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Online since: December 2010
Authors: Wei Wang, Guang Yang, Lan Yun Qin, Ming Tong, Xing Liang Wang
Application of Laser metal deposition for fabrication of titanium matrix wear-resistant coating and its wearing performance
Lanyun Qin1,2,a Guang Yang1,3,b Wei Wang1,c Ming Tong1,d XingLiang Wang1,e
1Shenyang Aerospace University, Shenyang, 110134, China
2Shenyang University of Technology, Shenyang, 110016, China
3 Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang, 110016, China
aqinly@syiae.edu.cn, byangguang@sia.cn, cwangw@syiae.edu.cn, d,erpm@syiae.edu.cn
Keywords: TiC, Laser Metal Deposition, Functionally Graded Materials, Wear-resistant, In-situ synthesis
Abstract: TiC reinforced titanium matrix functionally graded materials (FGM) has been produced by processes of laser metal deposition through changing the powder feed rate of Ti and Cr3C2 powder.
Dry sliding wear properties of these FGM coatings have been compared with substrate materials wearing.
Laser Metal Deposition (LMD) is an advanced laser materials processing technique, which is wildly used in manufacturing, part reparation, surface modification.
Kampe: Metallurgical and Materials Transactions Vol. 35(2004) p.1861-1871 [7]Zhang Duo, Yang Yuling, Shang Ye:Laser & Infrared, Vol.35(2008) p.762-765 [8]F.J.Tian,W.J.Liu,X.F.Shang,G.Yang: Key Engineering Materials Vols.392-394(2009)p.125-130 [9]S.Zhang W.T.
[12] Zhang Song, Zhang Chunhua, Kang Yuping:The Chinese Journal of Nonferrous Metals,,Vol.11(2001) p.1026~1030 [13]Liu Lu-lu,Sun Rong-lu,Niu Wei:Journal of TianJin Polytechnic University,,Vol.26(2007)P.60-62
Dry sliding wear properties of these FGM coatings have been compared with substrate materials wearing.
Laser Metal Deposition (LMD) is an advanced laser materials processing technique, which is wildly used in manufacturing, part reparation, surface modification.
Kampe: Metallurgical and Materials Transactions Vol. 35(2004) p.1861-1871 [7]Zhang Duo, Yang Yuling, Shang Ye:Laser & Infrared, Vol.35(2008) p.762-765 [8]F.J.Tian,W.J.Liu,X.F.Shang,G.Yang: Key Engineering Materials Vols.392-394(2009)p.125-130 [9]S.Zhang W.T.
[12] Zhang Song, Zhang Chunhua, Kang Yuping:The Chinese Journal of Nonferrous Metals,,Vol.11(2001) p.1026~1030 [13]Liu Lu-lu,Sun Rong-lu,Niu Wei:Journal of TianJin Polytechnic University,,Vol.26(2007)P.60-62
Online since: May 2025
Authors: Angelo Andrei Midan, Sorin Vasile Savu
It can be minimized by using proper welding techniques and materials.
9.
This type of deformation can be minimized by using proper welding techniques and materials. 10.
FEA can also take into account the effects of a wide range of factors, such as welding parameters, the geometry of the welded structure and the properties of the materials used.
Once the model is created, the next step is to specify the welding parameters and the properties of the materials used.
[3] Curiel D., Veiga F., Suarez A., Villanueva P., „Advances in Robotic Welding for Metallic Materials: Application of Inspection, Modeling, Monitoring and Automation Techniques”, Journal of Metals, 2023 [4] Fu G., Lourenco M.I., Menglan D., Estefan S.F., „Influence of the welding sequence on residual stress and distortion of fillet welded structures”, Journal of Marine Structures, 2016 [5] Ines S.A., Manuel R.M., Joao E.R., „Effect of Welding Sequence in Angular Distortion on Butt Joint GMAW Process”, Journal of Applied Sciences, 2022 [6] K.
This type of deformation can be minimized by using proper welding techniques and materials. 10.
FEA can also take into account the effects of a wide range of factors, such as welding parameters, the geometry of the welded structure and the properties of the materials used.
Once the model is created, the next step is to specify the welding parameters and the properties of the materials used.
[3] Curiel D., Veiga F., Suarez A., Villanueva P., „Advances in Robotic Welding for Metallic Materials: Application of Inspection, Modeling, Monitoring and Automation Techniques”, Journal of Metals, 2023 [4] Fu G., Lourenco M.I., Menglan D., Estefan S.F., „Influence of the welding sequence on residual stress and distortion of fillet welded structures”, Journal of Marine Structures, 2016 [5] Ines S.A., Manuel R.M., Joao E.R., „Effect of Welding Sequence in Angular Distortion on Butt Joint GMAW Process”, Journal of Applied Sciences, 2022 [6] K.
Mechanical and Structural Characterization of Cu-Ni-Ag/Y2O3 Composites Obtained by Powder Metallurgy
Online since: August 2012
Authors: Juan Alfredo Guevara Carrió, Anderson Kenji Okazaki, Marcos Vinícios Surmani Martins, Marcelo Carvalhal, Waldemar Alfredo Monteiro
Structural and electrical properties of the anode materials determine the long-term performance of fuel cells.
Rekas, Structural and electrical properties of Ni–YSZ cermet materials, Journal of Power Sources 195 (2010) 5527–5533 [2] An introduction to Metal Matrix Composites, T.
Withers, Cambridge solid state science series, Cambridge University Press 1993, ISBN 0-521-41808-9 [3] Materials Science and Engineering A, Volume 277, Issues 1-2, 31 January 2000, Pages 297-304, Microstructure and mechanical properties of magnesium containing high volume fractions of yttria dispersoids, B.
Vasconcelosa and Martin Schmala [8] Journal of Power Sources, Volume 195, Issue 17, 1 September 2010, Pages 5527-5533, Structural and electrical properties of Ni–YSZ cermet materials, K.
Monteiro, Materials Science Forum Vols. 660-661 (2010), pp 35-40
Rekas, Structural and electrical properties of Ni–YSZ cermet materials, Journal of Power Sources 195 (2010) 5527–5533 [2] An introduction to Metal Matrix Composites, T.
Withers, Cambridge solid state science series, Cambridge University Press 1993, ISBN 0-521-41808-9 [3] Materials Science and Engineering A, Volume 277, Issues 1-2, 31 January 2000, Pages 297-304, Microstructure and mechanical properties of magnesium containing high volume fractions of yttria dispersoids, B.
Vasconcelosa and Martin Schmala [8] Journal of Power Sources, Volume 195, Issue 17, 1 September 2010, Pages 5527-5533, Structural and electrical properties of Ni–YSZ cermet materials, K.
Monteiro, Materials Science Forum Vols. 660-661 (2010), pp 35-40
Online since: March 2012
Authors: Min Sun, Shi Feng Huang, Shi Hui Xie, Mei Juan Zhou, Mi Mi Li
AE is also known as stress wave emission, it is a phenomenon that materials or constructional elements release strain energy with transient elastic wave.
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Journal of Vibration Engineering. 20(2007) 381-387
Science in China Series E: Technological Sciences. 52(2009) 2576-2584
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[2] Aizawa S, Kakizawa T, Higasino M: Casestudies of smart materials for civil structures.
Journal of Vibration Engineering. 20(2007) 381-387
Science in China Series E: Technological Sciences. 52(2009) 2576-2584
Journal of Materials Evaluation. 30(1992) 826-854 [12] Geng R S.
Online since: May 2014
Authors: Michael Brückner, Chakkrit Snae Namahoot, Sakesan Sivilai
We also see adults as the members of eHealth focus groups for which we need a learner-centered approach to delivering materials.
Since literally anybody can contribute to the body of literature on medical topics in the Internet, the quality of the materials varies from excellent to very poor.
Selection of the important information in the learning materials. 2.
Conclusion and further work In this paper the authors have outlined design principles for materials used for advancing eHealth literacy of the general population.
Instructional Science, 38 (2010), 503–521
Since literally anybody can contribute to the body of literature on medical topics in the Internet, the quality of the materials varies from excellent to very poor.
Selection of the important information in the learning materials. 2.
Conclusion and further work In this paper the authors have outlined design principles for materials used for advancing eHealth literacy of the general population.
Instructional Science, 38 (2010), 503–521
Online since: June 2011
Authors: Abu Bakar Sulong, Jaafar Sahari, Hendra Suherman
Experimental
Materials.
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[8] Zhao Q, Frogley MD and Wanger HD: Journal Composite Science Technology Vol.61 (2001), p. 2139
K: Journal Composites Science and Technology vol. 64 (2004), p. 2309
Sulung: International Journal of Mechanical and Materials Engineering (IJMME) Vol. 5 (2010), p.74
Online since: May 2013
Authors: Yue Sheng Chao, Ying Jin, An Du
XU: Journal of Magnetism and Magnetic Materials, Vol. 308 (2007) No.2, p.227
Xu: Materials Science and Engineering, Vol. 426 (2006) No.1, p.169
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Huang: Materials Science and Engineering, Vol. 128 (2006) No.1, p.179
Xu: Materials Science and Engineering, Vol. 426 (2006) No.1, p.169
Akhtar: Journal of Magnetism and Magnetic Materials, Vol. 309 (2007) No.2, p.300
Riveiro: Materials Science Forum, Vol. 175-178 (1995) p.299
Huang: Materials Science and Engineering, Vol. 128 (2006) No.1, p.179
Online since: June 2021
Authors: Manish S. Deshmukh, Rajesh T. Shelke, Shailesh S. Pimpale, Dheeraj S. Deshmukh
Liao et al., “Emerging graphitic carbon nitride-based materials for biomedical applications,” Progress in Materials Science, vol. 112, p. 100666, Jul. 2020, doi: 10.1016/j.pmatsci.2020.100666
Egbo, “A fundamental review on composite materials and some of their applications in biomedical engineering,” Journal of King Saud University - Engineering Sciences, Jul. 2020, doi: 10.1016/j.jksues.2020.07.007
Menezes, “Application of Metal Matrix Composites in Engineering Sectors,” in Reference Module in Materials Science and Materials Engineering, 2021
Cai, “Antibacterial surface design of biomedical titanium materials for orthopedic applications,” Journal of Materials Science & Technology, vol. 78, pp. 51–67, Jul. 2021, doi: 10.1016/j.jmst.2020.10.066
J et al., “Wear of surface engineered metal-on-metal hip prostheses,” Journal of materials science.
Egbo, “A fundamental review on composite materials and some of their applications in biomedical engineering,” Journal of King Saud University - Engineering Sciences, Jul. 2020, doi: 10.1016/j.jksues.2020.07.007
Menezes, “Application of Metal Matrix Composites in Engineering Sectors,” in Reference Module in Materials Science and Materials Engineering, 2021
Cai, “Antibacterial surface design of biomedical titanium materials for orthopedic applications,” Journal of Materials Science & Technology, vol. 78, pp. 51–67, Jul. 2021, doi: 10.1016/j.jmst.2020.10.066
J et al., “Wear of surface engineered metal-on-metal hip prostheses,” Journal of materials science.
Online since: July 2012
Authors: Jin Sha, Zhi Yuan Yao, Yang Jiao
Acknowledgements
This work is supported by the National Basic Research Program (973 Program) (2011CB707602) , the Key Program of National Natural Science Foundation of China and the program of National Natual Science Foundation of China (50975136).
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Stanzl-Tschegg: Journal of Materials Processing Technology Vol. 170 (2005), p. 42–49 [3] J.
[4] Reimund Neugebauer, Andrea Stoll: Journal of Materials Processing Technology Vol. 149 (2004), p. 633–639 [5] G.
Rohm: International Dairy Journal Vol.19 (2009), p. 314–320 [6] M.
Andrew: Journal of Materials Processing Technology Vol. 192–193 (2007), p. 159–165 [11] Georg Eggers, Johannes Klein, Julia Blank, Stefan Hassfeld: British Journal of Oral and Maxillofacial Surgery Vol. 42 (2004), p. 451—453 [12] Jongbaeg Kim, Bongwon Jeong, Mu Chiao, and Liwei Lin: IEEE TRANSACTIONS ON ADVANCED PACKAGING Vol.32 (2009), p. 461-467 [13] S.
Online since: July 2011
Authors: Gui Cheng Wang, Yun Ming Zhu, Hai Jun Qu, X.D. Zhu
Materials of workpiece and tool.
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