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Online since: February 2011
Authors: Jian Min Sun, Yi Zhang
Experimental Study on Wear Resistance of Engine Cylinder Based on Surface Hardening Technology
Jianmin Sun1, a, Yi Zhang2,b
1 School of Mechanical-electronic and Automobile Engineering, Beijing University of Civil Engineering and Architecture, Beijing, China
2 Automotive Engineering Department, Heilongjiang Institute of Technology, Harbin, China
a jianminsun@tom.com, b hljzhangyi@163.com
Keywords: Surface Hardening Technology; Cylinder; Wear Resistance; Composite Iron Plating
Abstract.
References [1] Wang Yu, Ma Wenyan: Automobile Technology. no. 8 (2000), p. 24 [2] Zhong Minlin, Liu Wenjin, Zhang Hongjun: Wear. vol. 260, no. 11-12 (2006), p. 1349 [3] Xu Fangda, Zhang Yongkang: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 18 [4] Chen Fengbin, Bi Rui: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 22 [5] FAN Xiu-hong: Journal of Shandong University of Technology Science and Technology (Science and Technology Edition). vol.19, no.5 (2005), p.78 [6] Hutson Alisha, Lee Hyukjae, Mall Shankar: Tribology International. vol. 39, no. 10 (2006), p. 1187 [7] Candel Antonio, Gadow Rainer; Lopez Daniel: Ceramic Engineering and Science Proceedings. vol. 26, no. 3 (2005), p. 229 [8] Dearnley P.A., Kern E.; Dahm K.L.: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
. vol. 219, no. 2 (2005), p. 121 [9] Hwang Jong-Hyun, Han Myoung-Seoup, Kim Dae-Young: Journal of Materials Engineering and Performance. vol. 15, no. 3 (2006), p. 328 [10] Takaoka Katsuya, Hirota Ken, Kato Masaki: Journal of the Society of Materials Science. vol. 55, no. 3 (2006), p. 258
References [1] Wang Yu, Ma Wenyan: Automobile Technology. no. 8 (2000), p. 24 [2] Zhong Minlin, Liu Wenjin, Zhang Hongjun: Wear. vol. 260, no. 11-12 (2006), p. 1349 [3] Xu Fangda, Zhang Yongkang: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 18 [4] Chen Fengbin, Bi Rui: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 22 [5] FAN Xiu-hong: Journal of Shandong University of Technology Science and Technology (Science and Technology Edition). vol.19, no.5 (2005), p.78 [6] Hutson Alisha, Lee Hyukjae, Mall Shankar: Tribology International. vol. 39, no. 10 (2006), p. 1187 [7] Candel Antonio, Gadow Rainer; Lopez Daniel: Ceramic Engineering and Science Proceedings. vol. 26, no. 3 (2005), p. 229 [8] Dearnley P.A., Kern E.; Dahm K.L.: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
. vol. 219, no. 2 (2005), p. 121 [9] Hwang Jong-Hyun, Han Myoung-Seoup, Kim Dae-Young: Journal of Materials Engineering and Performance. vol. 15, no. 3 (2006), p. 328 [10] Takaoka Katsuya, Hirota Ken, Kato Masaki: Journal of the Society of Materials Science. vol. 55, no. 3 (2006), p. 258
Online since: October 2002
Authors: F. Jorge Lino, Rui J.L. Neto, Pedro V. Vasconcelos
The rapid
production of a tool prototype allows the manufacturer to have a better overall control of the new
product development process, not only of the product itself - visual aids for engineering,
ergonomics, and fit - but also of the processing technology by having a prototype tool at an early
stage of the process.
The tools for plaster, refractory materials and ceramic moulds that are able to produce metal parts and tools are not included in this definition.
Direct RT Technologies No polymer coated (DMLS/EOS) Metal Selective Laser Sintering Polymer coated (SLS / DTM) Laser Generation (LENS, DMD) Metal 3D Printing (ProMetal) Metal tools Steel laminated cavities (LLCC, Stratoconception) Photopolymers Curing (Direct AIM/SL) Polymer Selective Laser Sintering (SLS) Polymer and composites tools Fused Material Deposition (FDM) Indirect RT Technologies Block Metal powders mixtures Sintering (3D Keltool, Dynamic Tooling, Ecotool, RPBPS) Metal Spraying (RSP, Sprayform) Metal tools without casting Shell Electroforming (Express Tool, CEMCOM) Direct conversion Investment casting, Lost foam Indirect conversion Plaster and Ceramics Casting 3D Printing ceramics (DSPC /Soligen) Metal tools cast in refractory material moulds Croning Sand Selective Laser Sintering (DCP/EOS) Polymer and composites tools RTV silicone rubber/ vacuum casting Resins tooling Composites tooling Table
Karapatis: Direct Rapid Tooling: a review of current research, Rapid Prototyping Journal, Vol.4, nº2 (1998), pp. 77-89 [3] J.
T., Dimov, S. and Lacan, F.: Firm Tooling, Bridging the Gap Between Hard and Soft Tooling, Prototyping Technology International 98 (1998), pp. 196-203
The tools for plaster, refractory materials and ceramic moulds that are able to produce metal parts and tools are not included in this definition.
Direct RT Technologies No polymer coated (DMLS/EOS) Metal Selective Laser Sintering Polymer coated (SLS / DTM) Laser Generation (LENS, DMD) Metal 3D Printing (ProMetal) Metal tools Steel laminated cavities (LLCC, Stratoconception) Photopolymers Curing (Direct AIM/SL) Polymer Selective Laser Sintering (SLS) Polymer and composites tools Fused Material Deposition (FDM) Indirect RT Technologies Block Metal powders mixtures Sintering (3D Keltool, Dynamic Tooling, Ecotool, RPBPS) Metal Spraying (RSP, Sprayform) Metal tools without casting Shell Electroforming (Express Tool, CEMCOM) Direct conversion Investment casting, Lost foam Indirect conversion Plaster and Ceramics Casting 3D Printing ceramics (DSPC /Soligen) Metal tools cast in refractory material moulds Croning Sand Selective Laser Sintering (DCP/EOS) Polymer and composites tools RTV silicone rubber/ vacuum casting Resins tooling Composites tooling Table
Karapatis: Direct Rapid Tooling: a review of current research, Rapid Prototyping Journal, Vol.4, nº2 (1998), pp. 77-89 [3] J.
T., Dimov, S. and Lacan, F.: Firm Tooling, Bridging the Gap Between Hard and Soft Tooling, Prototyping Technology International 98 (1998), pp. 196-203
Online since: August 2017
Authors: S. Arumugam, A. Jacquiline Regina Mary
References
[1] Z.Yamlahi Alami, M.Salem, M.Gaidi, J.Elkhamkhami, Advanced Energy: An International Journal, 2 (2015) 4
[2] Said Benramache, Foued Chabane, Djamel Bensahal, Okba Bensahal, Fatima Z Lemmadi, Journal of Science and Engineering, 2(2) (2013) 97-104
[3] Atheer Ibraheem Abd Ali, International Journal of Scientific and Engineering Research, Volume 6(1) (2014)
[14] Ans Farooq and Muhammad Kamran, International Journal of Applied Physics and Mathematics,2 (6) 2012
[17] Mazabalo Baneto, Alexandru Eneseca, Yendoube Lare, Kofi Jodeo, Kossi Napo, Ceramics International, 40 (2014) 8397-8404
[2] Said Benramache, Foued Chabane, Djamel Bensahal, Okba Bensahal, Fatima Z Lemmadi, Journal of Science and Engineering, 2(2) (2013) 97-104
[3] Atheer Ibraheem Abd Ali, International Journal of Scientific and Engineering Research, Volume 6(1) (2014)
[14] Ans Farooq and Muhammad Kamran, International Journal of Applied Physics and Mathematics,2 (6) 2012
[17] Mazabalo Baneto, Alexandru Eneseca, Yendoube Lare, Kofi Jodeo, Kossi Napo, Ceramics International, 40 (2014) 8397-8404
Online since: July 2014
Authors: Ramanathan Thirumalai, T. Vinodh, A.L. Kowshik Kumar, M. Kishore Kumar, S. Srinivas
Kowshik Kumar4,d M.Kishore Kumar5,e
1Professor, Department of Mechanical Engineering, SNS College of Technology, Coimbatore, India.
2,3,4,5Student, Department of Mechanical Engineering, SNS College of Technology, Coimbatore, India
a*vkrthirumalai@gmail.com b,c,d,ejournalpaper@rediffmail.com
Key Words: Machining; Surface roughness; Flank Wear; Taguchi method.
Hasan, Analyses of roughness, forces and wear in turning gray cast iron, Journal of achievement in Materials and Manufacturing Engineering, 17, 2006
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 227.9, pp. 1889-1897(2013) [5] T.
Noorul Hag, Analysis of tool wear and surface finish in hard turning, International Journal of Advanced Manufacturing Technology (2005), DOI 10/1007 /s 00170-004-2411-1
Sustarsic, The use of the Taguchi approach ro determine the influence of injection –moldingparameters on the properties of green parts, Journal of achievement in Materials and Manufacturing Engineering,15, 2006
Hasan, Analyses of roughness, forces and wear in turning gray cast iron, Journal of achievement in Materials and Manufacturing Engineering, 17, 2006
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 227.9, pp. 1889-1897(2013) [5] T.
Noorul Hag, Analysis of tool wear and surface finish in hard turning, International Journal of Advanced Manufacturing Technology (2005), DOI 10/1007 /s 00170-004-2411-1
Sustarsic, The use of the Taguchi approach ro determine the influence of injection –moldingparameters on the properties of green parts, Journal of achievement in Materials and Manufacturing Engineering,15, 2006
Online since: September 2019
Authors: Sergey E. Aleksandrov, Dmitry A. Gerashchenkov, Elena Yu. Gerashchenkova, A.N. Belyakov, M.A. Markov, A.M. Makarov, A.D. Bykova
This expands the operational capabilities of machine and power engineering parts.
Currently, structural ceramics or intermetallic compounds are using as heat-resistant and wear-resistant materials.
A monolithic ceramic product is based on hot pressing a mixture of ceramic powders [1, 2].
International Journal of Bioprinting. 2_2016_187-193 [12] G.
Ordanyan, Synthesis of wear-resistant ceramic coatings on steel materials with the complex use of the methods of supersonic heterophase transfer and microarc oxidation, Refractories and technical ceramics, 10_2016_30-35.
Currently, structural ceramics or intermetallic compounds are using as heat-resistant and wear-resistant materials.
A monolithic ceramic product is based on hot pressing a mixture of ceramic powders [1, 2].
International Journal of Bioprinting. 2_2016_187-193 [12] G.
Ordanyan, Synthesis of wear-resistant ceramic coatings on steel materials with the complex use of the methods of supersonic heterophase transfer and microarc oxidation, Refractories and technical ceramics, 10_2016_30-35.
Online since: June 2013
Authors: Fei Wang, Lei Feng, Meng Ran Tang, Ji Yuan Li, Qing Guo Tang
Cheeseman: Minerals Engineering, Vol. 21(2008), p. 252
[7] G.
Zhao: Chemical Engineering Journal, Vol. 171(2011), p.1132 [21] Q.
Petrovic: Chemical Engineering Journal, Vol. 166(2011), p. 198 [27] E.
Qin: Chemical Engineering Journal, Vol. 174(2011), p. 436 [30] A.
Koshiyama: Ceramics International, Vol. 38(2012), p. 4677 [33] M.
Zhao: Chemical Engineering Journal, Vol. 171(2011), p.1132 [21] Q.
Petrovic: Chemical Engineering Journal, Vol. 166(2011), p. 198 [27] E.
Qin: Chemical Engineering Journal, Vol. 174(2011), p. 436 [30] A.
Koshiyama: Ceramics International, Vol. 38(2012), p. 4677 [33] M.
Online since: August 2019
Authors: Aris Doyan, Susilawati Susilawati, Ahmad Harjono, Syifa Azzahra, Muhammad Taufik
Basyoni and Hany Handy, Morphological and Structural Properties of Spin Coated Tin Oxide Thin films, International Journal of Engineering and Advanced Research Technology (IJEART) 79 (2015) 11-14
Journal 33 (2015) 141-151
[12] Lin, Y., Synergistically improved formal dehyde gas sensing properties of SnO2 microspheres by indium and palladium co-doping, Ceramic International. 41 (2015) 7329 – 7336
A., Investigation of The Properties of Sb doping on tin oxide SnO2 Materials for Technological Applications, Materials Science and Engineering. 123 (2016) 1-4
[19] Widodo, S., Sol Gel Technology in the Manufacture of Metal Oxide Nano Grain for Gas Sensor Applications, Chemical and Process Engineering, Bandung: PPET-LIPI. (2010).
Journal 33 (2015) 141-151
[12] Lin, Y., Synergistically improved formal dehyde gas sensing properties of SnO2 microspheres by indium and palladium co-doping, Ceramic International. 41 (2015) 7329 – 7336
A., Investigation of The Properties of Sb doping on tin oxide SnO2 Materials for Technological Applications, Materials Science and Engineering. 123 (2016) 1-4
[19] Widodo, S., Sol Gel Technology in the Manufacture of Metal Oxide Nano Grain for Gas Sensor Applications, Chemical and Process Engineering, Bandung: PPET-LIPI. (2010).
Online since: October 2010
Authors: Tuo Sheng Jia, Cui Rong Liu, Qing Sen Meng
Shear Stress and Deformation Analysis of Static Bonded Multi-layer of
Pyrex7740 Glass and Aluminum
Cuirong Liu 1, a, Tuosheng Jia 2,b and Qingsen Meng 3,c
1
Materials Science & Engineering Department, Taiyuan University of Science and Technology ,
Taiyuan, 030024, China
2
Materials Science & Engineering Department, Taiyuan University of Science and Technology ,
Taiyuan, 030024, China
3
Materials Science & Engineering Department, Taiyuan University of Technology , Taiyuan, 030024,
China
a
lcr@tyust.edu.cn, bjiatuosheng@tom.com, cmengqingsen@263.net
Keywords: Static bonding, Aluminum, Pyrex glass, Finite element, Shear stress
Abstract.
The bonding process of solid electrolyte glass (ceramics) and metals is divided into three stages: interface polarization and electrostatic adsorption stage, the ion transferring and anodic oxidation stage, oxide solid phase diffusing or union and transition layer formation stage.
Lu et al: International Journal of Nonlinear Sciences and Numerical Simulation, Vol. 9(2008) No.4, p. 347
Munir: Journal of Materials Science, Vol. 21(2008) No.2, p. 42
[4] Qingsen Meng, Cuirong Liu, Lifang Hu and Yude Li: 2007 First International Conference on Integration and Commercialization of Micro and Nanosystems (Sanya, China, January 10-13, 2007).
The bonding process of solid electrolyte glass (ceramics) and metals is divided into three stages: interface polarization and electrostatic adsorption stage, the ion transferring and anodic oxidation stage, oxide solid phase diffusing or union and transition layer formation stage.
Lu et al: International Journal of Nonlinear Sciences and Numerical Simulation, Vol. 9(2008) No.4, p. 347
Munir: Journal of Materials Science, Vol. 21(2008) No.2, p. 42
[4] Qingsen Meng, Cuirong Liu, Lifang Hu and Yude Li: 2007 First International Conference on Integration and Commercialization of Micro and Nanosystems (Sanya, China, January 10-13, 2007).
Online since: February 2015
Authors: Zawati Harun, Nurafiqah Rosman
Effects of Hydrothermal Parameters on Synthesized Zeolite Rice Husk Particles
NURAFIQAH Rosmana and ZAWATI Harunb *
Advanced Material and Manufacturing Centre, Faculty of Mechanical Engineering, Universiti Tun Hussein Onn Malaysia, Batu Pahat 86400,Johor,Malaysia
aafiqahrosman@gmail.com, bzawati@uthm.edu.my
Keywords: Rice husk ash, NaY zeolite, hydrothermal.
Properties and Industrial Applications of Rice husk: A review, International Journal of Emerging Technology and Advanced Engineering. 2 (10) (2012) [3] X.
One-pot synthesis of NaA and NaP zeolite powders using agro-waste material and other low cost organic-free precursors, Ceramics International. 40 (2014) 1229–1234
In-situ Synthesis of NaY Zeolite with Coal-Based Kaolin, Journal of Natural Gas Chemistry 12 (2003) 63-70
Series: Materials Science and Engineering 17 (2011) 012030
Properties and Industrial Applications of Rice husk: A review, International Journal of Emerging Technology and Advanced Engineering. 2 (10) (2012) [3] X.
One-pot synthesis of NaA and NaP zeolite powders using agro-waste material and other low cost organic-free precursors, Ceramics International. 40 (2014) 1229–1234
In-situ Synthesis of NaY Zeolite with Coal-Based Kaolin, Journal of Natural Gas Chemistry 12 (2003) 63-70
Series: Materials Science and Engineering 17 (2011) 012030
Online since: August 2011
Authors: Qi Lin Mei, Zhi Xiong Huang, Yan Qin, Min Xian Shi, Zhuo Chen, Ming Zhang
Effect of glass microballoons size on compressive strength of syntactic foams
Zhuo Chen1, a,Zhixiong Huang1, b, Yan Qin1, c, Minxian Shi1,d, Qilin Mei1,e, Ming Zhang1,f
1School of Material Science and Engineering, Wuhan University of Technology, China
Luoshi Road, Wuhan 430070, P.R.China
achenzhuo521@yahoo.com.cn, bzhixiongh@whut.edu.cn, cqinrock@sina.com
dminxianshi@whut.edu.cn, efmeiql@263.net, fmz12095@126.com
Key words composite, compressive strength, particle size, syntactic foam, glass microballoons
Abstract
In this work, syntactic foams made of microballoons having same wall thickness ratio but with different particle size was prepared.
The hollow particles can be microballoons of ceramic [1], metals [2], polymers [3, 4, 5], carbons [6] and so on.
Journal of Wuhan University of Technology-Mater.
Egidio Rizzi, Enrico Papa, Alberto Corigliano: International Journal of Solids and Structures ,2000,37:5773-5794 [9].
Lorenzo Bardella, Francesco Genna International Journal of Solids and Structures 2001,38 : 307-333 [14].
The hollow particles can be microballoons of ceramic [1], metals [2], polymers [3, 4, 5], carbons [6] and so on.
Journal of Wuhan University of Technology-Mater.
Egidio Rizzi, Enrico Papa, Alberto Corigliano: International Journal of Solids and Structures ,2000,37:5773-5794 [9].
Lorenzo Bardella, Francesco Genna International Journal of Solids and Structures 2001,38 : 307-333 [14].