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Online since: February 2012
Authors: Jian Zhuang, Ya Jun Zhang, Da Ming Wu, Yue Han, Kai Fang Dang
Micro plastic heat radiators
Plastic materials for micro heat radiator.
Thermal conductivity of plastic materials is relatively low.
The thermal radiation coefficient of some materials is listed in Table 1.
Table 1 Thermal radiation coefficient of some materials NO.
Journal of Mechanical Science and Technology, (2009), 12(23): 3448-3458 [2] Galvis E.; Jubran B.
Thermal conductivity of plastic materials is relatively low.
The thermal radiation coefficient of some materials is listed in Table 1.
Table 1 Thermal radiation coefficient of some materials NO.
Journal of Mechanical Science and Technology, (2009), 12(23): 3448-3458 [2] Galvis E.; Jubran B.
Online since: December 2014
Authors: Oscar Olimpio de Araújo Filho, Sérvulo José Ferreira Alves, Marcio Marcelo Sampaio de Sousa, Everthon Rodrigues de Araújo, Maurílio José dos Santos, Francisco Ambrozio Filho
Chawla: Composite Materials Science and Engineering.
(Progress in Material Science New York, 2001)
Adamiak: Journal of Achievements in Materials and Manufacturing Engineering (2008), p. 99
[4] Chinawad Dhadsanadhep, Tachai Luangvaranunt, Junko Umeda Katsuyoshi Kondoh: Journal of Metals, Materials and Minerals (2008), p. 99
Adamiak: Journal of Achievements in Materials and Manufacturing Engineering (2006), p. 43.
(Progress in Material Science New York, 2001)
Adamiak: Journal of Achievements in Materials and Manufacturing Engineering (2008), p. 99
[4] Chinawad Dhadsanadhep, Tachai Luangvaranunt, Junko Umeda Katsuyoshi Kondoh: Journal of Metals, Materials and Minerals (2008), p. 99
Adamiak: Journal of Achievements in Materials and Manufacturing Engineering (2006), p. 43.
Online since: October 2013
Authors: Yuan Sheng Zhai, Shuai Qiao, Qiang Hu, Xian Li Liu
Ni-based super-alloy GH4169 that is most widely used in aerospace is one of the most difficult-to-cut materials, which can be machined by Polycrystalline Cubic Boron Nitride (PCBN) tool.
Super-alloy GH4169 is one of the most difficult-to-cut materials, which relative machinability is only 5%-15% of 45 steel and unit cutting force is usually 1-3 times as large as common steel.
Material of the work-piece is super-alloy GH4169 and it can be regarded as elastic-plastic material.
Wang: Journal of Materials Processing Technology, Vol.97 (2000), p. 114 [5] W.
Grzesik: Journal of Materials Processing Technology, Vol.176 (2006), p. 102 [6] L.
Super-alloy GH4169 is one of the most difficult-to-cut materials, which relative machinability is only 5%-15% of 45 steel and unit cutting force is usually 1-3 times as large as common steel.
Material of the work-piece is super-alloy GH4169 and it can be regarded as elastic-plastic material.
Wang: Journal of Materials Processing Technology, Vol.97 (2000), p. 114 [5] W.
Grzesik: Journal of Materials Processing Technology, Vol.176 (2006), p. 102 [6] L.
Online since: March 2015
Authors: Guan Zhong Wang, Zeng Lin Wang, Shuai Cheng Tian, Shou Peng Wu, Fu Tao Zhang, Zai Feng Li
HZMMA, carbon black N774, morphological structural change of HNBR composites with enhanced during the curing process, and relationships with mechanical properties of this material were investigated using IR, TEM, and XRD.
1 Experimentals
1.1 Materials.
Acknowledgement: This research work was funded by the Australia-China Natural Gas Technology Partnership Fund, Shandong provincial nature science fund (ZR2013EMM007) and Qingdao science and technology project (13-1-4-147-jch) References [1] Zhang F., Guo Q.
European Polymer Journal, 2005, 41(3): 577-588 [7] Lu Y.L., Liu L., Tian M., et al.
European Polymer Journal, 2005, 41(3): 589-598 [8] Li Q., Zhao S.H., Zhu L.L.
Journal of Applied Polymer Science, 1994, 53(1): 103-120 [14] Wang Y.H., Peng Z.L., Zhang Y., et al.
Acknowledgement: This research work was funded by the Australia-China Natural Gas Technology Partnership Fund, Shandong provincial nature science fund (ZR2013EMM007) and Qingdao science and technology project (13-1-4-147-jch) References [1] Zhang F., Guo Q.
European Polymer Journal, 2005, 41(3): 577-588 [7] Lu Y.L., Liu L., Tian M., et al.
European Polymer Journal, 2005, 41(3): 589-598 [8] Li Q., Zhao S.H., Zhu L.L.
Journal of Applied Polymer Science, 1994, 53(1): 103-120 [14] Wang Y.H., Peng Z.L., Zhang Y., et al.
Online since: July 2003
Authors: Wen Ge Pan, Gui Qiong Jiao, Liang Tao, Bo Wang
Ko: Composite Materials: Testing and Design(Seventh Conference), ASTM STP
893(1986), p.392
[2] C.L.
Chou: Composite Materials: Testing and Designing (Seventh Conference), ASTM STP893(1986), p.404 [3] J.M.
Yang, C.L Ma, Chou T W: Journal of Composite Materials, Vol. 20(1986), p.472 [4] H.Y.
Wu: Composite Science and Technology, Vol. 56(1996), p.1 [6] L.
Choy: Composite Science and Technology, Vol. 59(1999), p.391 [7] L.
Chou: Composite Materials: Testing and Designing (Seventh Conference), ASTM STP893(1986), p.404 [3] J.M.
Yang, C.L Ma, Chou T W: Journal of Composite Materials, Vol. 20(1986), p.472 [4] H.Y.
Wu: Composite Science and Technology, Vol. 56(1996), p.1 [6] L.
Choy: Composite Science and Technology, Vol. 59(1999), p.391 [7] L.
Online since: June 2018
Authors: J.A.O. Olugbuyiro, A. Edobor-Osoh, A.A. Adebisi, O.A. Bamgboye, J. Ojeifo, Cyril O. Ehi-Eromosele
Qiao, Materials 2018, 11(2), 324
[11] S.
Nascimento, Infrared Spectroscopy Techniques in the Characterization of SOFC Functional Ceramics, Infrared Spectroscopy Materials Science, Engineering and Technology, Prof.
Sassi, Journal of Materials Chemistry 2011, 21, 3849-3857
Awan, Materials Chemistry and Physics 2012, 137, 365-371
Pawar, Materials Science and Engineering C 2014, 42, 637-646
Nascimento, Infrared Spectroscopy Techniques in the Characterization of SOFC Functional Ceramics, Infrared Spectroscopy Materials Science, Engineering and Technology, Prof.
Sassi, Journal of Materials Chemistry 2011, 21, 3849-3857
Awan, Materials Chemistry and Physics 2012, 137, 365-371
Pawar, Materials Science and Engineering C 2014, 42, 637-646
Online since: July 2011
Authors: Na Liu, Tao Zhu, Hai Wang
The total anisotropy energy comes from many aspects that closely related to the structure of the materials, such as the shape of the materials, crystalline phase, and elastic strain in material, and so on [12-15].
Kim: Journal of Applied Physics Vol. 97(2005), p.10C919 [3]M.
Kawaji et al.: Journal of Magnetism and Magnetic Material Vol.287 (2005), p. 188-192
Langhlin: Journal of Applied Physics Vol. 79(1996), p. 4496-4501
Yang: Journal of Applied Physics Vol. 99(2006), p.013906
Kim: Journal of Applied Physics Vol. 97(2005), p.10C919 [3]M.
Kawaji et al.: Journal of Magnetism and Magnetic Material Vol.287 (2005), p. 188-192
Langhlin: Journal of Applied Physics Vol. 79(1996), p. 4496-4501
Yang: Journal of Applied Physics Vol. 99(2006), p.013906
Online since: October 2012
Authors: Bohuslav Mašek, David Aišman, Hana Jirková, Stefan Wurster
Micro-Compression Test of Thixoformed Austenite
MASEK Bohuslav1,a, AISMAN David1,b, JIRKOVA Hana1,c
and WURSTER Stefan2,d
1University of West Bohemia in Pilsen, Research Centre of Forming Technology – FORTECH, Univerzitní 22, CZ-30614 Pilsen, Czech Republic
2University of Leoben, Erich Schmid Institute of Materials Science, Jahnstrasse 12, 8700 Leoben, Austria
amasekb@kmm.zcu.cz, bdaisman@vctt.zcu.cz ,ch.jirkova@email.cz, dstefan.wurster@oeaw.ac.at
Keywords: Mini-thixoforming, semi-solid state, micro-compression test
Abstract: Thixoforming is an alternative forming method, by which intricate and complex-shaped products can be manufactured using a single production step.
The mean size of austenite grains, 12 – 14 µm, is considerably smaller than that of conventionally thixoformed materials.
Kliber (Ed.), Proceedings of 20th International Conference on Metallurgy and Materials, Tanger, Ostrava, 2011, pp. 210-215
Masek, Unconventional Structure of X210Cr12 Steel Obtained by Thixoforming, Journal of Alloys and Compounds. 504S (2010) 500-503
Dehmb, Micro-compression testing: A critical discussion of experimental constraints, Materials Science and Engineering: A.
The mean size of austenite grains, 12 – 14 µm, is considerably smaller than that of conventionally thixoformed materials.
Kliber (Ed.), Proceedings of 20th International Conference on Metallurgy and Materials, Tanger, Ostrava, 2011, pp. 210-215
Masek, Unconventional Structure of X210Cr12 Steel Obtained by Thixoforming, Journal of Alloys and Compounds. 504S (2010) 500-503
Dehmb, Micro-compression testing: A critical discussion of experimental constraints, Materials Science and Engineering: A.
Online since: July 2014
Authors: Jian Zhong Cui, Song Lin Huang
Metallic materials is heated itself directly through the Eddy current effect with the high-frequency electric heating principle.
Introduction With the development of society and technology, new demands on the methods of heating materials are constantly emerging in many areas of the national economy.
It has become an inevitable trend to apply modern computer technology and automatic control technology to the field of traditional materials[11].
Zhou: Journal of Materials Science & Technology, Vol. 17 (2001) No.3, p.306
Yang and Z.L.Hu: Materials Review, Vol. 14 (2000) No.7, p.3
Introduction With the development of society and technology, new demands on the methods of heating materials are constantly emerging in many areas of the national economy.
It has become an inevitable trend to apply modern computer technology and automatic control technology to the field of traditional materials[11].
Zhou: Journal of Materials Science & Technology, Vol. 17 (2001) No.3, p.306
Yang and Z.L.Hu: Materials Review, Vol. 14 (2000) No.7, p.3