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Online since: October 2010
Authors: Yuan Bin Zhang, Hui Luo, Tong Guang Zhai
Materials and Experimental Details
The three kinds of materials used in this investigation were taken from three fan hubs.
Lindley and T.Fukui: Materials Science and Engineering A, Vol.432 (2006), pp.59-68
Samuel: Materials Science and Engineering A, Vol.473 (2008), pp.65-75
Todinov: Materials Science and Engineering A, Vol.255 (1998), pp.117-123
Tiryakioglu: Materials Science and Engineering A, Vol.497 (2008), pp.119-125.
Lindley and T.Fukui: Materials Science and Engineering A, Vol.432 (2006), pp.59-68
Samuel: Materials Science and Engineering A, Vol.473 (2008), pp.65-75
Todinov: Materials Science and Engineering A, Vol.255 (1998), pp.117-123
Tiryakioglu: Materials Science and Engineering A, Vol.497 (2008), pp.119-125.
Online since: February 2012
Authors: Pei Xin Qu, Yu Zhong Li, Lan Ying Xu, Qiang Wu
Study on chip morphology of Electric Hot Minipore Drilling
Lanying Xu1,a, Qiang Wu1,b, Yuzhong Li1, Peixin Qu2,c
1Numerical Control Technology Key Laboratory of Colleges of Guangdong Province, GuangDong Polytechnic Normal University, Guangzhou 510635, Guangdong ,China
2School of Information & Engineering, Henan Institute of Science and Technology, Xinxiang,453003, Henan, China
axulanying2011@126.com,b510635wuqiang@163.com,cqupeixin@sina.com
Keywords: Electric hot; Drilling; hard-to-cut materials; Chip morphology
Abstract.
This test uses YG6A carbide twist drill of diameter 3mm (Physics and chemistry properties of materials shows in Table 1 ) to the stainless steel plate (composition of materials shows in Table 2) for hole drilling, test parameters are shown in Table 3,on condition of the electric hot drilling and ordinary drilling, chip morphology and chip removal were observed.
Applied Mechanics and Materials Vol.34-35 (2010),p.1605 [2] J.
International Journal of Machine Tools and Manufacture: Vol.45 (2004),p.1413 [3] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
Department of Mechanical and Industrial Engineering, University of Illinois at Urbana-Champaign, Urbana, Vol.6 (2001), p.1801 [4] Xu Lan-ying Wu Qiang Hu Xiao-fang Ye Bang-yan Li Yu-zhong Temperature Simulation and Experiment Study on Electric Hot Minipore Drilling,Journal of South China University of Technology:Natural Science Edition: Vol.39(2011), p.95 [5] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
This test uses YG6A carbide twist drill of diameter 3mm (Physics and chemistry properties of materials shows in Table 1 ) to the stainless steel plate (composition of materials shows in Table 2) for hole drilling, test parameters are shown in Table 3,on condition of the electric hot drilling and ordinary drilling, chip morphology and chip removal were observed.
Applied Mechanics and Materials Vol.34-35 (2010),p.1605 [2] J.
International Journal of Machine Tools and Manufacture: Vol.45 (2004),p.1413 [3] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
Department of Mechanical and Industrial Engineering, University of Illinois at Urbana-Champaign, Urbana, Vol.6 (2001), p.1801 [4] Xu Lan-ying Wu Qiang Hu Xiao-fang Ye Bang-yan Li Yu-zhong Temperature Simulation and Experiment Study on Electric Hot Minipore Drilling,Journal of South China University of Technology:Natural Science Edition: Vol.39(2011), p.95 [5] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
Online since: April 2015
Authors: Krzysztof Labisz, Jarosław Konieczny, Anna Janina Dolata
Kumai, Aluminium alloy semisolid strip casting using an unequal diameter twin roll caster, Journal of Achievements in Materials and Manufacturing Engineering, Volume 14, Issue 1-2, January-February 2006, pp. 157-162
Labisz, Microstructure and mechanical properties of HPDL laser treated cast aluminium alloys, Materials Science and Engineering Technology 2014, Mat.
Duszczyk, The influence of cast method and anodizing parameters on structure and layer thickness of aluminium alloys, Journal of Materials Processing Technology 157–158 (2004) pp. 718-723
Delbin, Production of cellular A2011 alloy from semi-solid state, Journal of Achievements in Materials and Manufacturing Engineering, Volume 17, Issue 1-2, July-August 2006, pp. 137-140
Krupińska, A Grajcar, Phases and structure characteristics of the near eutectic Al-Si-Cu alloy using derivative thermo analysis, Materials Science Forum, Vols. 638-642, (2010,) pp 475-480
Labisz, Microstructure and mechanical properties of HPDL laser treated cast aluminium alloys, Materials Science and Engineering Technology 2014, Mat.
Duszczyk, The influence of cast method and anodizing parameters on structure and layer thickness of aluminium alloys, Journal of Materials Processing Technology 157–158 (2004) pp. 718-723
Delbin, Production of cellular A2011 alloy from semi-solid state, Journal of Achievements in Materials and Manufacturing Engineering, Volume 17, Issue 1-2, July-August 2006, pp. 137-140
Krupińska, A Grajcar, Phases and structure characteristics of the near eutectic Al-Si-Cu alloy using derivative thermo analysis, Materials Science Forum, Vols. 638-642, (2010,) pp 475-480
Online since: February 2011
Authors: Amit Kumar Haldar, S. Senthilvelan
Fig. 2 Fracture strength of test materials
Fig. 3 Test material notch sensitivity
Fig. 4 shows the fatigue performance of notched test materials.
Backlund: Journal of Material Science, Vol. 24 (1989), p. 1670 [6] M.F.
Senthilvelan: Materials and Design, Vol. 31 (2010), p. 3733 [8] J.H.
Fouad: Materials and Design, Vol. 31 (2009), P.1117 [12] C.
Senthilvelan: Proceedings of the Institutions of Mechanical Engineers Part L Journal of Materials: Design and Application, Vol. 223 (2009), p. 131 [13] E.G.
Backlund: Journal of Material Science, Vol. 24 (1989), p. 1670 [6] M.F.
Senthilvelan: Materials and Design, Vol. 31 (2010), p. 3733 [8] J.H.
Fouad: Materials and Design, Vol. 31 (2009), P.1117 [12] C.
Senthilvelan: Proceedings of the Institutions of Mechanical Engineers Part L Journal of Materials: Design and Application, Vol. 223 (2009), p. 131 [13] E.G.
Online since: February 2014
Authors: Nandy Putra, Rosari Saleh, Wayan Nata Septiadi, Rardi Artono Koestoer, Suhendro Purbo Prakoso
Introduction
Materials with porous structures or porous media, have been giving massive advantages in developing heat pipe as one of heat exchangers especially for the evaporator and the condenser.
Jung-Chang Wang : International Journal of Thermal Sciences 50 (2011), p. 97-105 [10].
Liu : Journal of Porous Materials 4 (1997), p. 303–308 [22].
Ran Bao : International Journal of Thermal Sciences 49 (2010), p. 1680-1687 [28].
Okta D, Zein Hamid, Thermal performance of nanofluids in biomaterial wick loop heat pipes, submitted to International Journal of Thermal Sciences
Jung-Chang Wang : International Journal of Thermal Sciences 50 (2011), p. 97-105 [10].
Liu : Journal of Porous Materials 4 (1997), p. 303–308 [22].
Ran Bao : International Journal of Thermal Sciences 49 (2010), p. 1680-1687 [28].
Okta D, Zein Hamid, Thermal performance of nanofluids in biomaterial wick loop heat pipes, submitted to International Journal of Thermal Sciences
Online since: May 2014
Authors: Guo Chiuan Tzeng, Ren Haw Chen
Materials and method
A three-layer co-extrusion system and the corresponding mold were designed.
Changing the flow rate and the temperature of the materials significantly changes the thickness of the central PMMA layer.
Ave´rous, “Comprehensive Experimental Study of a Starch/Polyesteramide Coextrusion”, Journal of Applied Polymer Science, Vol. 86, pp. 2586-2600, 2002
Vlcek, “Theoretical and Experimental Analysis of Interfacial Instabilities in Coextrusion Flows”, Journal of Applied Polymer Science, Vol. 98, pp. 153-162, 2005
Wong, “Factors affecting extrudate swell and melt flow rate”, Journal of Materials Processing Technology, Vol. 79, pp. 163-169, 1998
Changing the flow rate and the temperature of the materials significantly changes the thickness of the central PMMA layer.
Ave´rous, “Comprehensive Experimental Study of a Starch/Polyesteramide Coextrusion”, Journal of Applied Polymer Science, Vol. 86, pp. 2586-2600, 2002
Vlcek, “Theoretical and Experimental Analysis of Interfacial Instabilities in Coextrusion Flows”, Journal of Applied Polymer Science, Vol. 98, pp. 153-162, 2005
Wong, “Factors affecting extrudate swell and melt flow rate”, Journal of Materials Processing Technology, Vol. 79, pp. 163-169, 1998
Online since: April 2015
Authors: Prengki Pransisco, Afza Shafie, Beh Hoe Guan
The nanostructure materials Ni0.5Zn0.35Cu0.15Fe2O4 was synthesized by sol-gel method.
Bera, Journal of Material Processing Technology 197, 279–283 (2008)
Bera, Journal of Material Processing Technology 7, 279–283 (2007)
Jing, Material Science Engineering B 162, 22–25 (2009)
Jiang, Journal Magnetic and Magnetic Material 323, 1717–1721 (2011) [10] M.
Bera, Journal of Material Processing Technology 197, 279–283 (2008)
Bera, Journal of Material Processing Technology 7, 279–283 (2007)
Jing, Material Science Engineering B 162, 22–25 (2009)
Jiang, Journal Magnetic and Magnetic Material 323, 1717–1721 (2011) [10] M.
Online since: July 2012
Authors: Rui Ming Wen, Feng Pei Qi, Yong Jun Hu, Chang Hui Liu, Pei Qing You
The LiCoO2 anode and cathode materials of lithium-ion battery were separated by O.
The team intends to preprocess the fluid and electrode materials at 320℃, the binder and diaphragm could volatile under this temperature, the collector and electrode material are only simple physical combination, so the electrode materials are powdered.
Acknowledgment This work was financially supported by National Natural Science Foundation of China (No: 51074069) and Science and Technology Program of YiYang City (No: 2011JZ37), which are gratefully acknowledged.
International Journal of Mineral Processing, 2004,74(1): 373-378
Journal of power sources, 2002, 112(1):247-254
The team intends to preprocess the fluid and electrode materials at 320℃, the binder and diaphragm could volatile under this temperature, the collector and electrode material are only simple physical combination, so the electrode materials are powdered.
Acknowledgment This work was financially supported by National Natural Science Foundation of China (No: 51074069) and Science and Technology Program of YiYang City (No: 2011JZ37), which are gratefully acknowledged.
International Journal of Mineral Processing, 2004,74(1): 373-378
Journal of power sources, 2002, 112(1):247-254
Online since: August 2011
Authors: Li Jun Li, Zhong Hao Rao, Shuang Feng Wang, Hong Zhang, Ming Long Zhang, Yan Lai Zhang
Solar Energy Materials and Solar Cells 92, 1526-1532 (2008)
A.
Buddhi: Review on thermal energy storage with phase change materials and applications.
Solar Energy Materials and Solar Cells, doi:10.1016/j.solmat.2011.02.15
Journal of Thermal Science and Technology 1, 66-77 (2006) [10] H.
Thermal Sciences.
Buddhi: Review on thermal energy storage with phase change materials and applications.
Solar Energy Materials and Solar Cells, doi:10.1016/j.solmat.2011.02.15
Journal of Thermal Science and Technology 1, 66-77 (2006) [10] H.
Thermal Sciences.
Online since: December 2014
Authors: Elizaveta Beridze, F. Michieletto, C. Gennari, M. Forzan
[4] H.Conrad,Electroplasticity in metals and ceramics, Material Science and Engineering.
Chu, Recent advances and challenges in electroplastic manufacturing processing of metals, Journal of Materials Research.7 (2010)1215-1224
Smith, Formability of Al 5xxx Sheet Metals Using Pulsed Current for Various Heat Treatments, Journal of Manufacturing Science and Engineering.132 (2010)
Molotskii, Theoretical basis for electro- and magnetoplasticity, Material Science and Engineering A.
Li, Experimental study of electroplastic effect on stainless steel wire 304L, Material Science and Engineering.
Chu, Recent advances and challenges in electroplastic manufacturing processing of metals, Journal of Materials Research.7 (2010)1215-1224
Smith, Formability of Al 5xxx Sheet Metals Using Pulsed Current for Various Heat Treatments, Journal of Manufacturing Science and Engineering.132 (2010)
Molotskii, Theoretical basis for electro- and magnetoplasticity, Material Science and Engineering A.
Li, Experimental study of electroplastic effect on stainless steel wire 304L, Material Science and Engineering.