Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2015
Authors: Nicolae Balc, Alexandru Carean, Alexandru Popan, Alina Luca, Alin Miron
Guo, The cutting performance in multipass abrasive water jet machining of industrial ceramics, Journal of Material Processing Technology 133 (2003) 371–377
[5] A.
Technique for spatial objects shaping with abrasive water jet controlled by virtual image luminance, The Archive of Mechanical Engineering VOL.
Minimisation ok kerf tapers in abrasive waterjet machining of alumina ceramics using a compensation technigue, , Journal of Materials Processing Technology 112 (2008) 125-557 [12] G.
Kosik, Effect of reducing on the mechanical properties of cold drawn tubes, 9th International DAAAM Baltic Conference , Industrial engineering , ISBN 978-9949-23-620-6 (2014) 55-57 [15] N.
Popan, Research on water jet milling strategies, Academic Journal of Manufacturing Engineering, AJME, Vol.
Technique for spatial objects shaping with abrasive water jet controlled by virtual image luminance, The Archive of Mechanical Engineering VOL.
Minimisation ok kerf tapers in abrasive waterjet machining of alumina ceramics using a compensation technigue, , Journal of Materials Processing Technology 112 (2008) 125-557 [12] G.
Kosik, Effect of reducing on the mechanical properties of cold drawn tubes, 9th International DAAAM Baltic Conference , Industrial engineering , ISBN 978-9949-23-620-6 (2014) 55-57 [15] N.
Popan, Research on water jet milling strategies, Academic Journal of Manufacturing Engineering, AJME, Vol.
Online since: August 2012
Authors: Yao Ning Sun, Qing Yu, Xu Dong Zhang, Wen Lei Sun
Microstructures and properties of Ti Matrix Composite Coatings with ex/in situ TiC reinforced
Qing Yu1, Yaoning Sun1,2, a, Wenlei Sun1 and Xudong Zhang3
1School of Mechanical Engineering Xinjiang University Urumqi Xinjiang, 830008 China
2Mobile post-doctoral center of Mechanical Engineering Xinjiang University Urumqi Xinjiang,
830008 China
3Design institute of Xinjiang Military Area Command Urumqi Xinjiang, 830042 China
asunyaoning2004@126.com
Keywords: Laser surface alloying, Titanium carbide, TiC-Ti composite, Microstructure.
Various ceramic alloy systems, such as SiC/Co-Cr-W, WC/Ni-Cr-Si-B and TiC(TiN, TiB)/Ni-based alloys, coated on traditional substrate materials had been studied.
Vilar: The international journal of powder metallurgy Vol. 37 (2001) No.2, p.31-48 [6] U.
Ritter: Surface Engineering, March Vol. 8 (1992) No.2, p.272-275 [7] S.C.
Ruuskanen: Journal of Materials Synthesis and Processing Vol.7 (1999), p.253 [9] Y.
Various ceramic alloy systems, such as SiC/Co-Cr-W, WC/Ni-Cr-Si-B and TiC(TiN, TiB)/Ni-based alloys, coated on traditional substrate materials had been studied.
Vilar: The international journal of powder metallurgy Vol. 37 (2001) No.2, p.31-48 [6] U.
Ritter: Surface Engineering, March Vol. 8 (1992) No.2, p.272-275 [7] S.C.
Ruuskanen: Journal of Materials Synthesis and Processing Vol.7 (1999), p.253 [9] Y.
Online since: August 2018
Authors: S. Nallusamy, R. Suganthini Rekha, S. Saravanan
Harinath Gowd et al., (2012), “Static analysis of leaf spring”, International Journal of Engineering Science and Technology, Vol.4(8), pp. 3794-3803
[5] S.
Journal of Mechanical Engineering and Technology, Vol. 6(12), pp. 36-59 [12] S.
Mahakalkar, (2013), “Stress analysis of a mono-parabolic leaf spring-a review”, International Journal of Modern Engineering Research, Vol. 3(2), pp. 769-772 [25] A.P.
Journal of Engineering Research in Africa, Vol. 27, pp. 158-166 [33] Makarand B.
Nallusamy et al., (2015), “Analysis of static stress in an alloy wheel of the passenger car”, International Journal of Engineering Research in Africa, Vol. 16, pp. 17-25 [40] Achamyeleh et al., (2014), “Design of single composite leaf spring for light weight vehicle”, International Journal of Mechanical Engineering and Robotics Research, Vol. 3(1), pp. 191-197
Journal of Mechanical Engineering and Technology, Vol. 6(12), pp. 36-59 [12] S.
Mahakalkar, (2013), “Stress analysis of a mono-parabolic leaf spring-a review”, International Journal of Modern Engineering Research, Vol. 3(2), pp. 769-772 [25] A.P.
Journal of Engineering Research in Africa, Vol. 27, pp. 158-166 [33] Makarand B.
Nallusamy et al., (2015), “Analysis of static stress in an alloy wheel of the passenger car”, International Journal of Engineering Research in Africa, Vol. 16, pp. 17-25 [40] Achamyeleh et al., (2014), “Design of single composite leaf spring for light weight vehicle”, International Journal of Mechanical Engineering and Robotics Research, Vol. 3(1), pp. 191-197
Online since: November 2024
Authors: Mithun Kumar, P. Sudhakar Rao
International Journal of Precision Engineering and Manufacturing - Green Technology (2023) 1-14
International Research Journal of Engineering and Technology
International Research Journal of Engineering and Technology
Engineering Science and Technology, an International Journal, 19(2), 857–865
International Journal of Precision Engineering and Manufacturing, 15(4), 593–600
International Research Journal of Engineering and Technology
International Research Journal of Engineering and Technology
Engineering Science and Technology, an International Journal, 19(2), 857–865
International Journal of Precision Engineering and Manufacturing, 15(4), 593–600
Online since: January 2018
Authors: Hichem Salah, Bel Abbès Bachir Bouiadjra, S.M. Fekih, Mohamed Mokhtar Bouziane, Smail Benbarek
Medical & Biological Engineering & Computing, 45(12), 1229–1235. (2007)
[2] F.
Medical & Biological Engineering &Computing, 44(8), 643–651. (2006) [3] B.
Medical Engineering & Physics, 31: 930–936. (2009) [8] T.
Advances in Engineering Software, 37:477–483. (2006) [10] J.
International Journal of Medical Sciences, 6(5): 280-286. (2009) [19] M.
Medical & Biological Engineering &Computing, 44(8), 643–651. (2006) [3] B.
Medical Engineering & Physics, 31: 930–936. (2009) [8] T.
Advances in Engineering Software, 37:477–483. (2006) [10] J.
International Journal of Medical Sciences, 6(5): 280-286. (2009) [19] M.
Online since: September 2014
Authors: Wei Feng Li, Xiao Dong Shen, Su Hua Ma
Recent Progress on the Application of BASE in energy storage and environmental protection
Weifeng Li 1, a, Suhua Ma 1,b and Xiaodong Shen1,2,c
1College of Material Science and Engineering, Nanjing University of Technology, Nanjing,China
2State Key Laboratory of Materials-Oriented Chemical Engineering, Nanjing,China
alee@njtech.edu.cn, byc982@163.com, cxdshen@njtech.edu.cn
Keywords: Energy storage, BASE, AMTEC, NEMCA, Na Based Batteries
Abstract: Beta-alumina solid electrolyte (BASE) is a fast ion conductor material which shows high conductivity of sodium ions and low electronic conductivity.
Acknowledgment This work was supported by the National Natural Science Foundation of China (NO. 51202109), the National Basic Research Program of China (NO. 2009CB623101), the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD),and the Program for Chang-jiang Scholars and Innovative Research Team in University(No.IRT1146) References [1] K.M.Lee, S.T.Lee, D.H.Lee,et al:Journal of Industrial and Engineering Chemistry,Vol.19 (2013):829-834 [2] K.B.Hueso,A.Michel, R.Teófilo: Energy and Environmental Science,Vol.6( 2013):734-749
Yao, J.T.Kummer:Journal of Inorganic and Nuclear Chemistry, Vol.29(1967):2453-2475
[4] Poullikkas, Andreas:Renewable and Sustainable Energy Reviews,Vol.27,(2013): 778-788 [5] T.Oshima, M.Kajita,A.Okuno:International Journal of Applied Ceramic Technology,Vol.1 (2004): 269-276 [6] Z.Y.Wen,Y.Y.Hu , X.W.Wu,et al:Advanced Functional Materials,Vol.23(2013):1005-1018 [7] X.C.Lu,L.P.John,S.Vincent,et al:JOM, Vol.62(2010):31-36 [8] C.H.Dustmann: Journal of Power Sources, Vol.127(2004):85-92 [9] M.A.KLodhi, A.Daloglu:Journal of Power Sources,Vol.93(2001):32-40 [10] O.A.
Vayenas,et al:Journal of Catalysis,Vol.166(1997):218-228
Acknowledgment This work was supported by the National Natural Science Foundation of China (NO. 51202109), the National Basic Research Program of China (NO. 2009CB623101), the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD),and the Program for Chang-jiang Scholars and Innovative Research Team in University(No.IRT1146) References [1] K.M.Lee, S.T.Lee, D.H.Lee,et al:Journal of Industrial and Engineering Chemistry,Vol.19 (2013):829-834 [2] K.B.Hueso,A.Michel, R.Teófilo: Energy and Environmental Science,Vol.6( 2013):734-749
Yao, J.T.Kummer:Journal of Inorganic and Nuclear Chemistry, Vol.29(1967):2453-2475
[4] Poullikkas, Andreas:Renewable and Sustainable Energy Reviews,Vol.27,(2013): 778-788 [5] T.Oshima, M.Kajita,A.Okuno:International Journal of Applied Ceramic Technology,Vol.1 (2004): 269-276 [6] Z.Y.Wen,Y.Y.Hu , X.W.Wu,et al:Advanced Functional Materials,Vol.23(2013):1005-1018 [7] X.C.Lu,L.P.John,S.Vincent,et al:JOM, Vol.62(2010):31-36 [8] C.H.Dustmann: Journal of Power Sources, Vol.127(2004):85-92 [9] M.A.KLodhi, A.Daloglu:Journal of Power Sources,Vol.93(2001):32-40 [10] O.A.
Vayenas,et al:Journal of Catalysis,Vol.166(1997):218-228
Online since: August 2011
Authors: H.R. Baharvandi, M. Tajdari, Ali Reza Nezamabadi
Variety of materials including metals and ceramics has been used.
Therefore, ceramic materials are of more interest for this purpose [1 – 3, 12].
Schwetz, “Mechanical Properties of Injection Molded B4C- C Ceramics”, Journal of Solid State Chemistry, Vol. 133 (1997), p. 66-76 [9] Ke- feng Cai, Ce- Wen Nan, “The Influence of W2B5 Addition on Microstructure and Thermoelectric Properties of B4C Ceramic”, Ceramics International , Vol.26 (2000), p. 523 527 [10] S.
Bellosi, “Production and Characteristics of B4C/TiB2 Composites”, Key Engineering Materials, Vol 104-107 (1995), p. 125-132 [13] V.V.
Ihara, “ Preparation of TiB2- B4C Composites by Pressure Sintering”, Journal of Alloys and compounds , 232 (1996), p. 186-191 [16] S.
Therefore, ceramic materials are of more interest for this purpose [1 – 3, 12].
Schwetz, “Mechanical Properties of Injection Molded B4C- C Ceramics”, Journal of Solid State Chemistry, Vol. 133 (1997), p. 66-76 [9] Ke- feng Cai, Ce- Wen Nan, “The Influence of W2B5 Addition on Microstructure and Thermoelectric Properties of B4C Ceramic”, Ceramics International , Vol.26 (2000), p. 523 527 [10] S.
Bellosi, “Production and Characteristics of B4C/TiB2 Composites”, Key Engineering Materials, Vol 104-107 (1995), p. 125-132 [13] V.V.
Ihara, “ Preparation of TiB2- B4C Composites by Pressure Sintering”, Journal of Alloys and compounds , 232 (1996), p. 186-191 [16] S.
Online since: April 2013
Authors: Hong Wen Ma, Jing Yang, Zhou Qing Jiang, Le Wang
Mansouri: Colloides and Surfaces A: Physicochemical and Engineering Aspects Vol. 369 (2010), p. 272
[6] H.C.
Zhao: Chemical Industry and Engineering Vol. 5 (2002), p. 331 (in Chinese) [13] F.
Abdullah: Ceramics International Vol. 36 (2010), p. 1253 [14] V.
Kyun: Microporous and Mesoporous Materials Vol. 128 (2010), p. 85 [22] K.Ferhat, S.Gulcan: Journal of the European Ceramic Society Vol. 20 (2000), p. 689 [23] J.
Sharma, V V Varadan and V K Varadan: Journal of European Ceramic Society Vol. 23 (2003), p. 659
Zhao: Chemical Industry and Engineering Vol. 5 (2002), p. 331 (in Chinese) [13] F.
Abdullah: Ceramics International Vol. 36 (2010), p. 1253 [14] V.
Kyun: Microporous and Mesoporous Materials Vol. 128 (2010), p. 85 [22] K.Ferhat, S.Gulcan: Journal of the European Ceramic Society Vol. 20 (2000), p. 689 [23] J.
Sharma, V V Varadan and V K Varadan: Journal of European Ceramic Society Vol. 23 (2003), p. 659
Online since: August 2016
Authors: Aldo Roberto Boccaccini, Qiang Chen, Cristina M. Arévalo, Carlos Romero, Gonzalo Pérez, Laura Álvarez, Yadir Torres, José Antonio Rodríguez-Ortiz, Juan José Pavón
Hench, Bioceramics: From Concept to Clinic, Journal of the American Ceramic Society 74 (1991) 1487–1510
[23] ASTM C1624-05(2015), Standard Test Method for Adhesion Strength and Mechanical Failure Modes of Ceramic Coatings by Quantitative Single Point Scratch Testing, (2015) ASTM International
Torres, Electrophoretic Deposition and Characterization of Chitosan/45S5 Bioactive Glass Composite Coatings on Porous Titanium for Biomedical Applications, Key Engineering Materials 654 (2015) 189-194
ASM International, 1993
Tomsia, Bioactive glass coatings for orthopedic metallic implants, Journal of the European Ceramic Society 23 (2003) 2921–2930
[23] ASTM C1624-05(2015), Standard Test Method for Adhesion Strength and Mechanical Failure Modes of Ceramic Coatings by Quantitative Single Point Scratch Testing, (2015) ASTM International
Torres, Electrophoretic Deposition and Characterization of Chitosan/45S5 Bioactive Glass Composite Coatings on Porous Titanium for Biomedical Applications, Key Engineering Materials 654 (2015) 189-194
ASM International, 1993
Tomsia, Bioactive glass coatings for orthopedic metallic implants, Journal of the European Ceramic Society 23 (2003) 2921–2930
Online since: December 2008
Authors: W. Hoffelner, Manuel A. Pouchon, Jia Chao Chen
Less
information about the applicability of such tests is available for non-metallic materials like fibre-
reinforced ceramics.
(Eds.), High temperature materials for power engineering, Kluwer Academic, (1990) 1417-1430
Hoffelner, Oxide dispersion strengthened steel irradiation with helium ions, Journal of Nuclear Materials 352 (1-3) (2006) 57-61
Hoffelner, Irradiation creep and precipitation in a ferritic ods steel under helium implantation, Journal of Nuclear Materials 373 (1-3) (2008), 22-27
Victoria,Assessment of the constitutive properties from small ball punch test: experiment and modeling, Journal of Nuclear Materials, 335 (3) 1 (2004) 366-378
(Eds.), High temperature materials for power engineering, Kluwer Academic, (1990) 1417-1430
Hoffelner, Oxide dispersion strengthened steel irradiation with helium ions, Journal of Nuclear Materials 352 (1-3) (2006) 57-61
Hoffelner, Irradiation creep and precipitation in a ferritic ods steel under helium implantation, Journal of Nuclear Materials 373 (1-3) (2008), 22-27
Victoria,Assessment of the constitutive properties from small ball punch test: experiment and modeling, Journal of Nuclear Materials, 335 (3) 1 (2004) 366-378