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Online since: October 2023
Authors: Jaume Gual, Kudama Habib, Jose V. Abellán-Nebot, Julio Serrano
Materials and Methods
The selection of materials for RT in injection molding has an impact on the injection molding process.
Therefore, high thermal conductivity is mandatory in mold materials.
Advantages and disadvantages of the techniques and materials analyzed.
Elangovan, “Mechanical behaviour of aluminum particulate epoxy composite–experimental study and numerical simulation,” International Journal of Mechanical and Materials Engineering, 7 (2012) 214–221
Verma, “Mechanical behaviour of copper and aluminium particles reinforced epoxy resin composites,” American J. of Materials Science, 5 (2015) 84–89
Therefore, high thermal conductivity is mandatory in mold materials.
Advantages and disadvantages of the techniques and materials analyzed.
Elangovan, “Mechanical behaviour of aluminum particulate epoxy composite–experimental study and numerical simulation,” International Journal of Mechanical and Materials Engineering, 7 (2012) 214–221
Verma, “Mechanical behaviour of copper and aluminium particles reinforced epoxy resin composites,” American J. of Materials Science, 5 (2015) 84–89
Online since: December 2013
Authors: An Wen Wang, Lei Deng, Liu Wei Mao
The material used in the calculations is taken to be stainless steel that has substantial strain hardening and moderate strain rate sensitivity [8].
Stress-strain curves are plotted in Fig. 2, the relation between true stress and true strain is taken to be strictly bilinear for each value of plastic strain rate .The relative density of the square honeycomb core, , defined as the ratio of average density of the core to the density of material .
The dynamic responses of the square honeycomb sandwich plates are compared with solid plates of the same material and equal mass per unit area subjected to impulse loads.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (11172330) and Doctor Innovation Fund of Naval University of Engineering (HGYJSCXJJ2012005).
References [1] Z.Y.Xue, J.W.Hutchinson: International Journal of Mechanical Sciences Vol.45 (2003), P. 687-705 [2] Z.Y.Xue, J.W.Hutchinson: International Journal of Impact Engineering Vol.30 (2004), P. 1283-1305 [3] J.W.Hutchinson, Z.Y.Xue: International Journal Mechanical Sciences Vol.47 (2005), P. 545-569 [4] Z.Y.Xue, J.W.Hutchinson: International Journal for Numerical Methods in Engineering Vol.65 (2006), P. 2221-2245 [5] N.G.Wadley, K.P.Dharmasena, et al: Journal of Mechanics of Materials and Structures Vol.2 (2007), P. 2025-2048 [6] G.J.Mcshane, V.S.Deshpande,et al: International Journal of Impact Engineering Vol.37 (2010), P. 1138-1149 [7] K.P.Dharmasena, N.G.Wadley,et al: International Journal of Impact Engineering Vol.38 (2011), P. 275-289 [8] K.P.Dharmasena, N.G.Wadley,et al: International Journal of Impact Engineering Vol.35 (2008), P. 1063-1074 [9] ABAQUS/Explicit User’s Manual.
Stress-strain curves are plotted in Fig. 2, the relation between true stress and true strain is taken to be strictly bilinear for each value of plastic strain rate .The relative density of the square honeycomb core, , defined as the ratio of average density of the core to the density of material .
The dynamic responses of the square honeycomb sandwich plates are compared with solid plates of the same material and equal mass per unit area subjected to impulse loads.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (11172330) and Doctor Innovation Fund of Naval University of Engineering (HGYJSCXJJ2012005).
References [1] Z.Y.Xue, J.W.Hutchinson: International Journal of Mechanical Sciences Vol.45 (2003), P. 687-705 [2] Z.Y.Xue, J.W.Hutchinson: International Journal of Impact Engineering Vol.30 (2004), P. 1283-1305 [3] J.W.Hutchinson, Z.Y.Xue: International Journal Mechanical Sciences Vol.47 (2005), P. 545-569 [4] Z.Y.Xue, J.W.Hutchinson: International Journal for Numerical Methods in Engineering Vol.65 (2006), P. 2221-2245 [5] N.G.Wadley, K.P.Dharmasena, et al: Journal of Mechanics of Materials and Structures Vol.2 (2007), P. 2025-2048 [6] G.J.Mcshane, V.S.Deshpande,et al: International Journal of Impact Engineering Vol.37 (2010), P. 1138-1149 [7] K.P.Dharmasena, N.G.Wadley,et al: International Journal of Impact Engineering Vol.38 (2011), P. 275-289 [8] K.P.Dharmasena, N.G.Wadley,et al: International Journal of Impact Engineering Vol.35 (2008), P. 1063-1074 [9] ABAQUS/Explicit User’s Manual.
Online since: November 2014
Authors: Zhu Feng Shao, Ya Nan Jia, Lei Wang, Lan Jian Nie
Analysis of The Surface Shape Effect on Optical Homogeneity Measurement of Large Calibre Optical Materials
Zhufeng Shaoa*, Yanan Jiab, Lei Wangc,Lanjian Nied
China Building Materials Academy, Guanzhuang, Chaoyang, Beijing, China
ashaozhufeng@cbmamail.com.cn,b544897861@qq.com,cwanglei@cbmamail.com.cn,
dnielanjian@cbmamail.com.cn
Keywords: Optical homogeneity; Optical processing; quartz glass; Fizeau interferometer
Abstract.
Optical homogeneity of the optical materials directly affects the wavefront quality of the refractive optical system.
Introduction With the development of the construction of large state laser devices, the demand for large calibre optical transparent material soared, while the optical homogeneity is an important indicator for optically transparent materials.
Fig.6 Relation of height and position on the sliced line of the front surface of sample 2 # after rough polishing Fig.7 Relation of optical homogeneity height and position of sample 2# before and after precision polishing Conclusion Accurate measurement of optical homogeneity of the large calibre material was a difficult issue of optics and materials science, because it was mainly limited to the test method relies on precision polishing.
Journal of Applied Optics. 29(2008)
Optical homogeneity of the optical materials directly affects the wavefront quality of the refractive optical system.
Introduction With the development of the construction of large state laser devices, the demand for large calibre optical transparent material soared, while the optical homogeneity is an important indicator for optically transparent materials.
Fig.6 Relation of height and position on the sliced line of the front surface of sample 2 # after rough polishing Fig.7 Relation of optical homogeneity height and position of sample 2# before and after precision polishing Conclusion Accurate measurement of optical homogeneity of the large calibre material was a difficult issue of optics and materials science, because it was mainly limited to the test method relies on precision polishing.
Journal of Applied Optics. 29(2008)
Online since: February 2014
Authors: Roland Madar, Thierry Ouisse, Didier Chaussende, Martin Seiss, Kanaparin Ariyawong, Eirini Sarigiannidou, Odette Chaix-Pluchery, Nikolaos Tsavdaris, Jean Marc Dedulle, Yun Ji Shin, Joseph La Manna
Magnusson, et al., Materials Science Forum, 457-460 (2004) 9-14
Gunjishima, et al., Materials Science Forum, Vol. 717-720 (2012) p. 9-12
Kado, et al., Materials Science Forum, Vol. 717-720 (2012) p. 61-64
Lilov, Diamond and Related Materials, 4 (1995) 1331-1334
Sakiyama, et al., Materials Science Forum, Vol. 527-529 (2006) p. 235-238
Gunjishima, et al., Materials Science Forum, Vol. 717-720 (2012) p. 9-12
Kado, et al., Materials Science Forum, Vol. 717-720 (2012) p. 61-64
Lilov, Diamond and Related Materials, 4 (1995) 1331-1334
Sakiyama, et al., Materials Science Forum, Vol. 527-529 (2006) p. 235-238
Online since: February 2013
Preface
Optical Materials is a peer-reviewed scientific journal that publishes original papers and review articles
on the design, synthesis, characterisation and applications of materials, suitable for various optical
devices.
The journal also publishes papers about physical and chemical properties of such materials and their applications.
Aiming to the advances of Optical Materials and Circuit Design, 2012 International Conference on Future Optical Materials and Circuit Design (FOMCD 2012) is an annual conference to call together researchers, engineers, academicians as well as industrial professionals from all over the world to present their research results and development activities in Optical Materials and Circuit Design.
The papers come from both academia and industry reflecting the international flavor of this event in the topics of Optical Materials and Circuit Design, Material Science and Engineering, Nanomaterials Synthesis and Properties, Nano Devices and System, Nano materials, Technologies for Applications, Circuits and Systems, Mechanical Engineering, Industrial Electronics, etc.
Ying Zhang and Ping He FOMCD 2012 Organizing Committee Honorary Chair Wei Lee, Melbourne ACM Chapter Chair, Australia General Chairs Jun Zhang, Huazhong University of Science and Technology, China Minli Dai, Suzhou University, China Publication Chair Ying Zhang, Wuhan University, China Ping He, Dalian University, China Organizing Chairs Khine Soe Thaung , Maldives College of Higher Education, Maldives Biswanath Vokkarane, Society on Social Implications of Technology and Engineering , Maldives International Committee Minli Dai, Suzhou University, China Ying Zhang, Wuhan Uniersity, China Zhenghong Wu, East China Normal University Tatsuya Akutsu, ACM NUS Singapore Chapter, Singapore Aijun An, National University of Singapore,Singapore Yuanzhi Wang, Anqing Teachers' University, China Yiyi Zhouzhou,Azerbaijan State Oil Academy,Azerbaijan Khine Soe Thaung , Maldives College of Higher Education, Maldives
The journal also publishes papers about physical and chemical properties of such materials and their applications.
Aiming to the advances of Optical Materials and Circuit Design, 2012 International Conference on Future Optical Materials and Circuit Design (FOMCD 2012) is an annual conference to call together researchers, engineers, academicians as well as industrial professionals from all over the world to present their research results and development activities in Optical Materials and Circuit Design.
The papers come from both academia and industry reflecting the international flavor of this event in the topics of Optical Materials and Circuit Design, Material Science and Engineering, Nanomaterials Synthesis and Properties, Nano Devices and System, Nano materials, Technologies for Applications, Circuits and Systems, Mechanical Engineering, Industrial Electronics, etc.
Ying Zhang and Ping He FOMCD 2012 Organizing Committee Honorary Chair Wei Lee, Melbourne ACM Chapter Chair, Australia General Chairs Jun Zhang, Huazhong University of Science and Technology, China Minli Dai, Suzhou University, China Publication Chair Ying Zhang, Wuhan University, China Ping He, Dalian University, China Organizing Chairs Khine Soe Thaung , Maldives College of Higher Education, Maldives Biswanath Vokkarane, Society on Social Implications of Technology and Engineering , Maldives International Committee Minli Dai, Suzhou University, China Ying Zhang, Wuhan Uniersity, China Zhenghong Wu, East China Normal University Tatsuya Akutsu, ACM NUS Singapore Chapter, Singapore Aijun An, National University of Singapore,Singapore Yuanzhi Wang, Anqing Teachers' University, China Yiyi Zhouzhou,Azerbaijan State Oil Academy,Azerbaijan Khine Soe Thaung , Maldives College of Higher Education, Maldives
Online since: July 2011
Authors: Xu Dong Pei
In some cases, customers select manufacturers, suppliers of specialist parts and material suppliers.
Specifically, several foreign language database are used to search relevant literature in order to ensure the representativeness and completeness of this study such as EBSCO, Science Direct, Blackwell, Emerald, Springer, ProQuest etc.
Acknowledgment This work was supported by the Scientific Research Plan Project of Education Department of Shaanxi Provincial Government under Grant 11JK0118, the Soft Science Project for Science and Technology Department of Shaanxi Province under Grant 2010KRM38(2) and by the Base Research Project of the Education Department of Shaanxi Province under Grant 2010JZ20.
Hendrick: Partnering characteristics: A dyadic perspective, Journal of Business Logistics Vol. 1 (1995), p. 41-64
Dudley: The long-term strategic impact of purchasing partnerships, International Journal of Purchasing and Materials Management Vol. 30 (1994), p. 13-18
Specifically, several foreign language database are used to search relevant literature in order to ensure the representativeness and completeness of this study such as EBSCO, Science Direct, Blackwell, Emerald, Springer, ProQuest etc.
Acknowledgment This work was supported by the Scientific Research Plan Project of Education Department of Shaanxi Provincial Government under Grant 11JK0118, the Soft Science Project for Science and Technology Department of Shaanxi Province under Grant 2010KRM38(2) and by the Base Research Project of the Education Department of Shaanxi Province under Grant 2010JZ20.
Hendrick: Partnering characteristics: A dyadic perspective, Journal of Business Logistics Vol. 1 (1995), p. 41-64
Dudley: The long-term strategic impact of purchasing partnerships, International Journal of Purchasing and Materials Management Vol. 30 (1994), p. 13-18
Online since: December 2012
Authors: Zi Fu Li, Yang Zhang, Yuan Zhao
Materials and Methods
Wastewater Source
Wastewater samples were taken from a wastewater treatment plant (WWTP) of Beijing.
[3] Mounaouer Brahmi, N.H.B.H., Helmi Hamdi and Abdennaceur Hassen: Journal of environmental Sciences, 2010. 22(8): p. 1218-1224
McKinley: Journal of Hazardous Materials, 2006. 135(1-3): p. 218-225
[10] Hao Wu, Zifu Li, Xin Jin, Xin Zhao and Furong Deng: Advanced Materials Research, 2012. 433-440: p. 4751-4756
[11] Guihua Xu, Shaohua Chen, Jianwen Shi, Shumei Wang and Gefu Zhu: Journal of Hazardous Materials, 2010. 180(1-3): p. 340-346
[3] Mounaouer Brahmi, N.H.B.H., Helmi Hamdi and Abdennaceur Hassen: Journal of environmental Sciences, 2010. 22(8): p. 1218-1224
McKinley: Journal of Hazardous Materials, 2006. 135(1-3): p. 218-225
[10] Hao Wu, Zifu Li, Xin Jin, Xin Zhao and Furong Deng: Advanced Materials Research, 2012. 433-440: p. 4751-4756
[11] Guihua Xu, Shaohua Chen, Jianwen Shi, Shumei Wang and Gefu Zhu: Journal of Hazardous Materials, 2010. 180(1-3): p. 340-346
Online since: August 2018
Authors: Xiao Li Li, Wen Ping Zhang, Kun Song, Qi Dong Zhang
., Huairou District, Beijing 101407, China,
2China National Jinyu Gold Materials And Equipment Co.
Experimental Materials and Methods Materials.
It was simulated and calculated that the water molecules adsorb on the surfaces of molybdenite and talc using Materials Studio software to study the hydrophobic properties of the crystal surfaces.
Journal of Northeastern University (Natural Science), 2016, 37(7):1013-1016
Separation Science & Technology, 2006, 36(2):145-157
Experimental Materials and Methods Materials.
It was simulated and calculated that the water molecules adsorb on the surfaces of molybdenite and talc using Materials Studio software to study the hydrophobic properties of the crystal surfaces.
Journal of Northeastern University (Natural Science), 2016, 37(7):1013-1016
Separation Science & Technology, 2006, 36(2):145-157
Online since: January 2010
Authors: Pichet Limsuwan, Jakrapong Kaewkhao, Yotsakit Ruangtaweep, T. Kittiauchawal, Kheamrutai Thamaphat
Limsuwan1
1
Department of Physics, Faculty of Science,
King Mongkut, s University of Technology Thonburi, Bangkok,Thailand.
2
Faculty of Science and Technology, Thepsatri Rajabhat University,Lopburi, Thailand.
3
Glass and Materials Science Research Unit (GMSRU), Faculty of Science and Technology,
Nakhon Pathom Rajabhat University, Nakhon Pathom, Thailand
a
yotsakitt@hotmail.com
Keywords: Soda-Lime-Silica glass, Iron-doped, Absorption, Electron spin resonance
Abstract.
Aral, Romanian Journal Physics, 50(2005)1041
Smith, Materials Science and Engineering (McGraw-Hill, Inc., 1990) [3] Ü.
Schreiber, Journal of Non-Crystalline Solids, 352(2006) 539
Srinivasan, Journal of Magnetism and Magnetic Materials, 321(2009)2749
Aral, Romanian Journal Physics, 50(2005)1041
Smith, Materials Science and Engineering (McGraw-Hill, Inc., 1990) [3] Ü.
Schreiber, Journal of Non-Crystalline Solids, 352(2006) 539
Srinivasan, Journal of Magnetism and Magnetic Materials, 321(2009)2749