3] S.I.Mussatto, G.Dragone, & I.C.Roberto: Journal of Cereal Science. 43(2006), p.1
I.Sancho, A.Saija, G.Bisignano, R.LoCurto, & K.W.Waldron: Journal of Cereal Science. 42(2005), p.205
[6] T.N.P.Gondwe, J.P.Mtimuni, & A.C.L.Safalaoh: Indian Journal of Animal Sciences. 69(5) (1999), p.347
Materials and methods Materials.
[3] S.I.Mussatto, G.Dragone, & I.C.Roberto: Journal of Cereal Science. 43(2006), p.1
I.Sancho, A.Saija, G.Bisignano, R.LoCurto, & K.W.Waldron: Journal of Cereal Science. 42(2005), p.205
[6] T.N.P.Gondwe, J.P.Mtimuni, & A.C.L.Safalaoh: Indian Journal of Animal Sciences. 69(5) (1999), p.347
Online since: December 2012
Authors: Qiang Su, Jun Shen, Xing Sheng Kang, Yi Li
The performance of materials used in biological technology is the key to the efficiency of arsenic removal.
Pteris vittata is a fern, in recent research results showed that Pteris vittata can be used as removal of arsenic materials.
Water hyacinth is a attributable to the aquatic floating plants of barracuda grass class.Haris et al as a natural biological removal of arsenic materials research, the results show that the dried roots of the water hyacinth able to reduce to 10μg / L.
Biological origin materials used in the removal of arsenic include some biological intracellular extracts (such as chitin, chitosan) and the living tissue (such as human hair).
Costa: submitted to Journal of Sep.Sci.
Pteris vittata is a fern, in recent research results showed that Pteris vittata can be used as removal of arsenic materials.
Water hyacinth is a attributable to the aquatic floating plants of barracuda grass class.Haris et al as a natural biological removal of arsenic materials research, the results show that the dried roots of the water hyacinth able to reduce to 10μg / L.
Biological origin materials used in the removal of arsenic include some biological intracellular extracts (such as chitin, chitosan) and the living tissue (such as human hair).
Costa: submitted to Journal of Sep.Sci.
Online since: August 2011
Authors: De Fang Liu, Jie Tao
Under the premise of ensuring stiffness and strength, use lightweight materials to reduce the weight of vehicle.
From 1990s to 2007, by using light alloy materials, BMW has reduced 30% fuel consumption of each car.
Vol. 5 (2007), p. 1–3 [4] Dandan Sun, Wendong LI: Shandong Internal Combustion Engine, Vol. 1 (2003), p. 34–36 [5] Mingtu Ma, Zhigang Li and Hongliang Yi: World Nonferrous Metals, (2006), p. 10-14 [6] Mitsuguki Iisogai and Satoshi Murakami: submitted to Journal of Materials Processing Technology (1993) [7] Nargess Shahmanesh: Materials Advantages.
Magnesium: Materials for automotive bodies, Elsevier, G.
[22] Jianjia Qu: Guangxi Journal of Light Industry, Vol. 9 (2008), p. 45-47 [23] Shide Yu, Wei Tang, Zimin Zhou: Foundry Technology, Vol. 27 (2006), p. 964-967 [24] Kim E S, Lee K H, Moon Y H: Journal of Materials Processing Technology, Vol. 105 (2000), p. 42-48 [25] Yuanfa Li, Pingxian Su: Special Casting & Nonferrous Alloys, Vol. 26 (2006), p. 568-571
From 1990s to 2007, by using light alloy materials, BMW has reduced 30% fuel consumption of each car.
Vol. 5 (2007), p. 1–3 [4] Dandan Sun, Wendong LI: Shandong Internal Combustion Engine, Vol. 1 (2003), p. 34–36 [5] Mingtu Ma, Zhigang Li and Hongliang Yi: World Nonferrous Metals, (2006), p. 10-14 [6] Mitsuguki Iisogai and Satoshi Murakami: submitted to Journal of Materials Processing Technology (1993) [7] Nargess Shahmanesh: Materials Advantages.
Magnesium: Materials for automotive bodies, Elsevier, G.
[22] Jianjia Qu: Guangxi Journal of Light Industry, Vol. 9 (2008), p. 45-47 [23] Shide Yu, Wei Tang, Zimin Zhou: Foundry Technology, Vol. 27 (2006), p. 964-967 [24] Kim E S, Lee K H, Moon Y H: Journal of Materials Processing Technology, Vol. 105 (2000), p. 42-48 [25] Yuanfa Li, Pingxian Su: Special Casting & Nonferrous Alloys, Vol. 26 (2006), p. 568-571
Online since: February 2014
Authors: Anita Ramli, Ita Athirah Ahmad
In addition some starting materials are too expensive thus will increase the production cost of the DSC.
Grätzel, Current Opinion in Colloid and Interface Science Vol. 4 (1999), p. 314
Haarer: Journal of Solar Energy Material and Solar Cells Vol. 56 (1999), p. 167
Adschiri: Progress in Crystal Growth and Characterization of Materials Vol. 53(2) (2007), p. 117
Moa, Journal of Nanoscience and Nanotechnology Vol. 6 (2006), p. 906
Grätzel, Current Opinion in Colloid and Interface Science Vol. 4 (1999), p. 314
Haarer: Journal of Solar Energy Material and Solar Cells Vol. 56 (1999), p. 167
Adschiri: Progress in Crystal Growth and Characterization of Materials Vol. 53(2) (2007), p. 117
Moa, Journal of Nanoscience and Nanotechnology Vol. 6 (2006), p. 906
Online since: December 2009
Authors: H. Shahali, Esmaeil Soltani, Hamid Zarepour
Heath : Journal of Materials Processing Technology, Vol 116, (2001), p31-38
Davim: Journal of Materials Processing Technology, Vol 128, (2002),p100-105
Baptista: Journal of Materials Processing Technology, Vol 103, (2000), p417-423, [6] S.
Hassan: Journal of Material Processing Technology , Vol. 145, (2004), p84-92, [11] R.
Rahman: Journal of Material Processing Technology , Vol 192-193, (2007), p139-146
Davim: Journal of Materials Processing Technology, Vol 128, (2002),p100-105
Baptista: Journal of Materials Processing Technology, Vol 103, (2000), p417-423, [6] S.
Hassan: Journal of Material Processing Technology , Vol. 145, (2004), p84-92, [11] R.
Rahman: Journal of Material Processing Technology , Vol 192-193, (2007), p139-146
Online since: July 2015
Authors: Man Jin, Jing Li, Heng Hua Zhang, Zhen Ming Lin
Experimental Materials and Procedure
Experimental Materials.
The experiment was carried out to research if new method can accurately reflect the cutting properties of materials.
Materials&Design, 2009, 30(6): 2198-2204
Journal of Materials Science&Engineering,2011,29(3),478-482Z2:6-11
Journal of Iron and Steel Research,2009,10:38-42
The experiment was carried out to research if new method can accurately reflect the cutting properties of materials.
Materials&Design, 2009, 30(6): 2198-2204
Journal of Materials Science&Engineering,2011,29(3),478-482Z2:6-11
Journal of Iron and Steel Research,2009,10:38-42
Online since: January 2019
Authors: Xiao Ping Zheng, Hong Bin Li, Ya Qiang Tian, Long Jiang, Lian Sheng Chen
Materials Science & Technology. 9(2017):1-6
Journal of Materials Science & Technology. 32.4(2016):298-304
Materials & Design. 68(2015):8-17
Journal of Materials Processing Technology. 214.9(2014):1806-1811
International Journal of Materials Lifetime. 1.1(2015):20-28
Journal of Materials Science & Technology. 32.4(2016):298-304
Materials & Design. 68(2015):8-17
Journal of Materials Processing Technology. 214.9(2014):1806-1811
International Journal of Materials Lifetime. 1.1(2015):20-28
Online since: November 2011
Authors: Jian Hui Li, Zu Jian Yu
Study on Mould Structure of Differential Temperature Drawing Process for Magnesium Alloy
Yu Zu-jian, Li Jian-hui
School of Metallurgy and Materials Engineering, Chongqing University of Science and Technology, Chongqing 401331, China
yzjrabbit@163.com, ljh_hit@126.com
Keywords: Magnesium alloy, differential temperature drawing, mould structure, surface roughness
Abstract.
Part 4 is non-deform zone, material in this area bears a radial tensile stress and a circumferential tensile stress, deformation is very small.
Materials used in experiments were AZ31B sheet having 0.8mm in thickness.
References [1] Eliezer D, Aghion F H: Advanced Performance Materials Vol. 5 (1998), p. 201-212 [2] H.
Schumann: Journal of Materials Processing Technology Vol. 117 (2001), p. 276-281 [3] Mustafa Kemal KuleKci: Int J Adv Manuf Technol Vol. 39 (2008), p. 851-863 [4] Yu Kun, Rui Shou-tai, Wang Xiao-yan, Wang Ri-Chu, Li Wen-xian: Transactions of Nonferrous Metals Society of China Vol. 19(2009), p. 511-516 [5] Tan Chen-wen, Xu Shan-na, Wang Lu, Chen Zhi-yong, Wang Fu-chi, Cai Hong-nian: Transactions of Nonferrous Metals Society of China Vol. 17 (2007), p. 41-45 [6] E.Doege, K.Droder: Journal of Materials Processing Technology Vol. 115 (2001), p. 14-19 [7] Liou Yin, Li Yuan-yuan, Li Wei: Journal of Rare Earths Vol. 25 (2007), p. 480-484 [8] Zhang Xian-hong, Cui Zhen-shan, Ruan Xue-yu: Journal of Shanghai Jiaotong University Vol. 12 (2003), p. 1874-1877 [9] Gao Jun, Yue Zhen-ming, Wei Guo-ling, Chu Xing-rong, Li Wen-juan: Materials Science and Technology Vol. 4 (2010), p. 519~522
Part 4 is non-deform zone, material in this area bears a radial tensile stress and a circumferential tensile stress, deformation is very small.
Materials used in experiments were AZ31B sheet having 0.8mm in thickness.
References [1] Eliezer D, Aghion F H: Advanced Performance Materials Vol. 5 (1998), p. 201-212 [2] H.
Schumann: Journal of Materials Processing Technology Vol. 117 (2001), p. 276-281 [3] Mustafa Kemal KuleKci: Int J Adv Manuf Technol Vol. 39 (2008), p. 851-863 [4] Yu Kun, Rui Shou-tai, Wang Xiao-yan, Wang Ri-Chu, Li Wen-xian: Transactions of Nonferrous Metals Society of China Vol. 19(2009), p. 511-516 [5] Tan Chen-wen, Xu Shan-na, Wang Lu, Chen Zhi-yong, Wang Fu-chi, Cai Hong-nian: Transactions of Nonferrous Metals Society of China Vol. 17 (2007), p. 41-45 [6] E.Doege, K.Droder: Journal of Materials Processing Technology Vol. 115 (2001), p. 14-19 [7] Liou Yin, Li Yuan-yuan, Li Wei: Journal of Rare Earths Vol. 25 (2007), p. 480-484 [8] Zhang Xian-hong, Cui Zhen-shan, Ruan Xue-yu: Journal of Shanghai Jiaotong University Vol. 12 (2003), p. 1874-1877 [9] Gao Jun, Yue Zhen-ming, Wei Guo-ling, Chu Xing-rong, Li Wen-juan: Materials Science and Technology Vol. 4 (2010), p. 519~522
Online since: August 2010
Authors: Cheng Zhong Gu, Ping Hao Zhang, Xin Yue Wu
Therefore, foamed aluminums, metal rubber, high damping alloy and some new
materials have been used in friction dampers.
[2] Hagood N W,von Flotow A.Damping of structural vibrations with piezoelectric materials and passive electrical networks[J].Journal of Sound andVibration,1991,146(2):243-268
SPIE Smart Structures and Materials:Smart Structures and integrated systems, 1998,3329:106-114
SPIE Symposium on Smart Structures and Materials - Smart Structures and Intelligent Systems, 1998,3:159-167
SPIE Smart Structures and Materials 2001: Damping and Isolation, SPIE Vol. 4331, Newport Beach CA, USA, 2001,3:251-261
[2] Hagood N W,von Flotow A.Damping of structural vibrations with piezoelectric materials and passive electrical networks[J].Journal of Sound andVibration,1991,146(2):243-268
SPIE Smart Structures and Materials:Smart Structures and integrated systems, 1998,3329:106-114
SPIE Symposium on Smart Structures and Materials - Smart Structures and Intelligent Systems, 1998,3:159-167
SPIE Smart Structures and Materials 2001: Damping and Isolation, SPIE Vol. 4331, Newport Beach CA, USA, 2001,3:251-261
Online since: August 2012
Authors: Si Li Chen, Jian Jun Shi, Tao Yu, Jie Huang, Kai He Dong
,Journal of Basic Engng, p519~527(1963)
Journal of Shenyang Polytechnic University, p65-68 (1992)
[5] Jin Chen and Shushan Zhao: Fracture mechanics, edited by Science Press(2006)
Journal of Hydraulic Engineering ,p63~69 (1984)
Journal of Hydraulic Engineering, p27~37 (1982)
Journal of Shenyang Polytechnic University, p65-68 (1992)
[5] Jin Chen and Shushan Zhao: Fracture mechanics, edited by Science Press(2006)
Journal of Hydraulic Engineering ,p63~69 (1984)
Journal of Hydraulic Engineering, p27~37 (1982)