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Online since: May 2013
Authors: Hao Nian Min, Wen Zhang, Min Shao
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 101 (2000), 1-9
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 281(2000), 8-16
Journal of Materials Processing Technology. (2003), 306-310
Journal of South China University of Technology(Natural Science Edition) (2007)
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 186(2007): 174-178
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 281(2000), 8-16
Journal of Materials Processing Technology. (2003), 306-310
Journal of South China University of Technology(Natural Science Edition) (2007)
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 186(2007): 174-178
Online since: November 2013
Authors: Jian Yi Yuan, Chun Feng Wang, Ding Bang Zhang, Jian Hua Cheng, Zhen Hua Wu
Xia: submitted to Journal of Cold Regions Science and Technology (2006)
[2] Y.M.
Niu: submitted to Journal of Cold Regions Science and Technology (2004) [3] F.J.
WU: submitted to Journal of Earth Sciences and Environmen (2006) [4] Z.Q.
ZHANG: submitted to Journal of Science China (2006) [5] O.
Kilic: submitted to Journal of International Journal of Rock Mechanics andMining Sciences (2006) [6] C.Q.
Niu: submitted to Journal of Cold Regions Science and Technology (2004) [3] F.J.
WU: submitted to Journal of Earth Sciences and Environmen (2006) [4] Z.Q.
ZHANG: submitted to Journal of Science China (2006) [5] O.
Kilic: submitted to Journal of International Journal of Rock Mechanics andMining Sciences (2006) [6] C.Q.
Online since: July 2015
Authors: Kazuhiko Hara, Mariia V. Keskinova, Konstantin A. Ogurtsov, Maxim M. Sychov, Elena V. Kolobkova, Igor A. Turkin, Yoichiro Nakanishi
Acknowledgement
This work was partly supported by Russian Fund for Basic Research, grant 14-07-00277 and Ministry of Education and Science of the Russian Federation (Agreement 14.574.21.0002, identifier RFMEFI57414X0002) and Program #7 of Division of Chemistry and Materials Science of the Russian Academy of Science.
Kim, Photoluminescent properties of Sr2SiO4:Eu2+ phosphors prepared by solid-state reaction method, Material Science and Engineering B, 146 (2008), 99-102
Tian, The composition, luminescence, and structure of Sr8[Si4O12]Cl8, Material Research Bulletin, 36 (2001) 2051-2057
Laamanen, Luminescence of Eu2+ in alkali earth chlorosilicate phosphor and their color-tunable properties, Optical Materials, 28 (2006) 524-529
Poelman, Structure and luminescence of (Ca,Sr)2SiS4:Eu2+ phosphors, Journal of Physics D: Applied Physics 43, 8 (2010) 85401-85417
Kim, Photoluminescent properties of Sr2SiO4:Eu2+ phosphors prepared by solid-state reaction method, Material Science and Engineering B, 146 (2008), 99-102
Tian, The composition, luminescence, and structure of Sr8[Si4O12]Cl8, Material Research Bulletin, 36 (2001) 2051-2057
Laamanen, Luminescence of Eu2+ in alkali earth chlorosilicate phosphor and their color-tunable properties, Optical Materials, 28 (2006) 524-529
Poelman, Structure and luminescence of (Ca,Sr)2SiS4:Eu2+ phosphors, Journal of Physics D: Applied Physics 43, 8 (2010) 85401-85417
Online since: July 2015
Authors: Mohd Warid Hussin, Nor Hasanah Abdul Shukor Lim, Nur Hafizah Abd Khalid, Muhammad Aamer Rafique Bhutta, Mostafa Samadi, Abdul Rahman Mohd.Sam, Nur Farhayu Ariffin
Materials
Palm Oil Fuel Ash (POFA).
Kiattikomol, Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete, Construction and Building Materials 21 (2007) 1589-1598
Construction and Building Materials Journal, 24 (2010) 1590–1593
Construction and Building Materials, 30 (2012) 281–288
Ismail, Palm Oil Fuel Ash : Promising Supplementary Cementing Materials, KSCE Journal of Civil Engineering, 17 (2013) 1708–1713
Kiattikomol, Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete, Construction and Building Materials 21 (2007) 1589-1598
Construction and Building Materials Journal, 24 (2010) 1590–1593
Construction and Building Materials, 30 (2012) 281–288
Ismail, Palm Oil Fuel Ash : Promising Supplementary Cementing Materials, KSCE Journal of Civil Engineering, 17 (2013) 1708–1713
Online since: September 2014
Authors: Petr Valášek, Miroslav Müller
Biocomposite based on epoxy resin and Jatropha curcas L. microparticles
Petr Valášek1, a, Miroslav Müller1, b
1Czech University of Life Sciences Prague, Department of Material Science and Manufacturing Technology
avalasekp@tf.czu.cz, bmuller@tf.czu.cz
Keywords: adhesion, cohesion, hardness, lap-shear strength, tensile strength.
A development of composite materials – biocomposites from renewable resource is an interesting and prospective tendency of a material engineering.
Biocomposites are composite materials comprising one or more phase(s) derived from a biological origin [3].
International Journal of Green Energy Vol. 11(2) (2014), p. 193-205 [2] D.
A Jatropha biomass as renewable materials for biocomposites and its applications.
A development of composite materials – biocomposites from renewable resource is an interesting and prospective tendency of a material engineering.
Biocomposites are composite materials comprising one or more phase(s) derived from a biological origin [3].
International Journal of Green Energy Vol. 11(2) (2014), p. 193-205 [2] D.
A Jatropha biomass as renewable materials for biocomposites and its applications.
Online since: November 2013
Authors: Xing Qian Ye, Dong Hong Liu, Dan Wu, Jian Chu Chen, Ju Zhong Pan
Material and Methods
Materials.
Journal on Chain and Network Science, 8(2008), p.59-73
Advanced Materials Research, 506 (2012), p. 552-555
International Journal of Food Science & Technology, 46(2011), p.297-304
International Journal of Food Science & Technology, 45(2010),p.208-215
Journal on Chain and Network Science, 8(2008), p.59-73
Advanced Materials Research, 506 (2012), p. 552-555
International Journal of Food Science & Technology, 46(2011), p.297-304
International Journal of Food Science & Technology, 45(2010),p.208-215
Online since: October 2012
Authors: Zhan Feng Zhou
Introduction
Traditional forward supply refers to the process from raw material suppliers, manufacturers to retailers, reverse supply chain was a series of process of recycling used goods from consumers to classify, test, disassemble until final disposal[1].
Remanufacturing was a more complex type of reverse supply chain and a general term in a series of technical measures and activities including repair and modification of waste products as the guide of product life cycle design and management theory, as the standard of high quality, high efficiency, energy saving, material saving, environmental protection and in order to achieve waste materials performance improvement also known as the" green manufacturing" [2].
References [1] Ting Li: submitted to Journal of Logistics Technology (2007) [2] Binshi Xu: submitted to Journal of Maschinen Markt (2009) [3] Xiaocheng Sun and Bengsheng Tu: submitted to Journal of Acta Scientiarum Naturallum(2007) [4] Jing Sun and Xinquan Ge: submitted to Journal of Beijing Information Science & Technology University (2009) [5] Wei Wang: submitted to Journal of Statistics and Decision (2010) [6] Yuyan Wang, Bangyi Li and Liang Shen: submitted to Journal of Transactions of Nanjing University of Aeronautics & Astronautics (2008) [7] Zhongkai Xiong and Hongyan Zhang: submitted to Journal of Industry Engineering (2009) [8] Jie Wei: submitted to Journal of Chinese Journal of Management Science (2005) [9] Weixin Yao: submitted to Journal of Management Science (2004) [10] Wenbin Wang and Qinli Da: submitted to Journal of Industrial Engineering and Engineering Management (2010)
Remanufacturing was a more complex type of reverse supply chain and a general term in a series of technical measures and activities including repair and modification of waste products as the guide of product life cycle design and management theory, as the standard of high quality, high efficiency, energy saving, material saving, environmental protection and in order to achieve waste materials performance improvement also known as the" green manufacturing" [2].
References [1] Ting Li: submitted to Journal of Logistics Technology (2007) [2] Binshi Xu: submitted to Journal of Maschinen Markt (2009) [3] Xiaocheng Sun and Bengsheng Tu: submitted to Journal of Acta Scientiarum Naturallum(2007) [4] Jing Sun and Xinquan Ge: submitted to Journal of Beijing Information Science & Technology University (2009) [5] Wei Wang: submitted to Journal of Statistics and Decision (2010) [6] Yuyan Wang, Bangyi Li and Liang Shen: submitted to Journal of Transactions of Nanjing University of Aeronautics & Astronautics (2008) [7] Zhongkai Xiong and Hongyan Zhang: submitted to Journal of Industry Engineering (2009) [8] Jie Wei: submitted to Journal of Chinese Journal of Management Science (2005) [9] Weixin Yao: submitted to Journal of Management Science (2004) [10] Wenbin Wang and Qinli Da: submitted to Journal of Industrial Engineering and Engineering Management (2010)
Online since: August 2009
Authors: Yan Sheng Yin, Shou Gang Chen, Guan Hui Gao, Rui Ting Xue
Electronic Structure Study of Metal Complex
{1,1'-[ o-Phenylenebis(nitrilomethylidyne)]di-2-naphtholato}copper(II)
Ruiting Xuea , Shougang Chenb , Guanhui Gao
c, Yansheng Yind*
Institute of Material Science and Engineering,
Ocean University of China,Qingdao 266100, PR China
a
email: xuert@163.com
b
email: sgchen2009@yahoo.com
cemail: ggh___001@163.com
d
emaiI: yys2006@ouc.edu.cn
Keywords: metal complex; density functional theory; B3LYP calculation, optic materials
Abstract:
The complex {1,1'-[ o-phenylenebis (nitrilomethylidyne) ] di-2-naphtholato} copper(II) was
optimized by the DFT method at B3LYP/LANL2DZ level, and the frontier molecular orbitals,
natural bond orbitals, nonlinear optical properties and Mülliken charge population of the optimized
complex were exploited and analyzed.
The calculated results show that the complex has stable structure and it keeps some potential applications in optic materials field. 1.
Introduction: Schiff Base metal complexes have attracted increasing interest due to their extensively applications in biochemistry, material science, catalysis, encapsulation, activation, transport and separation phenomena, hydrometallurgy, etc.[1-3].
It can be concluded from the first hyperpolarizability value that the complex and its analogues may be a kind of nonlinear optic materials.
Niu, et a1, Journal of Electrochemical Society [J], 2001,148 (5):208 [4] Y.
The calculated results show that the complex has stable structure and it keeps some potential applications in optic materials field. 1.
Introduction: Schiff Base metal complexes have attracted increasing interest due to their extensively applications in biochemistry, material science, catalysis, encapsulation, activation, transport and separation phenomena, hydrometallurgy, etc.[1-3].
It can be concluded from the first hyperpolarizability value that the complex and its analogues may be a kind of nonlinear optic materials.
Niu, et a1, Journal of Electrochemical Society [J], 2001,148 (5):208 [4] Y.
Online since: December 2012
Authors: Zheng Shun Wang, Wen Jia Han
ANSYS Analysis of Heat Model for the Electromagnetic Drying Cylinder
Wang Zhengshun,Han Wenjia
Key Laboratory of pulp and Paper Science and Technology of Ministry of Education,Shandong Polytechnic university,Ji’nan 250353
Keywords:electromagnetic drying; ANSYS Analysis; heat and force model; material properties
Abstract:In this thesis, the process of electromagnetic drying cylinder was analyzed creating by the dryer finite element model using ANSYS.
Table3-3 Material Characters of the dryer bulk Temperature(℃) Relative magnetic permeability Resistivity (×10-6Ωm) Thermal conductivity coefficient (W/mK) Specific heat capacity (J/kgK) 100 200 0.198 47.68 472 200 195 0.254 43.53 480 300 186.6 0.339 40.44 498 In the process of the thermal analysis, it is usually the depth of penetration of the different materials with excitation source current frequency changes in the range of less than a few millimeters, and close to 87% of the heat generated in these surface layers.
ANSYS meshing ago must be allocated to the regional characteristics of good material, unit type and real constant.
Table3 Element Type and Materials Properties of induction heating model Physical field Electromagnetic field Temperature field Cell type Material properties Cell typ Material properties Workpiece SOLID117 MURX,RSVX SOLID98 KXX,C Coil SOLID117 MURX NULL None Air SOLID117 MURX NULL None In order to simplify the calculation, the analog data is easier to draw, only the meshing of the electromagnetic dryer cylinder.
Journal of Harbin University of Science and Technology, 2003, (6); 22-25
Table3-3 Material Characters of the dryer bulk Temperature(℃) Relative magnetic permeability Resistivity (×10-6Ωm) Thermal conductivity coefficient (W/mK) Specific heat capacity (J/kgK) 100 200 0.198 47.68 472 200 195 0.254 43.53 480 300 186.6 0.339 40.44 498 In the process of the thermal analysis, it is usually the depth of penetration of the different materials with excitation source current frequency changes in the range of less than a few millimeters, and close to 87% of the heat generated in these surface layers.
ANSYS meshing ago must be allocated to the regional characteristics of good material, unit type and real constant.
Table3 Element Type and Materials Properties of induction heating model Physical field Electromagnetic field Temperature field Cell type Material properties Cell typ Material properties Workpiece SOLID117 MURX,RSVX SOLID98 KXX,C Coil SOLID117 MURX NULL None Air SOLID117 MURX NULL None In order to simplify the calculation, the analog data is easier to draw, only the meshing of the electromagnetic dryer cylinder.
Journal of Harbin University of Science and Technology, 2003, (6); 22-25
Online since: November 2012
Authors: Pedro Vilaça, Catarina Vidal, Virgínia Infante
Krishnamurthy, Friction stir channeling: Characterization of the channels, Journal of Materials Processing Technology 209 (2009) 3696–3704
Krishnamurthy, Process forces during friction stir channeling in an aluminum alloy, Journal of Materials Processing Technology 211 (2011) 305 311
Materials Science and Engineering: A; 445-446, pp.501-508.
[6] ISO 6507-1, Mettalic materials – Vickers hardness test – Part 1: Test Method, 1997
Colligan, Material flow behaviour during friction stir welding, welding Journal 78 (1999) 229 237.
Krishnamurthy, Process forces during friction stir channeling in an aluminum alloy, Journal of Materials Processing Technology 211 (2011) 305 311
Materials Science and Engineering: A; 445-446, pp.501-508.
[6] ISO 6507-1, Mettalic materials – Vickers hardness test – Part 1: Test Method, 1997
Colligan, Material flow behaviour during friction stir welding, welding Journal 78 (1999) 229 237.