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Online since: June 2010
Authors: Ching Wen Lou, Cho Hsun Lee, Jin Mao Chen, Hung Jui Liang, Jia Horng Lin
Polo: JOURNAL OF ADVANCED MATERIALS, Vol. 36 (2004), p. 30
[3] C.W.
Lin: Journal of Advanced Materials, Vol. 40 (2008), p. 27 [4] J.
Lin: Journal of Advanced Materials, Vol. 40(2008), p. 33 [14] I.
Lin: Journal of Materials Processing Technology, Vol. 192-193(2007), p. 415 [15] C.
Lin: Journal of Materials Processing Technology, Vol. 192-193(2007), p. 428 [16] T.
Lin: Journal of Advanced Materials, Vol. 40 (2008), p. 27 [4] J.
Lin: Journal of Advanced Materials, Vol. 40(2008), p. 33 [14] I.
Lin: Journal of Materials Processing Technology, Vol. 192-193(2007), p. 415 [15] C.
Lin: Journal of Materials Processing Technology, Vol. 192-193(2007), p. 428 [16] T.
Online since: February 2014
Authors: Vengadesh Periasamy, Fong Lee Ng, Siew Moi Phang, Kamran Yunus, Adrian C. Fisher
Fisher4
1Institute of Ocean and Earth Sciences, University of Malaya, 50603 Kuala Lumpur, Malaysia
2Institute of Biological Sciences , Faculty of Science, University of Malaya, 50603 Kuala Lumpur, Malaysia
3Low Dimensional Materials Research Centre, Department of Physics, Faculty of Science, University of Malaya, 50603 Kuala Lumpur, Malaysia
4Department of Chemical Engineering and Biotechnology, University of Cambridge, New Museums Site, Pembroke Street, Cambridge, CB2 3 RA, United Kingdom
aphang@um.edu.my , bvengadeshp@um.edu.my.
MATERIALS AND METHODS Growth of Biofilms.
Modified anode surfaces meanwhile enabled increased biofilm coverage on anode materials as well as enhanced photosynthetic performance.
Journal of Experimental Botany.
The Journal of Cell Biology.
MATERIALS AND METHODS Growth of Biofilms.
Modified anode surfaces meanwhile enabled increased biofilm coverage on anode materials as well as enhanced photosynthetic performance.
Journal of Experimental Botany.
The Journal of Cell Biology.
Online since: March 2011
Authors: Wei Guo Guo, Chuan Xiong Liu, Bing Hou, Jin Long Zou, Yu Long Li
Construction and Building Materials 22 (2008) 811–819
Mechanics of Materials 38 (2006) 253–267
Construction and Building Materials 23 (2009) 3063–3069
Construction and Building Materials 14 (2000)317-323
Oversea Building Material Science and Technology. 25(2004) 17-21.
Mechanics of Materials 38 (2006) 253–267
Construction and Building Materials 23 (2009) 3063–3069
Construction and Building Materials 14 (2000)317-323
Oversea Building Material Science and Technology. 25(2004) 17-21.
Online since: April 2012
Authors: Shui Li Gong, Fei Xu, Li Chen, Lu Yun Guo, Ya Fei Guo
Zuo: Laser Materials Processing of High Strength Aluminum Alloys (National defense Industry Press, China 2002), p.102
Li: Journal of Materials Engineering, (2010) No. 9, p. 45
Suery: Materials Science and Technology, Vol. 21(2005), No. 11, p. 1329
Yang: Rare Metal Materials and Engineering, Vol. 40(2011), No. 10, p. 1775
Kuo: Journal of Materials Processing Technology, Vol. 87(1999) No. 1, p. 213
Li: Journal of Materials Engineering, (2010) No. 9, p. 45
Suery: Materials Science and Technology, Vol. 21(2005), No. 11, p. 1329
Yang: Rare Metal Materials and Engineering, Vol. 40(2011), No. 10, p. 1775
Kuo: Journal of Materials Processing Technology, Vol. 87(1999) No. 1, p. 213
Online since: September 2013
Authors: Dong Nie
The direct costs of the project mainly consist of labor cost, material fee and machinery costs.
[2] Yuanfang Xie, Jilong Wang: Journal of Construction College of Northwest: Natural Science Edition, 2001, 18(1), P.59-62
[3] Li Fu: The Theory and Application, edited by Science and Technology Literature Press, Beijing (1992), in press
[4] Jinhuan Zhao, Jianqiang Chen, Lizhi Guo: Journal of Qingdao Technological University, 2007, 28(4), P.69-73
[5] Yi Zhou: Journal of Qingdao Technological University, 2007, 28(5), P.97-100.
[2] Yuanfang Xie, Jilong Wang: Journal of Construction College of Northwest: Natural Science Edition, 2001, 18(1), P.59-62
[3] Li Fu: The Theory and Application, edited by Science and Technology Literature Press, Beijing (1992), in press
[4] Jinhuan Zhao, Jianqiang Chen, Lizhi Guo: Journal of Qingdao Technological University, 2007, 28(4), P.69-73
[5] Yi Zhou: Journal of Qingdao Technological University, 2007, 28(5), P.97-100.
Online since: October 2011
Authors: He Bai, Jian Liang Zhang, You Yin Jing
If consider the energy consumption in the production process of building materials, the proportion will be 46.7% [1].
At the architecture design stage, the evaluation about consciousness on building materials selection mainly involves the building materials’ physical performance, sources and emissions of greenhouse gas.
Such as the heat transfer characteristics of building materials, sealing properties, strength properties and durability properties.
Assessment should advocate use local materials or nearby materials, reduce transportation cost and greenhouse gas emissions in the process of transportation.
The assessment of the Construction materials mainly involves the impact of building materials and construction method on the environment, for instance, the frequency of welding used.
At the architecture design stage, the evaluation about consciousness on building materials selection mainly involves the building materials’ physical performance, sources and emissions of greenhouse gas.
Such as the heat transfer characteristics of building materials, sealing properties, strength properties and durability properties.
Assessment should advocate use local materials or nearby materials, reduce transportation cost and greenhouse gas emissions in the process of transportation.
The assessment of the Construction materials mainly involves the impact of building materials and construction method on the environment, for instance, the frequency of welding used.
Online since: January 2012
Authors: Zhao Hui Liu, Xiao Xiao Sun, Ren Jie Qin, Peng Yuan
The shearing strength of the structural layer mainly depends on the normal stress of the shear plane and the internal friction resistance angle within materials.
The particles and shape of gravel materials need to satisfy certain requirements, which specific requirements should be consistent with the requirements of the table 1.
When loading materials, it is necessary to respectively load the three parts of aggregates in the place of upper, middle and lower so as to avoid segregation
(3) Segregation should be in the charge of specially-assigned person, respectively for adding materials, watering and leveling up or directly digging out for another material
Journal of China and Foreign Highway.2007 [2] Changsha University of Science & Technology.
The particles and shape of gravel materials need to satisfy certain requirements, which specific requirements should be consistent with the requirements of the table 1.
When loading materials, it is necessary to respectively load the three parts of aggregates in the place of upper, middle and lower so as to avoid segregation
(3) Segregation should be in the charge of specially-assigned person, respectively for adding materials, watering and leveling up or directly digging out for another material
Journal of China and Foreign Highway.2007 [2] Changsha University of Science & Technology.
Online since: May 2013
Authors: Abel Cherouat, Houman Borouchaki, Jie Zhang
Both the Ti-6Al-4V and 4340 Steel materials are considered in metal milling simulations.
The materials parameters and their properties are presented in Table 3 and Table 4.
Finally, the cutting forces in milling process of different materials are well predicted based on this finite element model.
[7] A.Cherouat, L.Moreau, H.Borouchaki, Advanced numerical simulation of metal forming processes using adaptive remeshing procedure, Material Science Forum 614 (2009) 27–33
Bourgeon, An enhanced Lemaitre model formulation for materials processing damage computation, Int.
The materials parameters and their properties are presented in Table 3 and Table 4.
Finally, the cutting forces in milling process of different materials are well predicted based on this finite element model.
[7] A.Cherouat, L.Moreau, H.Borouchaki, Advanced numerical simulation of metal forming processes using adaptive remeshing procedure, Material Science Forum 614 (2009) 27–33
Bourgeon, An enhanced Lemaitre model formulation for materials processing damage computation, Int.
Online since: June 2014
Authors: Jing Liu, Jing Tao Han, Qian Liu, Xiao Xiong Wang
Experimental Investigation on Rotary Punching by the Compression of PolyurethanePad
Qian Liu1,a,JingTao Han1,b ,Jing Liu1,cand Xiaoxiong Wang 1,d
1 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China
aiwooden@163.com, bhanjt@ustb.edu.cn, cliujing@mater.ustb.edu.cn,dlqgzs2005@163.com
Keywords: Rotary Punching,Polyurethane pad, Compression, Deflection
Abstract.Rotary punching is a sheet metal blanking process which utilizes shearing tools fixed to a pair of rollers.
Three kinds of materials (Spcc, DX51D+Z, Aluminum) were selected for the experiments and the mechanical properties shown in Table 1 were obtained by the tensile test.
(a) (b) Fig.6 Value of deflection widthvaries with blank material style and thickness for: (a) DX51D+Z at different thicknesses; (b) different materials at the thickness of 0.8mm Effect of polyurethane pad condition.
Hua: Journal of Power Sources, Vol. 195 (2010), p.3529 [4] S.
Thiruvarudchelvan: Journal of Materials Processing Technology, Vol. 122 (2002), p.293 [5] H.
Three kinds of materials (Spcc, DX51D+Z, Aluminum) were selected for the experiments and the mechanical properties shown in Table 1 were obtained by the tensile test.
(a) (b) Fig.6 Value of deflection widthvaries with blank material style and thickness for: (a) DX51D+Z at different thicknesses; (b) different materials at the thickness of 0.8mm Effect of polyurethane pad condition.
Hua: Journal of Power Sources, Vol. 195 (2010), p.3529 [4] S.
Thiruvarudchelvan: Journal of Materials Processing Technology, Vol. 122 (2002), p.293 [5] H.
Online since: March 2012
Authors: Krzysztof Lukaszkowicz, Jarosław Konieczny
Microstructure and mechanical properties
of PVD nanoncrystalline layers
Krzysztof Lukaszkowicz1,a, Jarosław Konieczny1,b
1Institute of Engineering Materials and Biomaterials, Konarskiego 18A Street,
44-100 Gliwice, Poland
akrzysztof.lukaszkowicz@polsl.pl, bjaroslaw.konieczny@polsl.pl
Keywords: nanostructural coating, PVD, tool materials, adhesion, mechanical properties.
Introduction Looking for coating materials with hardness which is higher than the hardness of traditional polycrystalline coatings, there are founding materials with unique nanometric structure properties.
Hardness of materials increases with decreasing the size of grains.
Zabinski: Nanocomposite and nanostructured tribological materials for space applications, Composites Science and Technology 65 (2005) 741-748
Pancielejko, Journal of Materials Science 45 (2010) 1629-1637.
Introduction Looking for coating materials with hardness which is higher than the hardness of traditional polycrystalline coatings, there are founding materials with unique nanometric structure properties.
Hardness of materials increases with decreasing the size of grains.
Zabinski: Nanocomposite and nanostructured tribological materials for space applications, Composites Science and Technology 65 (2005) 741-748
Pancielejko, Journal of Materials Science 45 (2010) 1629-1637.