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Online since: January 2012
Authors: Xian Xun Ge, Jia Hao Qiu, Sha Sha Xu, Feng Yue, Pin Gan Song
Introduction
Carbon nanotubes (CNTs) are multifaced materials that have been widely used in various fields due to their extraordinary electrical, mechanical properties and so on [1-3].
Experimental Materials.
Acknowledgment The authors would like to thanks for the financial support of the Undergraduate Student Science and Technology Creativity Program of Zhejiang Agriculture & Forestry University (No. 100419), and Natural Science Foundation of Zhejiang Province of China (No.Y3100124).
Lanka, “Effect of carbon nanotube (CNT) content on the mechanical properties of CNT-reinforced aluminium composites,” Composites Science and Technology, Vol. 70, no. 16, pp. 2237-2241, December 2010
Sun, “Noncovalent functionalization of carbon nanotubes with sodium lignosulfonate and subsequent quantum dot decoration,” Journal of Physical Chemistry C, Vol. 111, no. 3, pp. 1223-1229, January 2007
Experimental Materials.
Acknowledgment The authors would like to thanks for the financial support of the Undergraduate Student Science and Technology Creativity Program of Zhejiang Agriculture & Forestry University (No. 100419), and Natural Science Foundation of Zhejiang Province of China (No.Y3100124).
Lanka, “Effect of carbon nanotube (CNT) content on the mechanical properties of CNT-reinforced aluminium composites,” Composites Science and Technology, Vol. 70, no. 16, pp. 2237-2241, December 2010
Sun, “Noncovalent functionalization of carbon nanotubes with sodium lignosulfonate and subsequent quantum dot decoration,” Journal of Physical Chemistry C, Vol. 111, no. 3, pp. 1223-1229, January 2007
Online since: March 2018
Authors: Iwanori Murakami, Yoshinori Ando, Koji Chigira, Takahito Kurahashi
Murakami, Development of Cylindrical Magnetic Gear Prototype, International Journal of Applied Electromagnetics and Mechanics, 33, 1397-1404 (2010)
Yamada, Dynamical Performance Test of Cylindrical Magnetic Gear, Journal of the Japan Society of Applied Electromagnetics and Mechanics, 19, 473-478 (2011)
Yamada, Analysis and Experiment of Cylindrical Magnetic Gear, Materials Science Forum, 721, 249-254 (2012)
Murakami and Yamada, Relationship between Number of Teeth and Transmission Torque on Cylindrical Magnetic Gear, Materials Science Forum,792, 349-354 (2014) [5] Y.
Yamada, Relationship between number of teeth and positioning accuracy on cylindrical magnetic gear, International Journal of Applied Electromagnetics and Mechanics, 45, 75-82 (2014)
Yamada, Dynamical Performance Test of Cylindrical Magnetic Gear, Journal of the Japan Society of Applied Electromagnetics and Mechanics, 19, 473-478 (2011)
Yamada, Analysis and Experiment of Cylindrical Magnetic Gear, Materials Science Forum, 721, 249-254 (2012)
Murakami and Yamada, Relationship between Number of Teeth and Transmission Torque on Cylindrical Magnetic Gear, Materials Science Forum,792, 349-354 (2014) [5] Y.
Yamada, Relationship between number of teeth and positioning accuracy on cylindrical magnetic gear, International Journal of Applied Electromagnetics and Mechanics, 45, 75-82 (2014)
Online since: September 2007
Authors: Yao Wu Shi, Yuan Bin Zhang
Study on the Carbides and the Interface Bonding in Surfacing
Welding Metal
Yuanbin ZHANG1, 2, a and Yaowu SHI1, b
1
School of Materials Science and Engineering, Beijing University of Technology,
Beijing 100022, China
2
School of Materials Science and Engineering, Shandong Architecture University,
Jinan, 250101, China
a
zhang_yuanbin@163.com, bshiyw@bjut.edu.cn
Keywords: Second phase; Interface; Surfacing welding metal; Carbide.
ZOU: Chinese Journal of Mechanical Engineering, 1997, Vol. 33(6):58-63 [3] D.Y.
REN: Journal of the Chinese Rare Earth Society, 1998, Vol. 16(2):154-157 [4] Q.X.
LIAO: Journal of the Chinese Rare Earth Society, 2000, Vol.18 (2):138-141 [5] Q.L.
SUN: The Science Bulletin, 1989(6):467-470
ZOU: Chinese Journal of Mechanical Engineering, 1997, Vol. 33(6):58-63 [3] D.Y.
REN: Journal of the Chinese Rare Earth Society, 1998, Vol. 16(2):154-157 [4] Q.X.
LIAO: Journal of the Chinese Rare Earth Society, 2000, Vol.18 (2):138-141 [5] Q.L.
SUN: The Science Bulletin, 1989(6):467-470
Online since: June 2010
Authors: Zhao Liang Jiang, Yu Mei Liu, Yun Xiao Shan
Acknowledgment
The authors acknowledge support by the Research Award Foundation for Outstanding Young
Scientist in Shandong Province under Grant Number BS2009ZZ014 and Shandong Postdoctoral
Innovative Science Foundation under Grant Number 200903052.
Poo: International Journal of Machine Tools & Manufacture Vol. 40 (2000), p. 1235 [2] Amy J.c.
Trappey, Chunsheng Su and Jiangliang Hou: Manufacturing science and engineering Vol. 3-1(1995), p. 777 [3] Weifang Chen, Lijun Ni and Jianbin Xue: Int J Adv Manuf Technol Vol. 38(2008), p. 860 [4] Zhou Xiaolun, Zhang Weihong, Qin Guohua and Zhang Erliang: Mechanical Science and Technology, Vol. 24(2005), p. 339 [5] Zhaoliang Jiang and X.X.Meng: Advanced Materials Research Vol. 102-104 (2010) , p. 12 [6] E.
Budak: International Journal of Machine Tools & Manufacture Vol. 46 (2006) , p. 1478 [7] Tang Aijun and Liu Zhanqiang: Journal of materials processing technology Vol. 206 (2008), p. 345 X Y X Z Support Support Cutting force Clamping force Support Clamping force Fig.3 Deformation caused by fixture and cutting force O O
Poo: International Journal of Machine Tools & Manufacture Vol. 40 (2000), p. 1235 [2] Amy J.c.
Trappey, Chunsheng Su and Jiangliang Hou: Manufacturing science and engineering Vol. 3-1(1995), p. 777 [3] Weifang Chen, Lijun Ni and Jianbin Xue: Int J Adv Manuf Technol Vol. 38(2008), p. 860 [4] Zhou Xiaolun, Zhang Weihong, Qin Guohua and Zhang Erliang: Mechanical Science and Technology, Vol. 24(2005), p. 339 [5] Zhaoliang Jiang and X.X.Meng: Advanced Materials Research Vol. 102-104 (2010) , p. 12 [6] E.
Budak: International Journal of Machine Tools & Manufacture Vol. 46 (2006) , p. 1478 [7] Tang Aijun and Liu Zhanqiang: Journal of materials processing technology Vol. 206 (2008), p. 345 X Y X Z Support Support Cutting force Clamping force Support Clamping force Fig.3 Deformation caused by fixture and cutting force O O
Online since: October 2012
Authors: Bing Li, Lin Li, Xiao Ling Xie, Shou Li Dong, Zhen Bo Xu
Materials and Methods
Materials.
Acknowledgements This work is supported by the National Natural Science of China (No. 31130042 & 20976061), Natural Science Foundation of Guangdong (No.9151064101000012) and NCET (NCET-10-0395).
Ching, Cross-linked enzyme aggregates (CLEAs) with controlled particles: Application to Candida rugosa lipase, Journal of Molecular Catalysis B: Enzymatic. 43 (2006) 124–127
Christakopoulos, Preparation of multipurpose cross-linked enzyme aggregates and their application to production of alkyl ferulates, Journal of Molecular Catalysis B: Enzymatic. 54 (2008) 35-41
International Journal of Biological Macromolecules. 43 (2008) 314-319.
Acknowledgements This work is supported by the National Natural Science of China (No. 31130042 & 20976061), Natural Science Foundation of Guangdong (No.9151064101000012) and NCET (NCET-10-0395).
Ching, Cross-linked enzyme aggregates (CLEAs) with controlled particles: Application to Candida rugosa lipase, Journal of Molecular Catalysis B: Enzymatic. 43 (2006) 124–127
Christakopoulos, Preparation of multipurpose cross-linked enzyme aggregates and their application to production of alkyl ferulates, Journal of Molecular Catalysis B: Enzymatic. 54 (2008) 35-41
International Journal of Biological Macromolecules. 43 (2008) 314-319.
Online since: July 2011
Authors: Wei Yang, Ming Si Qi, Wen Dong Zhang, Hong Mei Wang, Bo Li
Table 1 Material parameters
Material
Young modulus (GP)
Poisson ratio
Density (Kg/m3)
Aluminum foam
1.0
0.3
370
Polyurethane
9.9
0.3
370
Cushioning model is shown in Fig. 1, the five small cylinders is aluminum foam material, and the rest is polyurethane material.
When composites is impacted it begins to absorb energy, except for energy dissipation through their foam deformation, collapse, rupture, cell wall friction and other forms, it can also dissipate part of energy by the friction between the two materials.
Acknowledgements This work was financially supported by Chinese Natural Science Funds (50675213), Excellent Innovation Program of Shanxi Province Graduate Student(20093075) and North University of China Science Funds.
Journal of Materials Science, 2001 (36): 2773-2786
Standard test metheods for flexible cellular materials—slab, bonded, and molded urethane foams[s].
When composites is impacted it begins to absorb energy, except for energy dissipation through their foam deformation, collapse, rupture, cell wall friction and other forms, it can also dissipate part of energy by the friction between the two materials.
Acknowledgements This work was financially supported by Chinese Natural Science Funds (50675213), Excellent Innovation Program of Shanxi Province Graduate Student(20093075) and North University of China Science Funds.
Journal of Materials Science, 2001 (36): 2773-2786
Standard test metheods for flexible cellular materials—slab, bonded, and molded urethane foams[s].
Online since: September 2011
Authors: Yan Zi Yin, Heng Tian, Ling Ling Gong, Ji Hui Wang, Ze Hui Yang, Jiu Xiao Sun
This type coating is a kind of simple heat-resistant coating embedded in composite materials used in the large aircraft.
However, composite materials are very sensitive to damage because of no reinforcement materials in thickness direction.
The optical fiber sensor has many unique advantages, for example, small, material compatibility, distribution measurement, and so on; thereby optical fiber intelligent materials and structures are developing very quickly in recent years [1-5].
Journal of Lightwave Technology.17 (9) (1999), p.1657-1661
Materials Chemistry and Physics.56(1) (1998),p. 91-95.
However, composite materials are very sensitive to damage because of no reinforcement materials in thickness direction.
The optical fiber sensor has many unique advantages, for example, small, material compatibility, distribution measurement, and so on; thereby optical fiber intelligent materials and structures are developing very quickly in recent years [1-5].
Journal of Lightwave Technology.17 (9) (1999), p.1657-1661
Materials Chemistry and Physics.56(1) (1998),p. 91-95.
Online since: September 2008
Authors: Yousef Razouk, Eric Duhayon, Bertrand Nogarede
Introduction
In many applications of ferromagnetic materials both the magnetic properties and also the
mechanical properties of these materials are important.
The majority of magnetic materials, such as ferromagnetic metals, and alloys of metals and ceramic materials, show small susceptibility to deformation, and are also frequently brittle [1] .
Materials Science and Engineering (2000), p.89-100
Chinese journal of physics Vol. 38, N°2-I April 2000
New Journal of Physics 5 (2003) p.1-10
The majority of magnetic materials, such as ferromagnetic metals, and alloys of metals and ceramic materials, show small susceptibility to deformation, and are also frequently brittle [1] .
Materials Science and Engineering (2000), p.89-100
Chinese journal of physics Vol. 38, N°2-I April 2000
New Journal of Physics 5 (2003) p.1-10
Online since: May 2012
Authors: Shou Yan Zhong, Se Kou Singare
It is further influenced by the type, property of the cushion material and nature of loading.
Acknowledgements The authors acknowledge the support provided by Dongguan Science and Technology Project (2007108101007) in this study.
Journal of Rehabilitation Sciences. 9,93-96
J Rehabil Res, 27(2):135-140 [9] Chow WW: Mechanical properties of gels and other materials with respect to their use in pads transmitting forces to the human body.
Journal of Rehabilitation Research and Development Vol . 27 No . 2, 1990 Pages 135-140 [12] Colbert AP, Doyle KM, Webb WE .
Acknowledgements The authors acknowledge the support provided by Dongguan Science and Technology Project (2007108101007) in this study.
Journal of Rehabilitation Sciences. 9,93-96
J Rehabil Res, 27(2):135-140 [9] Chow WW: Mechanical properties of gels and other materials with respect to their use in pads transmitting forces to the human body.
Journal of Rehabilitation Research and Development Vol . 27 No . 2, 1990 Pages 135-140 [12] Colbert AP, Doyle KM, Webb WE .
Online since: April 2014
Authors: Fu Tong Wang, Li Li Xie, Xia Xin Tao, Xin Zheng, Yan Zhang
There are two ground models with two combinations of materials in Table 1.
Xi’An: Xi’An University of Science and Technology, 2005.
Journal of Sound and Vibration. (1999) 225(1): 3-28
Journal of Sound and Vibration. (1999) 228(1):129-156
Journal of Sound and Vibration. (1998) 212(1): 61-67.
Xi’An: Xi’An University of Science and Technology, 2005.
Journal of Sound and Vibration. (1999) 225(1): 3-28
Journal of Sound and Vibration. (1999) 228(1):129-156
Journal of Sound and Vibration. (1998) 212(1): 61-67.