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Online since: July 2014
Authors: Jin Lin Huang, Pei Yan Huang, Jin Hui Xie
Flexural behavior of reinforced concrete beam strengthened with advanced composite materials.
Journal of South China University of Technology (Natural Science Edition), 2005, 33(7): 6-10
Journal of South China University of Technology(Natural Science Edition) , 2007, 35(7): 1-5 [6] Xie Jianhe, Huang Peiyan, Guo Xinyan.
Journal of South China University of Technology (Natural Science Edition) 2009, 37(6): 107-112
Journal of Composites for Construction,2012, 16(2): 207-216
Journal of South China University of Technology (Natural Science Edition), 2005, 33(7): 6-10
Journal of South China University of Technology(Natural Science Edition) , 2007, 35(7): 1-5 [6] Xie Jianhe, Huang Peiyan, Guo Xinyan.
Journal of South China University of Technology (Natural Science Edition) 2009, 37(6): 107-112
Journal of Composites for Construction,2012, 16(2): 207-216
Online since: August 2013
Authors: Si Hao Lv, Zhi Hui Liang, Yan Yan Zen, Hong Bo Fan
Material and methods
Soybean whey.
Journal of Harbin university of commerce (Natural Sciences Eedition). 2002,18(6):647-650
Journal of Membrane Science 274 (2006) 73–82
Journal of Membrane Science, 289 (2007) 241–248 [9] C.C.V.
Journal of Membrane Science, 297 (2007) 104–120 [10] Y.
Journal of Harbin university of commerce (Natural Sciences Eedition). 2002,18(6):647-650
Journal of Membrane Science 274 (2006) 73–82
Journal of Membrane Science, 289 (2007) 241–248 [9] C.C.V.
Journal of Membrane Science, 297 (2007) 104–120 [10] Y.
Online since: May 2012
Authors: Guan Ga Dai, Ying Zhang, Jun Ru Zhao
Experimental Research of the Acoustic Emission (AE) Characteristics during the Tensile Process of the Blowout Preventer Shell Material
Zhao Junru, Dai Guang, Zhang Ying
(Mechanical Science and Engineering College, Northeast petroleum university, Daqing,163318, China )
Keywords: blowout preventer, AE testing, Frequency Spectrum Analysis
Abstract.
Analyzed the acoustic emission characteristics in different damage phases of this material using parameter analysis and waveform analysis.
experiment specimen The experiment specimens are made of ZG25CrNiMo, which is the shell material of BOP, shown as figure 1.
Figure 6 shows the waveform and spectrum of every damage stage of the BOP shell material after wavelet de-noising.
Acoustic Emisson Monitoring of Fatigue crak Propagation [J], Journal of Consturctional Steel Research, 2003, 59(6): 659-712
Analyzed the acoustic emission characteristics in different damage phases of this material using parameter analysis and waveform analysis.
experiment specimen The experiment specimens are made of ZG25CrNiMo, which is the shell material of BOP, shown as figure 1.
Figure 6 shows the waveform and spectrum of every damage stage of the BOP shell material after wavelet de-noising.
Acoustic Emisson Monitoring of Fatigue crak Propagation [J], Journal of Consturctional Steel Research, 2003, 59(6): 659-712
Online since: September 2014
Authors: János Dobránszky, Levente Németh, Csaba Biczó
The slag contains non-renewable raw materials, minerals.
That is why recycling of these materials is highly appropriate from environmental and economical aspects.
Introduction The industry heavily consumes resources, raw materials, and produces a huge amount of waste.
Environmental regulations require manufacturers to use more efficient emission reduction and reduce waste of raw materials.
The submerged arc welding is a versatile welding method for welding materials thicker than 2 mm.
That is why recycling of these materials is highly appropriate from environmental and economical aspects.
Introduction The industry heavily consumes resources, raw materials, and produces a huge amount of waste.
Environmental regulations require manufacturers to use more efficient emission reduction and reduce waste of raw materials.
The submerged arc welding is a versatile welding method for welding materials thicker than 2 mm.
Online since: March 2014
Authors: Magdy Helal, Ebtisam H. Hasan, Khaled M. Shokry, Mohamed A. Nour
These choices result in materials with a wide range of behaviors in different applications.
The potential fire hazard of any materials depends on many factors.
Mallick, Particulate and Short Fiber Reinforced Polymer Composites, Comprehensive Composite Materials Journal, 2. pp. 291-331
Broughton, Glass Fiber Reinforced Plastics Properties, Comprehensive Composite Materials Journal, 2. pp. 151-197
Drzal, Fiber-Matrix Interface Tests, Comprehensive Composite Materials Journal, 5. pp. 71-111
The potential fire hazard of any materials depends on many factors.
Mallick, Particulate and Short Fiber Reinforced Polymer Composites, Comprehensive Composite Materials Journal, 2. pp. 291-331
Broughton, Glass Fiber Reinforced Plastics Properties, Comprehensive Composite Materials Journal, 2. pp. 151-197
Drzal, Fiber-Matrix Interface Tests, Comprehensive Composite Materials Journal, 5. pp. 71-111
Online since: February 2015
Authors: Fatin Afifah Ahmad Kuthi, Khairiah Haji Badri, Azlin Mohmad Azman
About 50% of EFB lignocellulosic material comprises of cellulose [8].
Experimental Method Materials.
Alcohol-benzene extraction was carried out to remove the extractive materials such as wax and oil.
The intact UT-EFB showed smooth surface probably caused by wax, oil and other cementing materials that cover the superficies [13, 16].
Oyeniyi, Physicochemical Properties of Ethyl Cellulose Derived from Sawdust, Nigerian Journal of Pharmaceutical Sciences, 10 (2011) 81-90
Experimental Method Materials.
Alcohol-benzene extraction was carried out to remove the extractive materials such as wax and oil.
The intact UT-EFB showed smooth surface probably caused by wax, oil and other cementing materials that cover the superficies [13, 16].
Oyeniyi, Physicochemical Properties of Ethyl Cellulose Derived from Sawdust, Nigerian Journal of Pharmaceutical Sciences, 10 (2011) 81-90
Online since: February 2012
Authors: Jing Wen Xue, Zhe Wang
Lignin is one of the main chemical components of fibrous materials.
Acknowledgement: The project was funded by Jinan Youth Star Science and Technology Program (2011-2-0312).
Wang, Research Progress of Preparation of Activated Carbons from Plant Biomass Journal of Anhui Agri.
Zhou, Preparation of Lignin Activated Carbon with High Decolorization Power, Natural Science Journal of Xiangtan University, 6(1991), p13 [5] T.
Luo, Study on Preparation of Lignin Activated Carbon with Zinc Chloride,Journal of Anhui Argi.
Acknowledgement: The project was funded by Jinan Youth Star Science and Technology Program (2011-2-0312).
Wang, Research Progress of Preparation of Activated Carbons from Plant Biomass Journal of Anhui Agri.
Zhou, Preparation of Lignin Activated Carbon with High Decolorization Power, Natural Science Journal of Xiangtan University, 6(1991), p13 [5] T.
Luo, Study on Preparation of Lignin Activated Carbon with Zinc Chloride,Journal of Anhui Argi.
Online since: September 2007
Authors: Xi Shu Wang, Bin Tang, Jun Chen
Experiment method and materials
The used materials used in the tests were commercial grade AZ91D and AZ91D+Ca/Sr small
amount wt% alloys.
Wang: Materials Science and Engineering A Vol.364 (2004), p.11 [2] X.S.
Fan: Journal of Materials Science Vol.39(7) (2004), p.2617 [3] A.K.
Ebert, Materials Science and Engineering A Vol.302(2001), p.37 [5] I.P.
Zeng, Journal of Materials Science and Technology Vol.21(5) (2005), p.574 [8] X.S.
Wang: Materials Science and Engineering A Vol.364 (2004), p.11 [2] X.S.
Fan: Journal of Materials Science Vol.39(7) (2004), p.2617 [3] A.K.
Ebert, Materials Science and Engineering A Vol.302(2001), p.37 [5] I.P.
Zeng, Journal of Materials Science and Technology Vol.21(5) (2005), p.574 [8] X.S.
Online since: August 2016
Authors: Setu Dave, Jay J. Vora, Nimesh Thakkar, Aditya Singh, Saurabh Srivastava, Bhargav Gadhvi, Vivek V. Patel, Abhishek Kumar
Journal of materials processing technology 162(2005)644-8
International journal of fatigue 6(1984)169-72
Materials and Manufacturing Processes 20(2005)645-72
Materials and Manufacturing processes 25(2010)467-75
Engineering Science and Technology, an International Journal 17(2014)227-35
International journal of fatigue 6(1984)169-72
Materials and Manufacturing Processes 20(2005)645-72
Materials and Manufacturing processes 25(2010)467-75
Engineering Science and Technology, an International Journal 17(2014)227-35
Online since: December 2011
Authors: Qing Hong Fang, Na Wang, Shun Li Zhou, Xiu Bin Zhang, Zhong Wang
In these important applications, owing to rubber-like material dynamic lag loss, elastomer like rubber composite materials will produce significant heat and temperature rise under the action of repeated deformation in a certain magnitude and frequency [1].
Experimental Materials Butadiene rubber (BR) and styrene–butadiene rubber (SBR) were supplied by Petrochemical Co., Jilin.
Bhowmick: Journal of Applied Polymer Science, Vol. 64(1997), p, 1541 [2] Yan He,Lianxiang M,Baoxin Sheng etal.
Journal of Materials Science, Vol.44 (2009), p, 769 [5] N.
Journal of Applied Polymer Science,,Vol.100(2006),p, 5039
Experimental Materials Butadiene rubber (BR) and styrene–butadiene rubber (SBR) were supplied by Petrochemical Co., Jilin.
Bhowmick: Journal of Applied Polymer Science, Vol. 64(1997), p, 1541 [2] Yan He,Lianxiang M,Baoxin Sheng etal.
Journal of Materials Science, Vol.44 (2009), p, 769 [5] N.
Journal of Applied Polymer Science,,Vol.100(2006),p, 5039