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Online since: December 2010
Authors: Wen Bin Wu, Yong Xiang Li, Dong Xia Wang
A U.S. research team led by engineer R.L.
The cutting tool materials used in high-speed cutting should be of high hardness and toughness, and currently such materials are mainly polycrystalline diamond (PCD), cubic boron nitride (CBN), ceramics, metal ceramics and coatings. 1.
The exploration of cutting tool materials has achieved great development in China, especially the ceramic cutting tools with the same mechanical and cutting properties as international tools and some even better.
With the development of supporting technology of CNC, microelectronic technique, new material, and development engineering, HSC will surely have further development.
[6] YUAN Feng, WANG Tai-yong, WANG Shuang-li: Machine Tool & Hydraulics, No. 12(2005), p.8-11 [7] Yu Qi-xun, Liu Bin, Ma Li-lin: Modern Manufacturing Engineering, No.6 (2008), p.1-7 [8] Smith S, Tlusty J: Journal of Manufacturing and Engineering, Vol.119(1997), p.664-666 [9] WANG Tongyue: Mechanical & Hydraulic, No.12(2004), p.4-6 [10] YU Qi-xun: Tool Engineering, Vol.38, No.11(2004), P.9-12 [11] LI Chang-he, DING, Yu-cheng, HOU Ya-li: Automobile Technology & Material, No.3(2009), p.47-53
The cutting tool materials used in high-speed cutting should be of high hardness and toughness, and currently such materials are mainly polycrystalline diamond (PCD), cubic boron nitride (CBN), ceramics, metal ceramics and coatings. 1.
The exploration of cutting tool materials has achieved great development in China, especially the ceramic cutting tools with the same mechanical and cutting properties as international tools and some even better.
With the development of supporting technology of CNC, microelectronic technique, new material, and development engineering, HSC will surely have further development.
[6] YUAN Feng, WANG Tai-yong, WANG Shuang-li: Machine Tool & Hydraulics, No. 12(2005), p.8-11 [7] Yu Qi-xun, Liu Bin, Ma Li-lin: Modern Manufacturing Engineering, No.6 (2008), p.1-7 [8] Smith S, Tlusty J: Journal of Manufacturing and Engineering, Vol.119(1997), p.664-666 [9] WANG Tongyue: Mechanical & Hydraulic, No.12(2004), p.4-6 [10] YU Qi-xun: Tool Engineering, Vol.38, No.11(2004), P.9-12 [11] LI Chang-he, DING, Yu-cheng, HOU Ya-li: Automobile Technology & Material, No.3(2009), p.47-53
Online since: August 2014
Authors: Yan Hong Li, Sen Liang, Chao Zhang
Preparation and Application of Morph Genetic Materials in the Field of Environment
Sen Liang1, a, Yanhong Li1,b and Chao Zhang1,c
1 College of environmental science and engineering, Guilin University of Technology, China
a309363472@qq.com, b331842901@qq.com, c357728814@qq.com
Keywords: Morph genetic materials, Synthesis methods, Functional materials, Asorption
Abstract.
Journal of Nanoparicle Research , 2010 , 12(4) : 1 389 – 1 400
Journal of Materials Chemistry , 2009 , 19(46) : 8 741 – 8 746
Schafer, Ceramic Components for Environmentally Friendly Internal Combustion Engines[J], Ceram.
Fabrication of ceramic components with hierarchical porosity.2 Chemical Engineering Journal, 2004, 2: 99
Journal of Nanoparicle Research , 2010 , 12(4) : 1 389 – 1 400
Journal of Materials Chemistry , 2009 , 19(46) : 8 741 – 8 746
Schafer, Ceramic Components for Environmentally Friendly Internal Combustion Engines[J], Ceram.
Fabrication of ceramic components with hierarchical porosity.2 Chemical Engineering Journal, 2004, 2: 99
Online since: August 2010
Authors: Firdianto Ade, Putrasari Yanuandri, Hendi Saryanto, Agustian Egi, Pudji Untoro, Darwin Sebayang
Kalam et. al: Journal Article.
Untoro: International Conf. on Advances in Mechanical Engineering (2009) [4] K.P.
Hart, The American Ceramic Society Inc., Westerville OH, USA (1990)
Tsetsekou: Journal of the European Ceramic Society. (1999), p. 815-824 [6] M.
Putrasari: 14 th International Conf. on Applied Mechanics and Engineering AMME-14 (2010) [11] J.
Untoro: International Conf. on Advances in Mechanical Engineering (2009) [4] K.P.
Hart, The American Ceramic Society Inc., Westerville OH, USA (1990)
Tsetsekou: Journal of the European Ceramic Society. (1999), p. 815-824 [6] M.
Putrasari: 14 th International Conf. on Applied Mechanics and Engineering AMME-14 (2010) [11] J.
Online since: February 2016
Authors: Joanna Karwan-Baczewska, Mateusz Wąsik
Introducing the ceramics particles into the copper matrix allows to achieve a higher mechanical properties comparing to pure copper.
The hard ceramic particles in metal matrix which are not deformable make difficult the densification process.
Hussain, Effect of Sintering Parameters on Microstructure and Properties of Mechanically Alloyed Copper-Tungsten Carbide Composite, International Journal of Materials, Mechanics and Manufacturing, (2013) [4] H.L.
Fine, Preparation of Cu-TiN alloy by external nitridation in combination with mechanical alloying, Materials Science and Engineering A190 (1995) 181-186
Rdzawski, Characterization of nanostructured copper – WC materials, Journal of Achievements in Materials and Manufacturing Engineering, Vol. 32 Issue 2 February (2009) [10] Karwan-Baczewska J., Gotman I., Gutmanas E.Y., Shapiro M., Processing and Properties of Nanoscale Cu-based Composites, Euro PM2004 Conference Proceedings, Vienna, Austria, 17-21 (2004), 369-374.
The hard ceramic particles in metal matrix which are not deformable make difficult the densification process.
Hussain, Effect of Sintering Parameters on Microstructure and Properties of Mechanically Alloyed Copper-Tungsten Carbide Composite, International Journal of Materials, Mechanics and Manufacturing, (2013) [4] H.L.
Fine, Preparation of Cu-TiN alloy by external nitridation in combination with mechanical alloying, Materials Science and Engineering A190 (1995) 181-186
Rdzawski, Characterization of nanostructured copper – WC materials, Journal of Achievements in Materials and Manufacturing Engineering, Vol. 32 Issue 2 February (2009) [10] Karwan-Baczewska J., Gotman I., Gutmanas E.Y., Shapiro M., Processing and Properties of Nanoscale Cu-based Composites, Euro PM2004 Conference Proceedings, Vienna, Austria, 17-21 (2004), 369-374.
Online since: June 2014
Authors: Hong Xun Wang, Wei Fang Zhang, Xiao Liang Fang
The research process and application prospect of the smart piezoelectric materials
Xiaoliang Fang1, a, Weifang Zhang1, b, Hongxun Wang 1, c
1BeiHang University, School of Reliability and Systems Engineering, Science & Technology Laboratory on Reliability & Environment Engineering, XueYuan Road No.37,HaiDian District, Beijing, China.
Minglei Zhao et al. prepared Na0.5Bi0.5TiO3 ceramic by sol-gel method.
Meanwhile the piezoelectric ceramic in this study had small coercive field and large residual polarization [11].
Zhang et al: Chinese Journal Sensors and Actuators.
Tungpimoluryt et al: IEEE International Symposium on Applications of Ferroelectrics, 2011
Minglei Zhao et al. prepared Na0.5Bi0.5TiO3 ceramic by sol-gel method.
Meanwhile the piezoelectric ceramic in this study had small coercive field and large residual polarization [11].
Zhang et al: Chinese Journal Sensors and Actuators.
Tungpimoluryt et al: IEEE International Symposium on Applications of Ferroelectrics, 2011
Facile Solid State Method Route Synthesis and Enhance Visible Light Activities of BiVO4 by Doping Co
Online since: August 2016
Authors: Hai Feng Chen, Bing Xu, Jing Ling Hu
After that, mixed solution was transferred to a ceramic crucible with label, and dried in an oven at 120 oC for 12h.
Next, product was carefully taken from ceramic crucible and washed with distilled water and anhydrous alcohol for two times, respectively.
Ceramics, International, 36(2010) 2073–2077
[9] Gao X, Feng F U, L Lei, Preparation of Cu-BiVO4 photocatalyst and its application in the treatment of phenol-containing wastewater, Chemical Industry & Engineering Progress, 29(2012) 30-34 [10] Lei G.
[11] Jingling Hu, Haifeng Chen, Preparation and photocatalytic activities of Fe/BiVO4 by low-temperature solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 245-248 [12] Haifeng Chen, Zili Xiong, Preparation and activities of visible-light-driven BiVO4 doped Mn2+ via solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 249-252 [13] Haifeng Chen, Jingling Hu, Preparation and activities of visible-light-driven BiVO4 by doping Ni via solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 237-240 [14] Jingling Hu, Haifeng Chen, Preparation and activities of visible-light-driven BiVO4 by doping Zn2+ via solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 241-244
Next, product was carefully taken from ceramic crucible and washed with distilled water and anhydrous alcohol for two times, respectively.
Ceramics, International, 36(2010) 2073–2077
[9] Gao X, Feng F U, L Lei, Preparation of Cu-BiVO4 photocatalyst and its application in the treatment of phenol-containing wastewater, Chemical Industry & Engineering Progress, 29(2012) 30-34 [10] Lei G.
[11] Jingling Hu, Haifeng Chen, Preparation and photocatalytic activities of Fe/BiVO4 by low-temperature solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 245-248 [12] Haifeng Chen, Zili Xiong, Preparation and activities of visible-light-driven BiVO4 doped Mn2+ via solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 249-252 [13] Haifeng Chen, Jingling Hu, Preparation and activities of visible-light-driven BiVO4 by doping Ni via solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 237-240 [14] Jingling Hu, Haifeng Chen, Preparation and activities of visible-light-driven BiVO4 by doping Zn2+ via solid state method, Advances in Engineering Research, Atlantis Press, 2015, pp. 241-244
Online since: June 2012
Authors: Yan Chen, Xing Wei
Study on Coarse-Grained Parallel Genetic Algorithm
Yan Chen1,a, Xing Wei 2,b
1 Department of Information Engineering Guilin College of Aerospace Technology, Guilin, China
2 Department of Information Engineering Guilin College of Aerospace Technology, Guilin, China
achen1982yan@163.com, b wxaiqiqi@163.com
Keywords: Parallel genetic algorithm; Coarse-grained; Migration; Speedup
Abstract.
Among the different alternatives, we use a simple engineering algorithm.
Dognon: Advances in Engineering Software, Vol. 1(2001), p. 49
Deng, Y.Hwang: International Journal of Heat and Mass Transfer, Vol.49 (2006), p.4732
Paker: Journal of Computer Science and Technology, Vol.15 (2000), p. 355.
Among the different alternatives, we use a simple engineering algorithm.
Dognon: Advances in Engineering Software, Vol. 1(2001), p. 49
Deng, Y.Hwang: International Journal of Heat and Mass Transfer, Vol.49 (2006), p.4732
Paker: Journal of Computer Science and Technology, Vol.15 (2000), p. 355.
Online since: May 2020
Authors: Hamimah Abdul Rahman, Nurul Akidah Baharuddin, Jarot Raharjo, Umira Asyikin Yusop, Tan Kang Huai
International Journal of Hydrogen Energy. 41(47) (2016) 22415-22421
International Journal of Hydrogen Energy. 40(35) (2015) 11998-12002
Influence of Heat Treatment and Milling Speed on Phase Stability of Ba0. 5Sr0. 5Co0. 8Fe0. 2O3-δ Composite Cathode Solid Oxide Fuel Cell. in Key Engineering Materials. 791 (2018) 66-73 [12] Jeffrey W.
Ceramic processing and sintering.
International Materials Reviews, 41(1) (2003)36–37
International Journal of Hydrogen Energy. 40(35) (2015) 11998-12002
Influence of Heat Treatment and Milling Speed on Phase Stability of Ba0. 5Sr0. 5Co0. 8Fe0. 2O3-δ Composite Cathode Solid Oxide Fuel Cell. in Key Engineering Materials. 791 (2018) 66-73 [12] Jeffrey W.
Ceramic processing and sintering.
International Materials Reviews, 41(1) (2003)36–37
Online since: September 2013
Authors: Tao Sun, Guo An Hou
When FTS working, piezoelectric ceramic drive flexible hinge produce high frequency reciprocating motion.
piezoelectric ceramic flexible hinge a) b) Fig.2 The structure and dynamic model of FTS According to Fig.3 b), the FTS dynamic equation can be written as follows (1) Where m is the quality of FTS’s moving part, kp is piezoelectric ceramic stiffness, Fd is cutting force, y is tip displacement, cf is flexible hinge damping, kf is flexible hinge stiffness.
S: Nanotechnology and Precision Engineering, Vol. 3 (2005) No.3, pp.216-221.
Oliveira: International Journal of Machine Tools and Manufacture, Vol. 46 (2) No.2, pp.176-188.
piezoelectric ceramic flexible hinge a) b) Fig.2 The structure and dynamic model of FTS According to Fig.3 b), the FTS dynamic equation can be written as follows (1) Where m is the quality of FTS’s moving part, kp is piezoelectric ceramic stiffness, Fd is cutting force, y is tip displacement, cf is flexible hinge damping, kf is flexible hinge stiffness.
S: Nanotechnology and Precision Engineering, Vol. 3 (2005) No.3, pp.216-221.
Oliveira: International Journal of Machine Tools and Manufacture, Vol. 46 (2) No.2, pp.176-188.
Online since: December 2013
Authors: S. Izman, Denni Kurniawan, M.Y. Noordin, Rusdi Nur
Herrmann, Glocalized Solutions for Sustainability in Manufacturing: Proceedings of the 18th CIRP International Conference on Life Cycle Engineering
Das, The International Journal of Advanced Manufacturing Technology. 50(5-8) (2010), p.459-469 [6] Gutowski, T., J.
Thiriez, 13th CIRP International Conference on Life Cycle Engineering
(2006), [7] Gutowski, T.G., chapter in the Handbook of Mechanical Engineering.
Batish, Production Engineering. 3(1) (2009), p.31-40 [13] Noordin, M.Y., D.
Das, The International Journal of Advanced Manufacturing Technology. 50(5-8) (2010), p.459-469 [6] Gutowski, T., J.
Thiriez, 13th CIRP International Conference on Life Cycle Engineering
(2006), [7] Gutowski, T.G., chapter in the Handbook of Mechanical Engineering.
Batish, Production Engineering. 3(1) (2009), p.31-40 [13] Noordin, M.Y., D.