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Online since: September 2011
Authors: Xin Jin Liu, Wei Dong Gao, Xu Zhong Su, Ting Ting Wu, Yun Zhang
Experimental
Materials and methods
100% cotton yarns of the counts Ne 20s, 30s, 40s, 50s, 60s were spun in the modified ring spinning system invented by our group under various offsets in a modified EJM 128k ring spinning frame with the diagonal devices.
Xu: Textile Research Journal Vol. 11 (2007), P.853
Xu: Textile Research Journal Vol. 2 (2010) , P.116
Ren: Shang Hai Textile Science &Technology Vol. 3 (2009), P.16
Liu: Progress in Textile Science & Technology Vol. 2 (2009), P.39
Xu: Textile Research Journal Vol. 11 (2007), P.853
Xu: Textile Research Journal Vol. 2 (2010) , P.116
Ren: Shang Hai Textile Science &Technology Vol. 3 (2009), P.16
Liu: Progress in Textile Science & Technology Vol. 2 (2009), P.39
Online since: July 2020
Authors: Shaker S. Hassan, Ahmed N. Al-Khazraji, Orhan Sabah Abdullah
As polymers and their composites selected to use in mechanical applications which required materials with good stability at elevated temperatures, and as known that polymers have a high tendency to creep at low temperature, therefore it is necessary to estimate the creep behavior of selected materials.
Experimental Details Materials.
Kessler, Creep behavior of carbon fiber/epoxy matrix composites, Materials Science and Engineering part A. 421 (2006) 217-225
Kato, Analysis and prediction of creep viscoelasticity in nylon 6 clay hybrid nanocomposites, Journal of solid mechanics and material engineering. 4 (2010) 856-863
Ornaghi, On the creep behavior of carbon/epoxy non-crimp fabric composites, Materials Research. 21 (2018)
Experimental Details Materials.
Kessler, Creep behavior of carbon fiber/epoxy matrix composites, Materials Science and Engineering part A. 421 (2006) 217-225
Kato, Analysis and prediction of creep viscoelasticity in nylon 6 clay hybrid nanocomposites, Journal of solid mechanics and material engineering. 4 (2010) 856-863
Ornaghi, On the creep behavior of carbon/epoxy non-crimp fabric composites, Materials Research. 21 (2018)
Online since: December 2012
Authors: Rui Xu, Jin Zheng, Cui Fan, Yuan Yuan Gao
Current Opinion in solid state & Materials Science, vol. 2, pp. 584-587,1997
Journal of the Ceramic Society of Japan, vol. 108(1260), pp. 769-773, 2000
Journal of the Ceramic Socety of Japan, vol. 110(4), pp. 329-332, 2001
Materials Research Society, vol. 19(6), pp. 1669-1674, 2004
Journal of European Ceramic Society, vol. 24, pp. 507-510, 2004
Journal of the Ceramic Society of Japan, vol. 108(1260), pp. 769-773, 2000
Journal of the Ceramic Socety of Japan, vol. 110(4), pp. 329-332, 2001
Materials Research Society, vol. 19(6), pp. 1669-1674, 2004
Journal of European Ceramic Society, vol. 24, pp. 507-510, 2004
Online since: September 2013
Authors: Hong Bo Li, Rui Wang, Dian Kui Li, Chun Jie Li
A improved screening algorithm of the Dynamic probability
Chunjie Li 1,a, Hongbo Li2,b,Rui Wang1,c and Diankui Li1,d
1Department of Information and Electronic Technology, Jiamusi University, Jiamusi,154007, China;
2Department of Materials Science and Engineering, Jiamusi University, Jiamusi,154007, China;
alichunjie1977@126.com,bjiamusilihongbo@163.com,cjiechengbao@163.com, dbeauties@163.com
Keywords: improved, dynamic probability, screening algorithm
Abstract.
[3] Zhaohong Jia, Huaping Chen,Jun Tang: Journal of Journal of System Simulation, Vol. 20(2008), p.4959-4963, in Chinese
[4] Ying Wen,Rongsheng Dong: Journal of Chinese Computer Systems,29(2008), p.417-421
[5] Chunjie Li, Hong Zhou, Muye Pan etc.: Journal of Jiamusi University(Natural Science Edition), Vol. 29(2011), p.739-741, in Chinese
[6] Yun Wang: Journal of Science & Technology Information,23(2010), p.84-85, in Chinese.
[3] Zhaohong Jia, Huaping Chen,Jun Tang: Journal of Journal of System Simulation, Vol. 20(2008), p.4959-4963, in Chinese
[4] Ying Wen,Rongsheng Dong: Journal of Chinese Computer Systems,29(2008), p.417-421
[5] Chunjie Li, Hong Zhou, Muye Pan etc.: Journal of Jiamusi University(Natural Science Edition), Vol. 29(2011), p.739-741, in Chinese
[6] Yun Wang: Journal of Science & Technology Information,23(2010), p.84-85, in Chinese.
Online since: October 2013
Authors: Jia Chun Lu, Hua Li, Guang Yu Cheng, Yang Ni Zhu, Xin Biao Jiang
Kim: J Material Science Vol. 25(1990), p.2897
Lemmon,et al: Journal of Power Sources Vol. 195(2010), p.2431 [3]G.
[4]J.H.Parker, K H Kim, S K Lim: Journal of Materials Science Vol. 33(1998), p5671
Xu, et al: Journal of Power Sources Vol. 184(2008), p.41
Heavens: Journal of Materials Science Vol. 19(1984), p.2223 [7]G.
Lemmon,et al: Journal of Power Sources Vol. 195(2010), p.2431 [3]G.
[4]J.H.Parker, K H Kim, S K Lim: Journal of Materials Science Vol. 33(1998), p5671
Xu, et al: Journal of Power Sources Vol. 184(2008), p.41
Heavens: Journal of Materials Science Vol. 19(1984), p.2223 [7]G.
Online since: March 2010
Authors: Jin Sheng Zhang, Zheng Mei Zhang, Sheng Gao, Cheng Rui Lu, Chun Ying Zheng
Experimental Procedure
Equipment and Material.
Brook: International Journal of Rock Mechanics & Mining Sciences.
Ersoy: Journal of Materials Processing Technology.
[5] Shinsaku Hagiwara, Shuji Iwata, Toshiyuki Obikawa and Eiji Usui: Journal of Materials Processing Technology.
S: International Journal of Machine Tools and Manufacture.
Brook: International Journal of Rock Mechanics & Mining Sciences.
Ersoy: Journal of Materials Processing Technology.
[5] Shinsaku Hagiwara, Shuji Iwata, Toshiyuki Obikawa and Eiji Usui: Journal of Materials Processing Technology.
S: International Journal of Machine Tools and Manufacture.
Online since: December 2014
Authors: Fu Ying Li, Ren Zhang Wang, Yu Niu
The strategies to develop high efficient and visible-light-driven photocatalysts includes development of new non-TiO2 based materials and homogeneous Fenton system.
Nano-photocatalytic materials: possibilities and challenges.
Environmental science & technology 2001;35:2365-8
Environmental science & technology 2004;38:1600-4
Environmental science & technology 2001;35:971-6
Nano-photocatalytic materials: possibilities and challenges.
Environmental science & technology 2001;35:2365-8
Environmental science & technology 2004;38:1600-4
Environmental science & technology 2001;35:971-6
Online since: October 2014
Authors: Yan Ying Weng, Guang Kuang Deng
Experiment results show that the optimum extraction conditions for 5.0 g raw materials are as followed: the volume fraction of ethanol solution saturated the materials is 60% , the volume of water is 19 times to material.
Materials Test materials.
Xue: Modern Journal of Integrated Traditional Chinese and Western Medicine.
Liu: Liaoning University (Natural Sciences Edition).
Tong: Food science.
Materials Test materials.
Xue: Modern Journal of Integrated Traditional Chinese and Western Medicine.
Liu: Liaoning University (Natural Sciences Edition).
Tong: Food science.
Online since: July 2017
Authors: R.N. Faria, Rene Ramos de Oliveira, S. K. Sakata, Antonio Paulo Rodrigues Fernandez, Julio César Serafim Casini
Temperatures as low as 200oC and as high as 1100oC have been employed for producing supercapacitor materials [8].
Rao: International Journal of Nanoscience Vol. 4 (4-5) (2011), p. 559
Ghoreyshi: Journal of Energy and Environment Vol. 4 (1) (2013), p. 53
Takiishi: Materials Science Forum (2008) 591-593
Faria: Materials Sciences and Applications Vol. 5 (2014), p. 504
Rao: International Journal of Nanoscience Vol. 4 (4-5) (2011), p. 559
Ghoreyshi: Journal of Energy and Environment Vol. 4 (1) (2013), p. 53
Takiishi: Materials Science Forum (2008) 591-593
Faria: Materials Sciences and Applications Vol. 5 (2014), p. 504
Online since: July 2012
Authors: Jin Ping Wang, Yu Jing Gao, De Hua Wang
aShandong Vocational College of science & Technology,Weifang,Shandong 261053,China
bShandong Vocational College of science & Technology,Weifang,Shandong 261053,China
a,bShandong Vocational College of science & Technology,Weifang,Shandong 261053,China
sdzywjp@163.com.
flexibility —theoretical value * arithmetic solution Picture 4—1 Anti-elastic contact force elasto plasticity —theoretical value arithmetic solution ,, Picture 4—2 Elasto-plastic contact force express the most pointreaction force; express bandwidth;E express elasticity modulus of materials.
References [1] ZHANG-zheng , ZHAO-meiying, and WAN-xiaopeng, “An Adaptive Element-free Galerkin Model for Contact Problems”, Decemberl, Journal of Northwestern Polytechnical University, XiAn, 2007, pp. 3-9
[3] JIA-liang, HUANG-qiqing, and YIN-zhiping, “Meshless - the Finite Element of a Direct Coupling Method”, June, Journal of Northwestern Polytechnical University, XiAn, 2003, pp. 337-340
[6] LI-yazhi, ZHAO-meiying, and WAN-xiaopeng, Finite Element and Program Design, Science Press,BeJing, 2007.
flexibility —theoretical value * arithmetic solution Picture 4—1 Anti-elastic contact force elasto plasticity —theoretical value arithmetic solution ,, Picture 4—2 Elasto-plastic contact force express the most pointreaction force; express bandwidth;E express elasticity modulus of materials.
References [1] ZHANG-zheng , ZHAO-meiying, and WAN-xiaopeng, “An Adaptive Element-free Galerkin Model for Contact Problems”, Decemberl, Journal of Northwestern Polytechnical University, XiAn, 2007, pp. 3-9
[3] JIA-liang, HUANG-qiqing, and YIN-zhiping, “Meshless - the Finite Element of a Direct Coupling Method”, June, Journal of Northwestern Polytechnical University, XiAn, 2003, pp. 337-340
[6] LI-yazhi, ZHAO-meiying, and WAN-xiaopeng, Finite Element and Program Design, Science Press,BeJing, 2007.