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Online since: December 2010
Authors: Long Zhi Zhao, Xiao Lan Zhang, Na Li, Ming Juan Zhao, Jian Zhang
It was one of the hot research materials in the 21st century [1].
The Aluminum foam is belonging to a kind of porous metal foam materials.
Foresta: International Journal of Mechanical Science Vol. 46(2004), p. 217-244
Gibson: Materials Science and Engineering (1999), p.113-124
[10] Hongwu Gao, Yu Liu, Zhen Tian and Shunhua LIU: Chinese Materials Science Technology and Equipment Vol. 3(2006), p. 73-76,in Chinese.
The Aluminum foam is belonging to a kind of porous metal foam materials.
Foresta: International Journal of Mechanical Science Vol. 46(2004), p. 217-244
Gibson: Materials Science and Engineering (1999), p.113-124
[10] Hongwu Gao, Yu Liu, Zhen Tian and Shunhua LIU: Chinese Materials Science Technology and Equipment Vol. 3(2006), p. 73-76,in Chinese.
Online since: January 2012
Authors: Zi Yu Zhao, Bi Bo Xia, Jin Guo Yang
The heating technology is a method for machining hard-to-machine materials economic and efficient [1].
Studies have shown that thermal expansion takes place in internal particles of hard and brittle materials by concentrated heating.
Thermally enhanced machining of hard-to-machine materials-A review.
Thermally enhanced machining of hard-to-machine materials-A review.
An experimental investigation of hot-machining to predict tool life. journal of materials processing technology. 198 (2008) 344–349
Studies have shown that thermal expansion takes place in internal particles of hard and brittle materials by concentrated heating.
Thermally enhanced machining of hard-to-machine materials-A review.
Thermally enhanced machining of hard-to-machine materials-A review.
An experimental investigation of hot-machining to predict tool life. journal of materials processing technology. 198 (2008) 344–349
Online since: September 2014
Authors: Zhao Gang, Muhammad Farid, Muhammad Rizwan, Tran Linh Khuong, Zhuang Zhi Sun
Ionic Polymer Composite Material (IPMC) is a flexible material and has concealed many benefits to inspire the scientists and researchers to explore its physiognomies for real-world applications in various fields.
Many researchers have worked on the application side of the material.
Kim, “Ionic Polymer metal composites: Industrial and medical applications IV”, “Smart Materials and Structures, Vol. 14, pp. 197-214, 2005
[3] Muhammad Farid et. al, “Forward Kinematic modeling and simulation of Ionic Polymer Metal Composites (IPMC) actuators for bionic knee joint” Advanced Materials Research Vols. 889-890 (2014) pp. 938-941
[5] Muhammad Farid et. al,“ Dynamic Modeling and Simulation of Ionic Polymer Metal Composites (IPMC) Actuated Manipulator”, Journal of Applied Science, Issue 11, Vol. 14, 2014.
Many researchers have worked on the application side of the material.
Kim, “Ionic Polymer metal composites: Industrial and medical applications IV”, “Smart Materials and Structures, Vol. 14, pp. 197-214, 2005
[3] Muhammad Farid et. al, “Forward Kinematic modeling and simulation of Ionic Polymer Metal Composites (IPMC) actuators for bionic knee joint” Advanced Materials Research Vols. 889-890 (2014) pp. 938-941
[5] Muhammad Farid et. al,“ Dynamic Modeling and Simulation of Ionic Polymer Metal Composites (IPMC) Actuated Manipulator”, Journal of Applied Science, Issue 11, Vol. 14, 2014.
Online since: August 2019
Authors: Vitalii Kryzhanovskyi, Sergii Kroviakov, Volodymyr Volchuk, Mykhailo Zavoloka
Materials and Research Method
The properties of modified expanded clay concrete for thin-walled floating reinforced concrete structures were investigated [8].
Structure and Properties of Building Materials.
Materials Science Aspects of Using of Wavelet-Multifractal Approach to an Evaluation of Structure and Properties of Low-Carbon Low-Alloyed Steels.
Fractals and properties of materials.
Science and construction, 3, 50-58.
Structure and Properties of Building Materials.
Materials Science Aspects of Using of Wavelet-Multifractal Approach to an Evaluation of Structure and Properties of Low-Carbon Low-Alloyed Steels.
Fractals and properties of materials.
Science and construction, 3, 50-58.
Online since: January 2013
Authors: Li Su, Peng Fei Li, Yuan Feng Wang
In this paper, by changing the hysteresis damping coefficient of steel and concrete materials to compared its impact to structure’s overall damping ratio.
This calculation method has a greater relationship with the hysteresis damping coefficient of materials, need more tests to determine the coefficient.
Journal of Harbin Institute of Technology [J]. 2003,35(z1):240-243
Journal of Anhui Institute of Architecture & Industry(Natural Science). 2010,18(4):9-11
SHANGHAI JOURNAL OF MECHANICS. 1998,19(2):141-145
This calculation method has a greater relationship with the hysteresis damping coefficient of materials, need more tests to determine the coefficient.
Journal of Harbin Institute of Technology [J]. 2003,35(z1):240-243
Journal of Anhui Institute of Architecture & Industry(Natural Science). 2010,18(4):9-11
SHANGHAI JOURNAL OF MECHANICS. 1998,19(2):141-145
Online since: July 2012
Authors: Ruo Xi Wang, Kang Zheng, Xing You Tian, Hua Wang
Hwang: Journal of Applied Polymer Science Vol. 99 (2006), p. 900
[3] N.
Joseph: Journal of Applied Polymer Science Vol. 104 (2007), p. 3090 [7] S.
Jasiukd: Materials Science and Engineering: A Vol. 393 (2005), p. 1 [10] C.
Baltog: Journal of Materials Chemistry Vol. 19 (2009), p. 5690 [13] J.
Jin: Advanced Materials Vol. 14 (2002), p. 1480 [17] M.
Joseph: Journal of Applied Polymer Science Vol. 104 (2007), p. 3090 [7] S.
Jasiukd: Materials Science and Engineering: A Vol. 393 (2005), p. 1 [10] C.
Baltog: Journal of Materials Chemistry Vol. 19 (2009), p. 5690 [13] J.
Jin: Advanced Materials Vol. 14 (2002), p. 1480 [17] M.
Online since: March 2024
Authors: Adel Khalid Alfozan
G.: Journal of materials science, 44(17), (2009), pp. 4758-4762
[5] Buha, J.: Journal of Materials Science, 43(4), (2008), pp. 1220-1227
[6] Yang, M., Pan, F., Cheng, R., and Tang, A.: Journal of Materials Science, 42(24), (2007), pp. 10074-10079
H.: Journal of materials science, 39(20), (2004), pp. 6375-6377
Krauss: Reference Module in Materials Science and Materials Engineering, (2016)
[5] Buha, J.: Journal of Materials Science, 43(4), (2008), pp. 1220-1227
[6] Yang, M., Pan, F., Cheng, R., and Tang, A.: Journal of Materials Science, 42(24), (2007), pp. 10074-10079
H.: Journal of materials science, 39(20), (2004), pp. 6375-6377
Krauss: Reference Module in Materials Science and Materials Engineering, (2016)
Online since: April 2016
Authors: Rong Jin, Bi Tao Liu, Liang Sheng Ge, Jia Fu Xu, Liu Yang, Ming Jing Tu
Research Development in Synthesis Methods of Silver Nanowires
Bi Tao Liu1,a, Liang-sheng Ge1,2,b, Jia-fu Xu1,2,c, Rong Jin1,d*, Liu Yang1,e
and Ming-jing Tu1,f
1Research Institute for New Materials Technology, Chongqing University of Arts and Sciences, Yongchuan Chongqing 402160, China
2Institute of Materials and Chemica, Chongqing University of Arts and Sciences, Yongchuan Chongqing 402160, China
aXCLLiu@sina.com, bglsmly@sina.com, cxjfmly@sina.com, drong516112@sian.com, exclyl007@sian.com, ftmjxcl@sina.com
Keywords: Silver nanowires, Synthesis method, Applicaton
Abstract.
[9] Yang Rui, Dong Guocheng, Shao Chen: Journal of molecular science, 2008, 24(6): 436-438 [10] Hu Zhongai, Xu Tao, Li Hulin, et al: Meterials Science and Engineering A, 2004, 371: 236-240
Martin: Science, 1994, 263(23): 1961-1966
[14] Zhao Jianpo, Tian Baoli, Wan Shaoming, et al: Journal of functional materials, 2009,7(40):1208-1210
[20] Luo Chao, Dai Ying: Journal of Xihua University, 2008, 27(6):70-72
[9] Yang Rui, Dong Guocheng, Shao Chen: Journal of molecular science, 2008, 24(6): 436-438 [10] Hu Zhongai, Xu Tao, Li Hulin, et al: Meterials Science and Engineering A, 2004, 371: 236-240
Martin: Science, 1994, 263(23): 1961-1966
[14] Zhao Jianpo, Tian Baoli, Wan Shaoming, et al: Journal of functional materials, 2009,7(40):1208-1210
[20] Luo Chao, Dai Ying: Journal of Xihua University, 2008, 27(6):70-72
Online since: July 2017
Authors: Luciana Taís Fuhr, Cláudia Trindade Oliveira, Sandra Raquel Kunst, Marielen Longhi, Ademir José Zattera, Patrícia Marcolin, Tiego V. Fillmann, Lucas Pandolphi Zini
Oliveira: Materials Science Forum Vols. 775-776 (2014), p. 729
Garcia:Materials Science and Engineering: A Vol. 402 (2005), p.22
Garcia: Journal of Materials Processing Technology Vol. 144 (2003), p. 703
Prasad: Materials Science and Engineering A Vol. 367 (2004), p. 63
Purçek: Journal of Materials Processing Technology Vol. 169 (2005), p.242
Garcia:Materials Science and Engineering: A Vol. 402 (2005), p.22
Garcia: Journal of Materials Processing Technology Vol. 144 (2003), p. 703
Prasad: Materials Science and Engineering A Vol. 367 (2004), p. 63
Purçek: Journal of Materials Processing Technology Vol. 169 (2005), p.242
Online since: February 2014
Authors: Ge Ning Xu, Ming Liang Yang, Qing Dong, Bin Zhang, Hui Li Ren
Dynamic Response Analysis
of Super-Long Hybrid Jib Structure under Impact Load
Qing Dong*1,a,Gening Xu1,b,Mingliang Yang1,c,Huili Ren2,d, Bin Zhang2,e
1School of Machinery and Electronics Engineering, Taiyuan University of Science and Technology, Taiyuan 030024, China
2Academia Sinica, Zoomlion Heavy Industry Science and Technology Co.
Journal of Hoisting and Conveying Machinery,2005,(5): 21-25,in Chinese
Journal of Hoisting and Conveying Machinery,2002,(2): 2-6,in Chinese
Journal of Hoisting and Conveying Machinery,2010,(10):80-87, in Chinese
Journal of Hoisting and Conveying Machinery,2010,(2),in Chinese
Journal of Hoisting and Conveying Machinery,2005,(5): 21-25,in Chinese
Journal of Hoisting and Conveying Machinery,2002,(2): 2-6,in Chinese
Journal of Hoisting and Conveying Machinery,2010,(10):80-87, in Chinese
Journal of Hoisting and Conveying Machinery,2010,(2),in Chinese