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Online since: September 2014
Authors: Chun De Jin, Wei Gang Zhang, Zhe Wang
Materials and Methods
Materials
Moso bamboo (Phyllostachys heterocycla cv. pubescens) collected from the same forest plot in Hongmiao Village, Xikou Town, Longyou County of Zhejiang province, eight kinds of ages (from one to eight years), diameter 10~12cm.
Journal of Fuzhou University( Natural Science Edition).
Evaluation and Manufacture of Grading Bamboo and Chinese fir Laminated Lumber of Wind Turbine Blades Materials.
Tappi Journal, Forum Vol
Journal of Material Science, Forum Vol. 22 (1987), p.617
Journal of Fuzhou University( Natural Science Edition).
Evaluation and Manufacture of Grading Bamboo and Chinese fir Laminated Lumber of Wind Turbine Blades Materials.
Tappi Journal, Forum Vol
Journal of Material Science, Forum Vol. 22 (1987), p.617
Online since: July 2014
Authors: J. Nithyanandam, K. Palanikumar, Sushil Laldas
[5] Peter J.Heath –Developments in applications of pcd tooling, journal of Materials processing technology 116 (2001) 31-38
[12] D.A.Fadare, Effects of cutting parameters on surface roughness during high –speed turning of Ti-6AI-4V alloy, journal of applied sciences research, 5(7): 757-764, 2009
[13] M.V.Ribeiro, Optimization of titanium alloy (6AI -4V) machining –journal of materials processing technology 143-144(2003)458 -463
[16] Ezugwu, E.O,and Wang, Z,M., titanium Alloy and their Machinability-A review, journal of materials processing technology vol 68, no 3(1997).
Jour of materials Processing Technology 166 (2005) 188 – 192.
[12] D.A.Fadare, Effects of cutting parameters on surface roughness during high –speed turning of Ti-6AI-4V alloy, journal of applied sciences research, 5(7): 757-764, 2009
[13] M.V.Ribeiro, Optimization of titanium alloy (6AI -4V) machining –journal of materials processing technology 143-144(2003)458 -463
[16] Ezugwu, E.O,and Wang, Z,M., titanium Alloy and their Machinability-A review, journal of materials processing technology vol 68, no 3(1997).
Jour of materials Processing Technology 166 (2005) 188 – 192.
Online since: March 2023
Authors: V.V. Kamesh, D. Raviteja, Sandip Kunar
Because composite materials have various advantages over other materials, this is often the reason for this.
Journal of Applied compound Science, 105(2007) 390-397
Berthelot, Damping analysis of orthotropic composites with interleaved elastic layers: modeling, Journal of Composite Materials, 40(2006)1889-909
Tobi, et al., New Approach of Dynamic Vibration absorbent material made of Natural Fibres Composite, ARPN Journal of Engineering and Applied Sciences, 11 (2016)2308-2313
Asnani, Vibration and Damping Analysis of Fibre Reinforced Composite Material Plates, Journal of Composite Materials, 20(1) (1986)2–18
Journal of Applied compound Science, 105(2007) 390-397
Berthelot, Damping analysis of orthotropic composites with interleaved elastic layers: modeling, Journal of Composite Materials, 40(2006)1889-909
Tobi, et al., New Approach of Dynamic Vibration absorbent material made of Natural Fibres Composite, ARPN Journal of Engineering and Applied Sciences, 11 (2016)2308-2313
Asnani, Vibration and Damping Analysis of Fibre Reinforced Composite Material Plates, Journal of Composite Materials, 20(1) (1986)2–18
Online since: March 2015
Authors: Jian Guo Liao, Ding Guo Huang, Xing Wu Hou, Yu Min Wu, Yan Yang Gao, Ning Bo Li
Yadav, Murari Prasad, Jeeshan Khan, et al: Journal of Hazardous Materials, Vol.176(2010), p.1044-1050
Labrincha: Construction and Building Materials, Vol. 25(2011), p. 163-170
Oustadakis: Journal of Hazardous Materials, Vol.8(2004), p.103-110
[10] Yuan Yao, Yu Li, Xiaoming Liu, et al: Journal of Hazardous Materials, Vol.47(2013),p.496-501
[13] Yan Jia, Wen Ni, Zhongjie Wang et al: Journal of University of Science and Technology Beijing, in China, Vol.33(2011),p.1059-1064.
Labrincha: Construction and Building Materials, Vol. 25(2011), p. 163-170
Oustadakis: Journal of Hazardous Materials, Vol.8(2004), p.103-110
[10] Yuan Yao, Yu Li, Xiaoming Liu, et al: Journal of Hazardous Materials, Vol.47(2013),p.496-501
[13] Yan Jia, Wen Ni, Zhongjie Wang et al: Journal of University of Science and Technology Beijing, in China, Vol.33(2011),p.1059-1064.
Online since: June 2011
Authors: Hong Zhang, Xiao Hua Wu, Xiao Lei Wang
In this study, the PANI / PP composite conductive fiber filler has a larger L/D (Length/Diameter)ratio ,better flexibility, more corrosion resistance, and lower cost compared to the traditional conductive materials such as graphite, carbon black, carbon fiber, steel fiber and so on.
Experimental Experiment materials.
Fig.2 The effect of fiber content to conductivity of asphalt mixture Fig.3 seepage curve diagram The above-mentioned classical percolation theory was based on the three-dimensional model, combined with the two-phase composite materials, so it can’t be used as a general rules.
But it also contained some other multi-phase materials such as coarse aggregate, slag and asphalt, and conductive fibers.
References [1] S.P.Wu, L.T.Mo, Z.H.Shui: submitted to Journal of Carbon. (2005) [2] S.P.Wu, G.Bo, J.Qiu: submitted to Journal of Huazhong University of Science and Technology. (2008) [3] Z.Q.Tang, J.Qian, Z.F.Yang: submitted to Journal of Chongqing Architecture University. (2006) [4] H.Zhang, L.J.Wang: submitted to Journal of Highway. (2008) [5] H.Zhang, L.J.Wang: submitted to Journal of Highway Foreign and Domestic. (2008) [6] M.L.Clingerman, J.A.King, K.H.Schulz: submitted to Journal of Applied Polymer Science. (2002) [7] M.Sumita, S.Asai, N.Miyadera: submitted to Journal of Colloed Polymer Science.,1986, [8] M.Wber, M.R.Kamal: submitted to Journal of Polymer Composites. (1997) [9] J.Vilcakova, P.Saha, O.Quadrat. submitted to Journal of European Polymer Journal.(2002) [10] Y.N.Yu, G.Q.Liu.
Experimental Experiment materials.
Fig.2 The effect of fiber content to conductivity of asphalt mixture Fig.3 seepage curve diagram The above-mentioned classical percolation theory was based on the three-dimensional model, combined with the two-phase composite materials, so it can’t be used as a general rules.
But it also contained some other multi-phase materials such as coarse aggregate, slag and asphalt, and conductive fibers.
References [1] S.P.Wu, L.T.Mo, Z.H.Shui: submitted to Journal of Carbon. (2005) [2] S.P.Wu, G.Bo, J.Qiu: submitted to Journal of Huazhong University of Science and Technology. (2008) [3] Z.Q.Tang, J.Qian, Z.F.Yang: submitted to Journal of Chongqing Architecture University. (2006) [4] H.Zhang, L.J.Wang: submitted to Journal of Highway. (2008) [5] H.Zhang, L.J.Wang: submitted to Journal of Highway Foreign and Domestic. (2008) [6] M.L.Clingerman, J.A.King, K.H.Schulz: submitted to Journal of Applied Polymer Science. (2002) [7] M.Sumita, S.Asai, N.Miyadera: submitted to Journal of Colloed Polymer Science.,1986, [8] M.Wber, M.R.Kamal: submitted to Journal of Polymer Composites. (1997) [9] J.Vilcakova, P.Saha, O.Quadrat. submitted to Journal of European Polymer Journal.(2002) [10] Y.N.Yu, G.Q.Liu.
Online since: December 2013
Authors: Ding Gui Luo, Ren Zhang, Hong Guo Zhang
References
[1] Lili Li, Lingling Chi, Jianyong Yu: submitted to Journal of Shanghai Textile Science & Technology. 2010, (09): 37-38.
In Chinese [3] Qin Bi, Yuming Zhao, Yufang Xu: submitted to Journal of Environmental Science and Technology. 2012, (02): 66-68.
In Chinese [4] Jinyu Guo, Zhongbin Zhan, Qingyun Sun: submitted to Journal of China Safety Science Journal. 2008, (05): 148-153.
In Chinese [5] Gang Wen, Liyuan Cai, Dewen He: submitted to Journal of Materials and Metallurgy Journal. 2008, (02): 143-148.
In Chinese [6] Yiping Li, Yongwen Ma: submitted to Journal of Qingdao University of Science and Technology journal. 2008, (05): 467-470.
In Chinese [3] Qin Bi, Yuming Zhao, Yufang Xu: submitted to Journal of Environmental Science and Technology. 2012, (02): 66-68.
In Chinese [4] Jinyu Guo, Zhongbin Zhan, Qingyun Sun: submitted to Journal of China Safety Science Journal. 2008, (05): 148-153.
In Chinese [5] Gang Wen, Liyuan Cai, Dewen He: submitted to Journal of Materials and Metallurgy Journal. 2008, (02): 143-148.
In Chinese [6] Yiping Li, Yongwen Ma: submitted to Journal of Qingdao University of Science and Technology journal. 2008, (05): 467-470.
Online since: April 2015
Authors: Hong Chao Kou, Bin Tang, Jin Shan Li, Xian Sheng Qi, Chuan Yun Wang, Xiang Yi Xue
Results and Discussion
Microstructure of matrix materials.
Jia, Alloy development and shell mould casting of gamma TiAl, Journal of materials processing technology. 135 (2003) 179-188
Koçak, Diffusion bonding of investment cast γ-TiAl, Journal of materials science. 34 (1999) 3345-3354
Huang, Diffusion bonding of stainless steel to copper with tin bronze and gold Interlayers, Journal of materials engineering and performance. 21 (2012) 33-37
Kim, Deformation mechanisms in a high-Nb containing γ–TiAl alloy at 900° C, Materials Science and Engineering: A. 271 (1999) 416-423
Jia, Alloy development and shell mould casting of gamma TiAl, Journal of materials processing technology. 135 (2003) 179-188
Koçak, Diffusion bonding of investment cast γ-TiAl, Journal of materials science. 34 (1999) 3345-3354
Huang, Diffusion bonding of stainless steel to copper with tin bronze and gold Interlayers, Journal of materials engineering and performance. 21 (2012) 33-37
Kim, Deformation mechanisms in a high-Nb containing γ–TiAl alloy at 900° C, Materials Science and Engineering: A. 271 (1999) 416-423
Online since: July 2019
Authors: Chuen Shii Chou, Pei Hsing Huang, Wei Ju Huang
Numerical Simulation Method
Process Parameters and Material Characteristics.
Guo: A study on the investment casting of 17-4PH stainless steel helical impeller of centrifugal pump, Materials Research Innovations, Vol. 19, Issue S9 (2015), pp. 77-81
Lin: Optimal pouring system design for investment casting of cladding thin-plate heater using metallic mold flow analyses, Applied Mechanics and Materials, Vol. 627 (2014), pp. 46-49
Guo et al.: Microporosity prediction and validation for Ni-based superalloy castings, IOP Conference Series: Materials Science and Engineering, Vol. 84 (2003), 012003 pp 1-6
Shieh, Numerical simulations of low pressure die-casting for A356 aluminum rim, Materials Science Forum, Vol. 893 (2017), pp. 276-280
Guo: A study on the investment casting of 17-4PH stainless steel helical impeller of centrifugal pump, Materials Research Innovations, Vol. 19, Issue S9 (2015), pp. 77-81
Lin: Optimal pouring system design for investment casting of cladding thin-plate heater using metallic mold flow analyses, Applied Mechanics and Materials, Vol. 627 (2014), pp. 46-49
Guo et al.: Microporosity prediction and validation for Ni-based superalloy castings, IOP Conference Series: Materials Science and Engineering, Vol. 84 (2003), 012003 pp 1-6
Shieh, Numerical simulations of low pressure die-casting for A356 aluminum rim, Materials Science Forum, Vol. 893 (2017), pp. 276-280
Online since: October 2012
Authors: Xiang Rong Liu, Tan Wei Zhou, Zhuang Zhuang Su, Run Lan Zhang
Sahoo: Materials Science and Engineering A, 460-461(2007): 357
[2] C.
Singer: Materials Science and Engineering A, 528(2011): 6313 [3] P.
Zhang: Materials for Mechanical Engineering, 35(2011): 30 [4] Z.
Gan: Materials Science and Engineering A, 528(2011): 1707 [9] R.
An: Journal of Xi’an University of Science and Technology, 30(2010): 734 [10] C.
Singer: Materials Science and Engineering A, 528(2011): 6313 [3] P.
Zhang: Materials for Mechanical Engineering, 35(2011): 30 [4] Z.
Gan: Materials Science and Engineering A, 528(2011): 1707 [9] R.
An: Journal of Xi’an University of Science and Technology, 30(2010): 734 [10] C.
Online since: October 2014
Authors: Fu Na Li, Lin Wei Yang, Chu Yun Chen
PV3D provides the resources:
Org.papervision3d.scenes. * org.papervision3d.cameras. *;
Org.papervision3d.render.BasicRenderEngine;
Org.papervision3d.view.Viewport3D;
Org.papervision3d.objects.DisplayObject3D
Org.papervision3d.events.FileLoadEvent; org.papervision3d
Materials. * org.papervision3d.materials.utils.
MaterialsList Org.papervision3d.materials.Bitmap FileMaterial; Org.papervision3d.objects.primitives. *; Org.papervision3d.objects.parsers.Collada; Also need to import the other resources: import gs.TweenLite; importgs.easing. *; The third step, initializing scene.
Application of Web3D material in Multimedia Courseware.
Mechanical management and development, 2010 (1) [2] Zhang Wei.Web3D technology application in Multimedia Teaching .Journal of Changchun Normal University (NATURAL SCIENCE EDITION), 2010 (1) [3] Wei Yun.
Science and Technology Information, 2010, (35): 5-6
MaterialsList Org.papervision3d.materials.Bitmap FileMaterial; Org.papervision3d.objects.primitives. *; Org.papervision3d.objects.parsers.Collada; Also need to import the other resources: import gs.TweenLite; importgs.easing. *; The third step, initializing scene.
Application of Web3D material in Multimedia Courseware.
Mechanical management and development, 2010 (1) [2] Zhang Wei.Web3D technology application in Multimedia Teaching .Journal of Changchun Normal University (NATURAL SCIENCE EDITION), 2010 (1) [3] Wei Yun.
Science and Technology Information, 2010, (35): 5-6