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Online since: October 2023
Authors: Pavlos K. Pandis, Vassilis N. Stathopoulos, Eleftherios Michopoulos, Charalambos Arvanitis, Christos Argirusis, Gerasimos Lyberatos, Asimina Tremouli
School of Chemical Engineering, Zografou Campus, National Technical University of Athens, 9 Heroon Polytechneiou St., 15780 Athens, Greece; ppandis@chemeng.ntua.gr
2.
Institute of Chemical Engineering Sciences (ICE-HT), Stadiou St., Platani, 26504 Patras, Greece.
Ceramic cathodic electrodes are used, coated with Fly Ash (FA).
Mazumder;p, Treatment of Chrome Tannery Wastewater by Biological Process - A Mini Review, International Journal of Environmental and Ecological Engineering, 7 (2013)
Ghosh;, Effect of Incorporating Silica Fume in Fly Ash Geopolymers, International Journal of Civil and Environmental Engineering, 5 (2011)
Institute of Chemical Engineering Sciences (ICE-HT), Stadiou St., Platani, 26504 Patras, Greece.
Ceramic cathodic electrodes are used, coated with Fly Ash (FA).
Mazumder;p, Treatment of Chrome Tannery Wastewater by Biological Process - A Mini Review, International Journal of Environmental and Ecological Engineering, 7 (2013)
Ghosh;, Effect of Incorporating Silica Fume in Fly Ash Geopolymers, International Journal of Civil and Environmental Engineering, 5 (2011)
Online since: October 2013
Authors: Ming Dong Yi, Xing Hai Wang, Chong Hai Xu, Jun Ma, Guang Chun Xiao
Friction and wear properties were also the key index of engineering application[1-2].
[6] Jun Qu, Weihao Xiong, Dameng Ye, et al: International Journal of Refractory Metals & Hard Materials Vol. 28(2010), p.243
[7] Shiquan Zhou, Wei Zhao, Weihao Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 26
[10] Yong Zheng, Weihao Xiong, Wenjun Liu, et al: Ceramics International Vol. 31(2005), p. 165
[11] Bikramjit B: Journal of the American Ceramic Society Vol. 87(9) (2004), p. 1771
[6] Jun Qu, Weihao Xiong, Dameng Ye, et al: International Journal of Refractory Metals & Hard Materials Vol. 28(2010), p.243
[7] Shiquan Zhou, Wei Zhao, Weihao Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 26
[10] Yong Zheng, Weihao Xiong, Wenjun Liu, et al: Ceramics International Vol. 31(2005), p. 165
[11] Bikramjit B: Journal of the American Ceramic Society Vol. 87(9) (2004), p. 1771
Online since: November 2023
Authors: Dheeraj Kumar, Rajesh Kumar Porwal
Lecture Notes in Mechanical Engineering.
Lecture Notes in Mechanical Engineering.
Optimization Methods in Engineering.
Biswas, Modeling and multi-objective optimization of powder mixed electric discharge machining process of aluminum/alumina metal matrix composite, Engineering Science and Technology, an International Journal, Volume 18, Issue 3, September 2015, Pages 369-373
Sharma , Pradeep Kumar, Study of Recast Layers And Surface Roughness On Al-7075 Metal Matrix Composite During EDM Machining, International Journal of Recent advances in Mechanical Engineering (IJMECH) Vol.3, No.1, pp. 53-62
Lecture Notes in Mechanical Engineering.
Optimization Methods in Engineering.
Biswas, Modeling and multi-objective optimization of powder mixed electric discharge machining process of aluminum/alumina metal matrix composite, Engineering Science and Technology, an International Journal, Volume 18, Issue 3, September 2015, Pages 369-373
Sharma , Pradeep Kumar, Study of Recast Layers And Surface Roughness On Al-7075 Metal Matrix Composite During EDM Machining, International Journal of Recent advances in Mechanical Engineering (IJMECH) Vol.3, No.1, pp. 53-62
Online since: February 2009
Authors: Ta Tung Chen, Wen Chen Chou, Chung Woei Chao, Choung Lii Chao, Wei Haw Fan
Ritter: Journal of engineering for industry, Vol. 111 (1989), (2), p.167
[2].
Wise: International Journal of Machine Tools and Manufacturing, Vol. 38(4) (1998), p.239 [3].
Gilmore: 7th International Conference on Computer-Aided Production Engineering, Vol. 28, (1991), No. 12, p.139 [4].
Moreland: Engineering Material Handbook, Vol. 4 (1991), p.359, (Ultrasonic machining - Book chapter: Ceramic and glasses, ASM International) [6].
Weller: �on-Traditional Machining Processes (2nd edn.), (Soc. of Manufacture Engineering, pp.15-71, 1984) [7].
Wise: International Journal of Machine Tools and Manufacturing, Vol. 38(4) (1998), p.239 [3].
Gilmore: 7th International Conference on Computer-Aided Production Engineering, Vol. 28, (1991), No. 12, p.139 [4].
Moreland: Engineering Material Handbook, Vol. 4 (1991), p.359, (Ultrasonic machining - Book chapter: Ceramic and glasses, ASM International) [6].
Weller: �on-Traditional Machining Processes (2nd edn.), (Soc. of Manufacture Engineering, pp.15-71, 1984) [7].
Online since: December 2011
Authors: Ji Qiu, Hong Wei Liu, Jian Jiang Wang, Xiao Feng Sun
Study on Temperature Change Rule of Sprayed Composite Powders in Flight
Liu Hongwei1,a,, Wang Jianjiang2,b, Sun Xiaofeng1,c, Qiu Ji1,d
1Department of Remanufacturing Engineering, Academy of Armored Forces Engineering, Beijing 100072, China
2Institute of Advanced Materials, Ordnance Engineering College, Shijiazhuang 050003 , China
ahongwlau@126.com, bjjwang63@heinfo.netc, sxfll9999@126.com, dqiuji2003@sina.com
Keywords: Self-reactive Spray Forming, composite powder, temperature field, numerical simulation
Abstract.
References [1] Liu Hongwei, Zhang Long, Wang Jianjiang: Key Engineering Materials Vol. 368-372 (2008), p. 1126 [2] Liu Hongwei, Zhang Long, Wang Jianjiang: Chinese Journal of Materials Research Vol. 22(2008), p. 274 [3] Liu Hongwei, Zhang Long, Wang Jianjiang: Materials & Heat Treatment Vol. 37 (2008), p. 26 [4] Sun Jianfeng, ShenJune, Li Zhenyu: Powder Metallurgy Technoloyg Vol. 18 (2000), p.92 [5] X.L.
Hall: International Communications in Heat and Mass Transfer Vol. 32 (2005), p. 872 [6] N.H.
Hattel: International Journal of Thermal Sciences Vol. 44 (2005), p. 587 [7] Liu Hongwei, Zhang Long, Wang Jianjiang: Functional materials Vol. 38 (2007), p. 3574 [8] Wang Jianjiang, Liu Hongwei, Wen Jinhua: Journal of InorganicMateria Vol. 41(2009), p. 195 [9] Hu Wenbin: Dissertation for Master Degree in Engineering, Ordnance Engineering College, (2006) [10]Ma Qingfang, Fang Rongsheng: Manual of Practical Thermal Physical Property (Chinese Agricultural Machine Press, Beijing 1986)
Reviews Vol. 41(1996), p. 13 [12] Wang Jianjiang, Du Xinkang, Fu Yongxin: Rare Metal Materials and Engineering Vol.35 (2006), p. 1258
References [1] Liu Hongwei, Zhang Long, Wang Jianjiang: Key Engineering Materials Vol. 368-372 (2008), p. 1126 [2] Liu Hongwei, Zhang Long, Wang Jianjiang: Chinese Journal of Materials Research Vol. 22(2008), p. 274 [3] Liu Hongwei, Zhang Long, Wang Jianjiang: Materials & Heat Treatment Vol. 37 (2008), p. 26 [4] Sun Jianfeng, ShenJune, Li Zhenyu: Powder Metallurgy Technoloyg Vol. 18 (2000), p.92 [5] X.L.
Hall: International Communications in Heat and Mass Transfer Vol. 32 (2005), p. 872 [6] N.H.
Hattel: International Journal of Thermal Sciences Vol. 44 (2005), p. 587 [7] Liu Hongwei, Zhang Long, Wang Jianjiang: Functional materials Vol. 38 (2007), p. 3574 [8] Wang Jianjiang, Liu Hongwei, Wen Jinhua: Journal of InorganicMateria Vol. 41(2009), p. 195 [9] Hu Wenbin: Dissertation for Master Degree in Engineering, Ordnance Engineering College, (2006) [10]Ma Qingfang, Fang Rongsheng: Manual of Practical Thermal Physical Property (Chinese Agricultural Machine Press, Beijing 1986)
Reviews Vol. 41(1996), p. 13 [12] Wang Jianjiang, Du Xinkang, Fu Yongxin: Rare Metal Materials and Engineering Vol.35 (2006), p. 1258
Online since: August 2014
Authors: Dan Huang, Ying Wang
Acoustic Properties of Materials for Vibration Reduction and Resistance on Ultra-precision Machine
Dan Huang1, a, Ying Wang2,b
1 School of Materials Science and Engineering, Henan Polytechnic University, Jiaozuo 454000
2 School of Mechanical and Power Engineering, Henan Polytechnic University, Jiaozuo 454000
ahuangdan@hpu.edu.cn, bjyjdle@126.com
Keywords: ultra-precision machining, porous media, viscous flow, acoustic absorption coefficient
Abstract.
Assume the ceramic frame is rigid since ceramic material is typically brittle.
Calculation approach for sound absorption coefficient of porous ceramic Porous ceramic materials.
Acknowledgement This research is financially supported by the National Science Foundation of China under grant No. 51102080, Henan Science and Technology Department under grant No. 112102210244, Henan Education Department under grant No. 2011A440002 and the Opening Project of Henan Key Discipline Open Laboratory of Mining Engineering Materials.
Lee: International Journal of Machine Tools and Manufacture, Vol. 50(2010), p. 241 [3] U.
Assume the ceramic frame is rigid since ceramic material is typically brittle.
Calculation approach for sound absorption coefficient of porous ceramic Porous ceramic materials.
Acknowledgement This research is financially supported by the National Science Foundation of China under grant No. 51102080, Henan Science and Technology Department under grant No. 112102210244, Henan Education Department under grant No. 2011A440002 and the Opening Project of Henan Key Discipline Open Laboratory of Mining Engineering Materials.
Lee: International Journal of Machine Tools and Manufacture, Vol. 50(2010), p. 241 [3] U.
Online since: July 2015
Authors: Oratai Jongprateep, Rachata Puranasamriddhi
Effects of ageing periods on compositions and sizes of titanium dioxide particles synthesized by sol-gel technique
Oratai Jongprateep1,2* and Rachata Puranasamriddhi1
1 Department of Materials Engineering, Faculty of Engineering, Kasetsart University
50 Ngamwongwan Rd, Ladyao Chatuchak Bangkok 10900,Thailand
2 Materials Innovation Center, Faculty of Engineering, Kasetsart University
50 Ngamwongwan Rd, Ladyao Chatuchak Bangkok 10900,Thailand
*oratai.j@ku.ac.th
Keywords: ceramic processing, nanoparticle, titanium dioxide, sol-gel
Abstract.
Equipment supports from the Department of Materials Engineering, Faculty of Engineering, Kasetsart University are also acknowledged.
Huang, Effect of brookite phase on the anatase rutile transition in titania nanoparticles, Journal of the European Ceramic Society, 23 (2003) 691–696 [3] Z.
Shi, Structural characterization and optical property of TiO2 powders prepared by the sol–gel method, Ceramics International, 40 (2014) 8659-8666
[8] F.Chen, J.Zhao, H.Hidaka, Photocatalytic Treatment of Rhodamine 6G in Wastewater Using Photoactive ZnO, International Journal of Photoenergy, 5 (2003) 209-217
Equipment supports from the Department of Materials Engineering, Faculty of Engineering, Kasetsart University are also acknowledged.
Huang, Effect of brookite phase on the anatase rutile transition in titania nanoparticles, Journal of the European Ceramic Society, 23 (2003) 691–696 [3] Z.
Shi, Structural characterization and optical property of TiO2 powders prepared by the sol–gel method, Ceramics International, 40 (2014) 8659-8666
[8] F.Chen, J.Zhao, H.Hidaka, Photocatalytic Treatment of Rhodamine 6G in Wastewater Using Photoactive ZnO, International Journal of Photoenergy, 5 (2003) 209-217
Online since: October 2010
Authors: Yao Ning Sun, Xin Mei Li, Wen Lei Sun, Xu Dong Zhang, Qing Yu
Laser fabricated in situ (Ti,W)C multi-ceramics reinforced intermetallic matrix composite
Yaoning Sun1,2, a, Wenlei Sun1, Xudong Zhang3,
Qing Yu1 , Xinmei Li1
1 School of Mechanical Engineering Xinjiang Unviersity Urumqi Xinjiang,830008 China
2 Mobile post-doctoral center of Mechanical Engineering Xinjiang Unviersity Urumqi Xinjiang, 830008 China
3 Design institute of Xinjiang Military Area Command Urumqi Xinjiang, 830042 China
a e-mail: sunyaoning2004@126.com
Keywords: Laser cladding; Intermetallic; microstructure; (Ti,W)C
Abstract.
Ti may easily react with melted ceramics for example SiC[8]、WC[9] under irradiation of high energy density laser beam.
Conclusions 1 In this present study, (Ti,W)C multi-ceramics reinforced Ni3(Si,Ti) composite coatings were fabricated by laser cladding on Ni-based superalloy substrate with Ni78Si13Ti9( at%) powders and different WC contents powders. 2 The laser cladings mainly consisting of Ni3(Si,Ti), (Ti,W)C multi-ceramics.
Vilar:The international journal of powder metallurgy, Vol. 37(2) (2001), p. 31-48
[7] U Ritter: Surface Engineering, March, Vol. 8(2) (1992), p. 272-275
Ti may easily react with melted ceramics for example SiC[8]、WC[9] under irradiation of high energy density laser beam.
Conclusions 1 In this present study, (Ti,W)C multi-ceramics reinforced Ni3(Si,Ti) composite coatings were fabricated by laser cladding on Ni-based superalloy substrate with Ni78Si13Ti9( at%) powders and different WC contents powders. 2 The laser cladings mainly consisting of Ni3(Si,Ti), (Ti,W)C multi-ceramics.
Vilar:The international journal of powder metallurgy, Vol. 37(2) (2001), p. 31-48
[7] U Ritter: Surface Engineering, March, Vol. 8(2) (1992), p. 272-275
Online since: January 2016
Authors: S. Roslinda, Firuz Zainuddin, Syed Nuzul Fadzli Syed Adam
Roslinda1,b, Firuz Zainuddin2,c
1 School of Applied Physics, Universiti Kebangsaan Malaysia
2 School of Materials Engineering, Universiti Malaysia Perlis
asyed.nuzul@unimap.edu.my, blinda@ukm.my, cfiruz@unimap.edu.my
Keywords: sol-gel, biomaterial, glass, silica-based xerogels, bioactive glass, composite
Abstract.
Ceramics International Vol. 22 (1996), p. 493-507
Hench: Journal European Ceramic Society. 29 (2009), 1257-1265
[19] Pereira MM, Clark AE, Hench LL: Journal of American Ceramic Society Vol. 9 (1995), p. 2463-2468 [20] T.
Chem Mater 2001; 13:1108-1113 [28] Takadama H, Kim HM, Kokubo T, Nakamura T: Journal of American Ceramic Society 2002; 85:1933-1936.
Ceramics International Vol. 22 (1996), p. 493-507
Hench: Journal European Ceramic Society. 29 (2009), 1257-1265
[19] Pereira MM, Clark AE, Hench LL: Journal of American Ceramic Society Vol. 9 (1995), p. 2463-2468 [20] T.
Chem Mater 2001; 13:1108-1113 [28] Takadama H, Kim HM, Kokubo T, Nakamura T: Journal of American Ceramic Society 2002; 85:1933-1936.