Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2014
Authors: Guang Yang, Jun Pi, Zi Qian Chen, Fei Ye
Wuhan: wuhan university of science and technology press, 2010, 103-105.
Journal of mechanical engineering materials, 2006, 30(6):87-90.
Journal of mechanical engineering materials, 2004, 28(12):46-48.
Journal of functional materials, 2008, 39(4):690-691.
Research on electroforming superfine crystal materials microstructure [J].
Journal of mechanical engineering materials, 2006, 30(6):87-90.
Journal of mechanical engineering materials, 2004, 28(12):46-48.
Journal of functional materials, 2008, 39(4):690-691.
Research on electroforming superfine crystal materials microstructure [J].
Online since: July 2007
Authors: Wen Bo Han, Guo Qing Chen, Shao Hua Sui, X.D. Wang
Han
3, d
1
Laboratory of Special Processing of Raw Materials, School of Materials Science and Engineering,
Dalian University of Technology, Dalian, 116024, P.R.
China 2 Department of Materials Science and Engineering, Harbin Institute of Technology, Weihai, 264209, P.R.
China 3 School of Materials Science and Engineering, Harbin Institute of Technology, Harbin, 150001, P.R.
Wittenauer: Materials Science Forum, Vol. 243-245 (1997), p. 417-424
Nygren: Journal of the European Ceramic Society, Vol. 24 (2004), p. 3447-3452. [7] G.Q.
China 2 Department of Materials Science and Engineering, Harbin Institute of Technology, Weihai, 264209, P.R.
China 3 School of Materials Science and Engineering, Harbin Institute of Technology, Harbin, 150001, P.R.
Wittenauer: Materials Science Forum, Vol. 243-245 (1997), p. 417-424
Nygren: Journal of the European Ceramic Society, Vol. 24 (2004), p. 3447-3452. [7] G.Q.
Online since: June 2025
Authors: Ming Huwi Horng, Lien Kai Chang, Tsung Wei Chang, Jhih Cheng Huang, De Qian Liu, Mi Ching Tsai
Materials and Methods
The metal powder used in this study is Fe-50Ni (collected from Chung Yo Materials company, Taichung, Taiwan).
*Materials & Design, 231, 112004
Journal of Materials Processing Technology, 271, 152-161
Materials Science and Engineering: A, 843, 143135
International Journal of Engineering and Mathematical Sciences, 1(1), 1-7.
*Materials & Design, 231, 112004
Journal of Materials Processing Technology, 271, 152-161
Materials Science and Engineering: A, 843, 143135
International Journal of Engineering and Mathematical Sciences, 1(1), 1-7.
Online since: September 2013
Authors: Ping Li, Ying Wang
Materials Protection, Vol. 43 (2010), p. 44 (in Chinese)
[2] P.
Applied Mechanics and Materials, Vol. 214 (2012), p. 272 [3] Y.
Advanced Materials Research, Vol. 287-290 (2011), p. 738 [5] Y.
Applied Mechanics and Materials, Vol. 204-208 (2012), p. 3805 [6] Z.L.
Journal of Zhengzhou University (Engineering Science), Vol. 26 (2005), p. 85 (in Chinese) [10]C.
Applied Mechanics and Materials, Vol. 214 (2012), p. 272 [3] Y.
Advanced Materials Research, Vol. 287-290 (2011), p. 738 [5] Y.
Applied Mechanics and Materials, Vol. 204-208 (2012), p. 3805 [6] Z.L.
Journal of Zhengzhou University (Engineering Science), Vol. 26 (2005), p. 85 (in Chinese) [10]C.
Online since: October 2013
Authors: Xian Li Liu, Jing Ma, Cai Xu Yue, Xue Liu, Guang Xu Ren
In hard cutting process, the strong compression of the tool and workpiece makes the workpiece surface very hard and the rake face of the tool and the workpiece material has frictional heat which makes temperature of the tool - the friction surface of the workpiece exceed the phase transition temperature of the workpiece material.
Therefore, the occurrence of surface phase transformation of workpiece material expansion will occur, but will be effected by the layer of scrap gold.
Acknowledgments The authors gratefully acknowledge the support of National Natural Science Foundation of China.This work is supported by NSFC (51105119) and Science and technology Projects of Education Department of Heilongjiang Province(1251098).
Dudzinski: Journal of Materials Processing Technology.
Vol. 211 (2011), p.1590 [2] Jiang Hua, Rajiv Shivpuri, Xiaomin Cheng, Vikram Bedekar, Yoichi Matsumoto, Fukuo .Watkins: Materials Science and Engineering.Vol. 394 (2005), p. 238 [3] Borja Coto,Virginia García Navas,Oscar Gonzalo: The International Journal of Advanced Manufacturing Technology.Vol. 53(2011), p.911 [4] Y.L.
Therefore, the occurrence of surface phase transformation of workpiece material expansion will occur, but will be effected by the layer of scrap gold.
Acknowledgments The authors gratefully acknowledge the support of National Natural Science Foundation of China.This work is supported by NSFC (51105119) and Science and technology Projects of Education Department of Heilongjiang Province(1251098).
Dudzinski: Journal of Materials Processing Technology.
Vol. 211 (2011), p.1590 [2] Jiang Hua, Rajiv Shivpuri, Xiaomin Cheng, Vikram Bedekar, Yoichi Matsumoto, Fukuo .Watkins: Materials Science and Engineering.Vol. 394 (2005), p. 238 [3] Borja Coto,Virginia García Navas,Oscar Gonzalo: The International Journal of Advanced Manufacturing Technology.Vol. 53(2011), p.911 [4] Y.L.
Online since: October 2011
Authors: Vandana Gupta, Satya Bir Singh
Material of disc is orthotropic and incompressible.
2.
Here case 3 is for isotropic material.
Ray, Modeling the anisotropy and creep in orthotropic Al-SiC composite rotating disc, Mechanics of Materials, 34 (2002), 363-372
Gupta et. al., Steady state creep and material parameters in a rotating disc of Al-SiCp composite, European Journal of Mechanics A/Solids, 23 (2004), 335-344 [12] S.
Sciences, Vol. 5 ( 2010) no. 11, 509 – 516.
Here case 3 is for isotropic material.
Ray, Modeling the anisotropy and creep in orthotropic Al-SiC composite rotating disc, Mechanics of Materials, 34 (2002), 363-372
Gupta et. al., Steady state creep and material parameters in a rotating disc of Al-SiCp composite, European Journal of Mechanics A/Solids, 23 (2004), 335-344 [12] S.
Sciences, Vol. 5 ( 2010) no. 11, 509 – 516.
Online since: March 2006
Authors: B.S. Jun, Hwan Kim, Jae Jun Kim, Kyu Hong Hwang, Sung Gap Lee, Jong Kook Lee, Sang Heum Youn, Jeong Bae Yoon, Seog Young Yoon
And
meta kaolines could be adhered to the recycled aggregates with other pozzolanic materials and
could close the open pores of surfaces.
Raw Materials The waste concrete sludge used in this experiment was the locally produced sludge from the recycling aggregates company.
The chemical compositions of raw materials.
Waste concrete sludge was used as cementing materials and the cement mortar specimens were prepared by ASTM C109.
Youn, M.J.Cho, H.T.Shin, J.B.Yoon, K.H.Hwang, and D.S.Lee, Materials Science Forum, 486-487, 305-308 (2005) [4] Y.Kojima, T.Tasue and Y.Arai, Gypsum & Lime, 244, 153 (1993)
Raw Materials The waste concrete sludge used in this experiment was the locally produced sludge from the recycling aggregates company.
The chemical compositions of raw materials.
Waste concrete sludge was used as cementing materials and the cement mortar specimens were prepared by ASTM C109.
Youn, M.J.Cho, H.T.Shin, J.B.Yoon, K.H.Hwang, and D.S.Lee, Materials Science Forum, 486-487, 305-308 (2005) [4] Y.Kojima, T.Tasue and Y.Arai, Gypsum & Lime, 244, 153 (1993)
Online since: November 2011
Authors: Xin Tan, Yu Qing Li, Xue Jie Liu, Yan Hui Xie
Wu, “The deposition and wear properties of cathodic arc plasma deposition TiAIN deposits,” Materials Chemistry and Physics, Volume 46, Issue 1, pp. 77-83 October 1996
Suzuki, “Metastable Ti1-xAlxN films with different Al content” Journal of Materials Science Letters, Vol. 19, pp. 601-602, 2000
Chiou, “Materials informatics for the design of novel coatings,” Surface and Coatings Technology, Vol. 200, pp. 1595-1599, November 21, 2005
Veprek, “Metastable phases and spinodal decomposition in Ti1−xAlxN system studied by ab initio and thermodynamic modeling, a comparison with the TiN–Si3N4 system,” Materials Science and Engineering A, Vol. 448, pp. 111–119, March 2007
Vieira, “Effect of ductile layers in mechanical behaviour of TiAlN thin coatings,” Journal of Materials Processing Technology, Vol. 143-144, pp. 352-357, 20 December 2003
Suzuki, “Metastable Ti1-xAlxN films with different Al content” Journal of Materials Science Letters, Vol. 19, pp. 601-602, 2000
Chiou, “Materials informatics for the design of novel coatings,” Surface and Coatings Technology, Vol. 200, pp. 1595-1599, November 21, 2005
Veprek, “Metastable phases and spinodal decomposition in Ti1−xAlxN system studied by ab initio and thermodynamic modeling, a comparison with the TiN–Si3N4 system,” Materials Science and Engineering A, Vol. 448, pp. 111–119, March 2007
Vieira, “Effect of ductile layers in mechanical behaviour of TiAlN thin coatings,” Journal of Materials Processing Technology, Vol. 143-144, pp. 352-357, 20 December 2003
Online since: March 2006
Authors: Besim Ben-Nissan, R. Roest, Bruno A. Latella, Greg Heness
Materials Division, ANSTO, PMB1, Menai, NSW, 2560, Australia
* g.heness@uts.edu.au
Keywords: Thin Film, Fracture Toughness, Nanoscale, Hydroxyapatite, Sol-gel
Abstract: In the biomedical field, the surface modification of titanium aims to inhibit wear, reduce
corrosion and ion release, and promote biocompatibility.
References 1 Kirk, P.B., Filiaggi, M., Sodhi, R., Pilliar, R., Journal of Biomedical Materials Research (USA), 48(4) (1999), p. 424 2 Chen, Y. and Liu, W., Materials Letters, 55(6) (2002, p. 407 3 Filiaggi, M.J., Pilliar, R.M. and Abdullah, D., Journal of Biomedical Materials Research, 33(4) (1996), p. 239 4 Kirk, P. and Pilliar, R., J.
Sci., 34 (16) (1999), p. 3967 5 Jaffe, W.L. and Scott, D.F., The Journal of Bone and Joint Surgery (American Volume), 78A(12) (1996) p. 1918 6 Brunette, D.M., Titanium in Medicine - Material Science, Surface Science, Engineering, Biological Responses and Medical Applications, (Springer Heidelberg, 2001, p. 1000) 7 Oonishi, H., Bioceramics. in Proceedings of 1st International Bioceramic Symposium. 1988.
(Wiley - Interscience. 1974 p. 801. 12 Critchlow, G.W. and Brewis, D.M., International Journal of Adhesion and Adhesives,. 15(3): (1995) p. 161 13 Arsov, L.D., Electrochimica Acta, 30(12) (1985). p. 1645 14 Aladjem, A., Journal of Materials Science, 8 (1973) p. 688 15 Delplancke, J.L. and Winand, R., Electrochimica Acta, 33 (1988) p. 1539 16 Blondeau, G., Froelicher, M., Froment, M. and.
Davis: ASM. p. 1521 21 Hu, M.S. and Evans, A.G., Acta Metallurgica,. 37(3) (1989). p. 917 22 Ignat, M., Key Engineering Materials, 116-117 (1996). p. 279 23 Beuth, J.L. and Klingbeil, N.W., J.
References 1 Kirk, P.B., Filiaggi, M., Sodhi, R., Pilliar, R., Journal of Biomedical Materials Research (USA), 48(4) (1999), p. 424 2 Chen, Y. and Liu, W., Materials Letters, 55(6) (2002, p. 407 3 Filiaggi, M.J., Pilliar, R.M. and Abdullah, D., Journal of Biomedical Materials Research, 33(4) (1996), p. 239 4 Kirk, P. and Pilliar, R., J.
Sci., 34 (16) (1999), p. 3967 5 Jaffe, W.L. and Scott, D.F., The Journal of Bone and Joint Surgery (American Volume), 78A(12) (1996) p. 1918 6 Brunette, D.M., Titanium in Medicine - Material Science, Surface Science, Engineering, Biological Responses and Medical Applications, (Springer Heidelberg, 2001, p. 1000) 7 Oonishi, H., Bioceramics. in Proceedings of 1st International Bioceramic Symposium. 1988.
(Wiley - Interscience. 1974 p. 801. 12 Critchlow, G.W. and Brewis, D.M., International Journal of Adhesion and Adhesives,. 15(3): (1995) p. 161 13 Arsov, L.D., Electrochimica Acta, 30(12) (1985). p. 1645 14 Aladjem, A., Journal of Materials Science, 8 (1973) p. 688 15 Delplancke, J.L. and Winand, R., Electrochimica Acta, 33 (1988) p. 1539 16 Blondeau, G., Froelicher, M., Froment, M. and.
Davis: ASM. p. 1521 21 Hu, M.S. and Evans, A.G., Acta Metallurgica,. 37(3) (1989). p. 917 22 Ignat, M., Key Engineering Materials, 116-117 (1996). p. 279 23 Beuth, J.L. and Klingbeil, N.W., J.
Online since: May 2011
Authors: Yi Sheng Su, Qi Liang Li, Yi Bin Yang, Xiang Hua Chen
The material is isotropic.
Journal of Guangxi University (Nat Sci Ed), 2003, 28(1):5-9.
Journal of Chongqing University (Natural Science Edition), 2006, 29(4):87-90.
Journal of Guangxi University (Nat Sci Ed), 2006, 31(4):336-339.
Journal of Guangxi University (Nat Sci Ed), 2011, 36(1):72-76.
Journal of Guangxi University (Nat Sci Ed), 2003, 28(1):5-9.
Journal of Chongqing University (Natural Science Edition), 2006, 29(4):87-90.
Journal of Guangxi University (Nat Sci Ed), 2006, 31(4):336-339.
Journal of Guangxi University (Nat Sci Ed), 2011, 36(1):72-76.