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Online since: January 2012
Authors: C.W.M. Yuen, C.W. Kan, W.Y.I. Tsoi
We seek to determine a controlled hydrophobic modification of textile materials through the optimization of the fabrication process.
This study seeks to determine a controlled hydrophobisation of textile materials through the optimization of the plasma process.
Detailed examination of the surface properties of the plasma-modified fabric was investigated with the use of wetted area measurement Experimental Materials.
Bourham, Journal of Applied Polymer Science. 94 (2004) 2383
Poncin-Epaillard, Journal of Adhesion Science and Technology. 23 (2009) 447
This study seeks to determine a controlled hydrophobisation of textile materials through the optimization of the plasma process.
Detailed examination of the surface properties of the plasma-modified fabric was investigated with the use of wetted area measurement Experimental Materials.
Bourham, Journal of Applied Polymer Science. 94 (2004) 2383
Poncin-Epaillard, Journal of Adhesion Science and Technology. 23 (2009) 447
Online since: October 2012
Authors: Guang Sheng Zeng, Cheng Xu
Materials and Methods
Materials.
The coupling agent LDPE-g-MAH was bought from Korida polymer materials Ltd.
Gotama: Journal of Thermoplastic Composite Materials, Vol. 21 (2008) No.3, pp. 195-208
Simonsen: Journal of Applied Polymer Science, Vol. 91 (2004) No.6, pp. 3667-3772
Okamoto: Journal of Wood Science, Vol. 54 (2008) No.1, pp. 54-61
The coupling agent LDPE-g-MAH was bought from Korida polymer materials Ltd.
Gotama: Journal of Thermoplastic Composite Materials, Vol. 21 (2008) No.3, pp. 195-208
Simonsen: Journal of Applied Polymer Science, Vol. 91 (2004) No.6, pp. 3667-3772
Okamoto: Journal of Wood Science, Vol. 54 (2008) No.1, pp. 54-61
Online since: July 2014
Authors: Xiao Jing Yang, Han Qing Gu
Metallic Materials-Instrumented Indentation Test for Hardness and Materials Parameters.
Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research, 7(6)( 1992): 1564-1580
Applied Mechanics and Materials, 36(6)( 2004):680-687
Analysis of tip effects in nanoindentation ,Journal of University of Science and Technology of China, 39(4) (2009):403-408
Chinese Journal of Materials Research,23(2)(2009):180-186.
Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research, 7(6)( 1992): 1564-1580
Applied Mechanics and Materials, 36(6)( 2004):680-687
Analysis of tip effects in nanoindentation ,Journal of University of Science and Technology of China, 39(4) (2009):403-408
Chinese Journal of Materials Research,23(2)(2009):180-186.
Online since: August 2016
Authors: Xun Yao, De Liang Zhang, Yong Jun Su, Yi Feng Zheng
Ranganath: Journal of Materials Science, 32 (1997), pp. 1-16
Chen: Materials Science and Engineering A, 487 (2008), pp. 137-143
Zhang: Materials Science and Engineering A, 311 (2001), pp. 142-150
Vilar: Journal of Materials Processing Technology, 211 (2011), pp. 597-601
Kang: Materials Science and Engineering A, 333(2002), pp. 343-350
Chen: Materials Science and Engineering A, 487 (2008), pp. 137-143
Zhang: Materials Science and Engineering A, 311 (2001), pp. 142-150
Vilar: Journal of Materials Processing Technology, 211 (2011), pp. 597-601
Kang: Materials Science and Engineering A, 333(2002), pp. 343-350
Online since: November 2021
Authors: Xue Tao Zhang, Yun Yan Peng, Liang Chang, Jing Miao Li, Zhi Juan Zhao, Dong Jin
Materials Science Forum, 2020, 1012:430-435
Applied Mechanics & Materials, 2012, 229-231:14-17
Materials Science Forum, 2013, 773-774: 785-794
Journal of Materials Science, 2005, 40(1):139-144
Materials Science & Engineering A, 2003, 355(1-2):137-143
Applied Mechanics & Materials, 2012, 229-231:14-17
Materials Science Forum, 2013, 773-774: 785-794
Journal of Materials Science, 2005, 40(1):139-144
Materials Science & Engineering A, 2003, 355(1-2):137-143
Online since: October 2011
Authors: Wei Kong, Gang Zhou, Tian Hua Li, Yi Hong Wang
Waterproof material: cementitious capillary crystalline waterproof material (CCCW) XYPEX(admixture and thinner), produced by Beijing Chengrong waterproof material Co., Ltd.
Because of the differences between materials, a limited number of specimens and some measurement errors, experimental data can approximately describe relative dynamic elastic modulus and mass loss rate of concrete specimens in simulative salt lake brine.
References [1] Fanlao Wang, Weiqin Zhang, Youkun Yang: Journal of Qinghai University (Natural Science Edition).
Vol.31, No. 5 (2003), p. 435 (In Chinese) [7] Lianxin Liu: Journal of Building Materials.
Vol.4, No. 4 (2001), p. 395(In Chinese) [8] Weiqin Zhang, Lianxin Liu, Dahu Dai: Journal of Qinghai University (Natural Science Edition).
Because of the differences between materials, a limited number of specimens and some measurement errors, experimental data can approximately describe relative dynamic elastic modulus and mass loss rate of concrete specimens in simulative salt lake brine.
References [1] Fanlao Wang, Weiqin Zhang, Youkun Yang: Journal of Qinghai University (Natural Science Edition).
Vol.31, No. 5 (2003), p. 435 (In Chinese) [7] Lianxin Liu: Journal of Building Materials.
Vol.4, No. 4 (2001), p. 395(In Chinese) [8] Weiqin Zhang, Lianxin Liu, Dahu Dai: Journal of Qinghai University (Natural Science Edition).
Online since: September 2013
Authors: Ying Xia Yu, Bo Lin He, Li Li
The tensile fracture failure mechanism of composite materials was analyzed.
Introduction With the development of science and technology, plastic product was used more and more widely.
[2] Shangguan Q Q, Cai M H: Journal of Shanghai Normal University (Natural Sciences), Vol.37 (2008), P.275(in Chinese)
[4] Diaz J, Rubio L: J Materials Processing Technology, Vol.143 (2003), p.342
[5] Sun A F, Liu M S, Dong Q W: Chinese Journal of Materials Research, Vol.22 (2008), P.333 (in Chinese).
Introduction With the development of science and technology, plastic product was used more and more widely.
[2] Shangguan Q Q, Cai M H: Journal of Shanghai Normal University (Natural Sciences), Vol.37 (2008), P.275(in Chinese)
[4] Diaz J, Rubio L: J Materials Processing Technology, Vol.143 (2003), p.342
[5] Sun A F, Liu M S, Dong Q W: Chinese Journal of Materials Research, Vol.22 (2008), P.333 (in Chinese).
Online since: March 2015
Authors: Bo Tao Wang
The raw materials for AC preparation are mainly divided into wood and coal materials.
Wood raw materials are mainly composed of husk, crop straw and other biomass, while the coal raw materials are mainly composed of lignite, anthracite, petroleum coke and pitch coke [4-7].
Experiments Raw Materials.
Xie, Preparation and modification of activated carbon for benzene adsorption by steam activation in the presence of KOH, International Journal of Mining Science and Technology. 3(2013) 395-402
Zhou, Surface properties of activated carbon from different raw materials, International Journal of Mining Science and Technology. 4(2012) 483-486
Wood raw materials are mainly composed of husk, crop straw and other biomass, while the coal raw materials are mainly composed of lignite, anthracite, petroleum coke and pitch coke [4-7].
Experiments Raw Materials.
Xie, Preparation and modification of activated carbon for benzene adsorption by steam activation in the presence of KOH, International Journal of Mining Science and Technology. 3(2013) 395-402
Zhou, Surface properties of activated carbon from different raw materials, International Journal of Mining Science and Technology. 4(2012) 483-486
Online since: January 2014
Authors: Min Zhou, Kai Fu Zhou, Wen Jie Ge, Bi Yuan Wang, Da Fu Cao
Journal of Cleaner Production, 2011, 19:272-277
Construction and Building Materials, 2011, 25:313-319
Journal of Materials In Civil Engineering, 2010, 22:469-475
Construction and Building Materials, 2007, 21:428-435
Journal of Southeast University (Natural Science Edition), 2010, 40(5): 1034-1038
Construction and Building Materials, 2011, 25:313-319
Journal of Materials In Civil Engineering, 2010, 22:469-475
Construction and Building Materials, 2007, 21:428-435
Journal of Southeast University (Natural Science Edition), 2010, 40(5): 1034-1038
Online since: July 2011
Authors: Xin Zhang, Ran Feng Qiu, Yi Min Tu, Ke Ke Zhang, Hong Xin Shi
References
[1] RR Boyer: Materials Science and Engineering A 213 (1996), p.103−114
(inChinese) [3] XJ Yuan, GM Shen, B Qin: Materials Characterization 59-7 (2008), p. 930−936
[4] B Qin, GM Shen, JW Huang, B Zhou: Materials Characterization 56-1 (2006), p. 32−38
Prasad Rao: Journal of Materials Processing Technology 209 (2009), p. 5862–5870
[7] RF Qiu, C Iwamoto, S Satonaka: Journal of Materials Processing Technology 209-8 (2009), p. 4186-4193
(inChinese) [3] XJ Yuan, GM Shen, B Qin: Materials Characterization 59-7 (2008), p. 930−936
[4] B Qin, GM Shen, JW Huang, B Zhou: Materials Characterization 56-1 (2006), p. 32−38
Prasad Rao: Journal of Materials Processing Technology 209 (2009), p. 5862–5870
[7] RF Qiu, C Iwamoto, S Satonaka: Journal of Materials Processing Technology 209-8 (2009), p. 4186-4193