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Online since: January 2012
Authors: Xiao Wu Tang, Min Yun Hu, Qiao Hao Chen, Ying Shen
This helps understand the induced anisotropy by compression through granular materials.
Micromechanics of Granular Materials [M].
Contact forces in anisotropic frictional granular materials [J].
International Journal of Solids and Structures, 40: 3537–3556, 2003
Contact force measurements and stress-induced anisotropy in granular materials [J].
Micromechanics of Granular Materials [M].
Contact forces in anisotropic frictional granular materials [J].
International Journal of Solids and Structures, 40: 3537–3556, 2003
Contact force measurements and stress-induced anisotropy in granular materials [J].
Online since: August 2010
Authors: Ching Wen Lin, Chin Mei Lin, Ching Wen Lou, Jia Horng Lin, Yi Chang Yang, Yu Tien Huang
Experimental
Materials and Methods.
Because other sample B's, made up of four or five layers, were more stiff, so they were appropriate materials for be plates.
The four- or five-layers sample B and C were ideal materials for protective plates.
Donnelly: International Journal of Cancer, Vol. 82 (1999), p. 161-170
Lee: Journal of Thermoplastic Composite Materials, Vol. 13 (2000), p. 378-399
Because other sample B's, made up of four or five layers, were more stiff, so they were appropriate materials for be plates.
The four- or five-layers sample B and C were ideal materials for protective plates.
Donnelly: International Journal of Cancer, Vol. 82 (1999), p. 161-170
Lee: Journal of Thermoplastic Composite Materials, Vol. 13 (2000), p. 378-399
Online since: September 2013
Authors: Liang Bin Hu, Jia Zhu Zou, Feng Wei Yuan
The material was Corten Steel.
Acknowledgements This work was financially supported by the Hunan Science and Technology Foundation Project(2012GK3130).
Zhao: Science and Technology Innovation Herald, 2012 NO.21, p109.
Li: Journal of North China Electric Power University (Natural Science Edition), Vol. 39(2012) No. 2, p103.
[8] Chowdhury N, Zhu J an d Nakhla G: Journal of Environmental Engineering-Asce, Vol.136 (2010), No.9, p906.
Acknowledgements This work was financially supported by the Hunan Science and Technology Foundation Project(2012GK3130).
Zhao: Science and Technology Innovation Herald, 2012 NO.21, p109.
Li: Journal of North China Electric Power University (Natural Science Edition), Vol. 39(2012) No. 2, p103.
[8] Chowdhury N, Zhu J an d Nakhla G: Journal of Environmental Engineering-Asce, Vol.136 (2010), No.9, p906.
Online since: June 2014
Authors: Fen E Hu, Huiping Wang, You Ming Shi
The antibacterial property of the nano-silver is better than other silver-containing materials [4].
Journal of Southwest University (Natural Science Edition), 2013, 35(11): 157-163
Materials Chemistry and Physics, 2009, 113 (1): 474–479
Journal of Wuhan Institute of Technology, 2010,32(11):1-7
New Chemical Materials, 2011, 39(8): 57-59
Journal of Southwest University (Natural Science Edition), 2013, 35(11): 157-163
Materials Chemistry and Physics, 2009, 113 (1): 474–479
Journal of Wuhan Institute of Technology, 2010,32(11):1-7
New Chemical Materials, 2011, 39(8): 57-59
Online since: February 2009
Authors: K.J. Osinubi, Thomas Stephen Ijimdiya, I. Nmadu
This value meets the recommended
criteria for subgrade materials.
The resultant ash was carefully sieved through 0.075mm aperture sieve to remove unwanted materials.
Proc. 4th Nigerian Materials Congress, NIMACON 2005, November, Zaria. p. 41
Proc. 4th Nigerian Materials Congress, NIMACON 2005, November, Zaria.
Of Bi-monthly Meeting/Workshop organized by the Zaria Chapter of Materials Society of Nigeria, p. 1
The resultant ash was carefully sieved through 0.075mm aperture sieve to remove unwanted materials.
Proc. 4th Nigerian Materials Congress, NIMACON 2005, November, Zaria. p. 41
Proc. 4th Nigerian Materials Congress, NIMACON 2005, November, Zaria.
Of Bi-monthly Meeting/Workshop organized by the Zaria Chapter of Materials Society of Nigeria, p. 1
Online since: August 2014
Authors: Fu Xiao Chen, Wen Fang Zhang
And I adopt concrete damage model to define material properties.
Because masonry structure is a two-phase composite material that is built by brick and mortar two materials of distinct properties, in the process of the finite element modeling, simulation unit difficult, resulting in slow development of finite element analysis of masonry structures.
The mode of the finite element model of masonry structure The masonry structure is a two-phase composite material that is built by brick and mortar two materials of distinct properties, there are usually two types of models of its finite element analysis: a.Separate model.
Journal of Architecture and Structure Vol. 36-11 (2006), p. 77 [2] Zhou Yun, Zhang Wenfang and Zong Lan: Seismic Design of Civil Engineering (Science Publications, China 2011)
Journal of China Water Transport Vol. 9-1 (2009), p. 258.
Because masonry structure is a two-phase composite material that is built by brick and mortar two materials of distinct properties, in the process of the finite element modeling, simulation unit difficult, resulting in slow development of finite element analysis of masonry structures.
The mode of the finite element model of masonry structure The masonry structure is a two-phase composite material that is built by brick and mortar two materials of distinct properties, there are usually two types of models of its finite element analysis: a.Separate model.
Journal of Architecture and Structure Vol. 36-11 (2006), p. 77 [2] Zhou Yun, Zhang Wenfang and Zong Lan: Seismic Design of Civil Engineering (Science Publications, China 2011)
Journal of China Water Transport Vol. 9-1 (2009), p. 258.
Online since: July 2012
Authors: Wei Cai, Hong Wei Jin, Xiao Mei Wang, Chun Rong Zhu, Meng Tao Yang
Chongqing University of Science and Technology, Shapingba District, Chongqing, China
2.
China Agricultural Machinery Testing Center, No.96 Dongsanhuan Nanlu, Beijing, China a. yangmengtao2002@yahoo.com.cn;b. zhucr_love@126.com;c. camtc@126.com; d. caiwei_cqu@163.com;e. wangxmabc@yahoo.com.cn Key words: Agilent E4980A LCR Temperature PID Function material Abstract: Aiming at the complicated situation of artificial testing function materials, a set of automatic test system based on Agilent E4980A is developed.
The card shows the readings on the test results of a plurality of functional materials at various stages of temperature conditions , automatically completing the storage and analysis of electrical parameters.
It can be a good method and reference resource available for the development of such test system. 1 Introduction The test of functional materials on the electrical performance parameters is a fundamentally important job.
Fully and accurately grasping the function of these characteristics of the material is of vital important for analysis to improve its performance. [1] Traditionally, this type of testing is done in the different test conditions (frequency, voltage, temperature) by use of the instrument and record of the test apparatus and the operation test of artificial point by point, followed by manual or computer-aided analysis and processing of the test data.
China Agricultural Machinery Testing Center, No.96 Dongsanhuan Nanlu, Beijing, China a. yangmengtao2002@yahoo.com.cn;b. zhucr_love@126.com;c. camtc@126.com; d. caiwei_cqu@163.com;e. wangxmabc@yahoo.com.cn Key words: Agilent E4980A LCR Temperature PID Function material Abstract: Aiming at the complicated situation of artificial testing function materials, a set of automatic test system based on Agilent E4980A is developed.
The card shows the readings on the test results of a plurality of functional materials at various stages of temperature conditions , automatically completing the storage and analysis of electrical parameters.
It can be a good method and reference resource available for the development of such test system. 1 Introduction The test of functional materials on the electrical performance parameters is a fundamentally important job.
Fully and accurately grasping the function of these characteristics of the material is of vital important for analysis to improve its performance. [1] Traditionally, this type of testing is done in the different test conditions (frequency, voltage, temperature) by use of the instrument and record of the test apparatus and the operation test of artificial point by point, followed by manual or computer-aided analysis and processing of the test data.
Online since: May 2012
Authors: Tiao Tiao Zhou, Liu Jun Liu, Xian Liang Song, Yang Bai
Experimental
Materials
Industrial camphene(camphene content of 80-86%) was purchased from Deqing Fine Chemical Corporation in Guangdong province, China.
H-mordenite catalyst to raw materials weight ratio of 0.05:1.
Kuchin: Russian Journal of Organic Chemistry.
Feng, et al: Chinese Journal of Organic Chemistry. (03) (1995), p. 318-322.
Feng: Chinese Journal of Organic Chemistry.
H-mordenite catalyst to raw materials weight ratio of 0.05:1.
Kuchin: Russian Journal of Organic Chemistry.
Feng, et al: Chinese Journal of Organic Chemistry. (03) (1995), p. 318-322.
Feng: Chinese Journal of Organic Chemistry.
Online since: July 2013
Authors: Bin Long, Lin Jiang, Wei Ming Xian, Hou Jun Wang
Several major drawbacks prevent PoF from being widely used: First, PoF based method requires extensive knowledge of batteries loading conditions, material properties, and failure mechanisms.
Data driven method, on the other hand, is less complex because it does not require specific knowledge of material properties and avoids developing high-level physical model.
Popov, “Development of first principles capacity fade model of Li-ion cells,” Journal of the Electrochemical Society, vol. 151, no. 2, p.
Lim, “Factors that affect cycle-life and possible degration mechanisms of a Li-ion cell based ong LiCoO2,” Journal of Power Sources, vol. 111, p. 130-136 (2002)
Liaw, “Identify capacity fading mechanism in a commercial LiFePO4 cell,” Journal of Power Source, vol. 194, p. 541-549 (2009)
Data driven method, on the other hand, is less complex because it does not require specific knowledge of material properties and avoids developing high-level physical model.
Popov, “Development of first principles capacity fade model of Li-ion cells,” Journal of the Electrochemical Society, vol. 151, no. 2, p.
Lim, “Factors that affect cycle-life and possible degration mechanisms of a Li-ion cell based ong LiCoO2,” Journal of Power Sources, vol. 111, p. 130-136 (2002)
Liaw, “Identify capacity fading mechanism in a commercial LiFePO4 cell,” Journal of Power Source, vol. 194, p. 541-549 (2009)
Online since: March 2013
Authors: Jian Yong Li, Yong Ping Lei, Xiao Jun Yang
Introduction
High-permittivity ceramic–polymer composites are known to be very useful materials for variety of electronic applications, such as embedded PCB, ultra-capacitors for energy storage, transducers, piezo-sensors, hydrophones, etc.[1-4] Ceramic–polymer composites were widely studied for its important potential application.
References [1] Dong-Hau Kuo, Chien-Chih Chang, Te-Yeu Su, Wun-Ku Wang and Bin-Yuan Lin: Materials Chemistry and Physics, Vol.85 (2004), p. 201 [2] Yang Rao and C.
Wong: Journal of Applied Polymer Science, Vol. 92 (2004), p.2228 [3] Yang Rao, S.
Wong: Journal of Applied Polymer Science, Vol. 83 (2002), p.1084 [4] S.U.
Chiang: Materials Science and Engineering B, Vol.139 (2007), p.48 [6] Y.
References [1] Dong-Hau Kuo, Chien-Chih Chang, Te-Yeu Su, Wun-Ku Wang and Bin-Yuan Lin: Materials Chemistry and Physics, Vol.85 (2004), p. 201 [2] Yang Rao and C.
Wong: Journal of Applied Polymer Science, Vol. 92 (2004), p.2228 [3] Yang Rao, S.
Wong: Journal of Applied Polymer Science, Vol. 83 (2002), p.1084 [4] S.U.
Chiang: Materials Science and Engineering B, Vol.139 (2007), p.48 [6] Y.