Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2012
Authors: Hon Jong Choi, Seok Woo Lee, Yun Hyuck Hong, Kyeong Tae Kim, Kyung Hee Park, Young Jae Choi
Ho11, Ultrasonic Assisted Grinding of Ceramics, Journal of Materials Processing Technology Vol. 62 (1996) p. 287-293
Khamba, Taguchi technique for modeling material removal rate in ultrasonic machining of titanium, Materials Science and Engineering A Vol. 460-461 (2007) p. 365-369
Raslan, A Comparative Study on Ultrasonic Machining of Hard and Brittle Materials, J. of the Braz.
Shorter, Rotary ultrasonic machining of dental ceramics, International Journal of Machining and Machinability of Materials 6 (3-4) (2009) p. 270-284
Pei, Rotary ultrasonic machining of advanced ceramics, Materials Science Forum 532-533 (2006) p. 361-364
Khamba, Taguchi technique for modeling material removal rate in ultrasonic machining of titanium, Materials Science and Engineering A Vol. 460-461 (2007) p. 365-369
Raslan, A Comparative Study on Ultrasonic Machining of Hard and Brittle Materials, J. of the Braz.
Shorter, Rotary ultrasonic machining of dental ceramics, International Journal of Machining and Machinability of Materials 6 (3-4) (2009) p. 270-284
Pei, Rotary ultrasonic machining of advanced ceramics, Materials Science Forum 532-533 (2006) p. 361-364
Online since: November 2011
Authors: Teruo Asaoka, T. Fujii
Observations and analysis made using a scanning electron microscope (SEM), energy dispersive X-ray spectrometry (EDS), and X-ray diffraction (XRD) allowed us to fabricate materials suitable for our purposes.
Porous materials that are bioactive are preferable from the perspective of bonding quickly and strongly with living bone.
The fact that cracks appeared not at the boundary between the dense and porous materials, but rather in the dense material itself, indicates that the strength of this part of the spacer was inadequate.
In the future, compounds of materials such as zirconia and alumina need to be considered. 4-2.
:Journal of the Ceramic Society of Japan 110, [8],(2002),p710-715
Porous materials that are bioactive are preferable from the perspective of bonding quickly and strongly with living bone.
The fact that cracks appeared not at the boundary between the dense and porous materials, but rather in the dense material itself, indicates that the strength of this part of the spacer was inadequate.
In the future, compounds of materials such as zirconia and alumina need to be considered. 4-2.
:Journal of the Ceramic Society of Japan 110, [8],(2002),p710-715
Online since: January 2013
Authors: Guang Lin Shi, Wu Bin Xu, You Ping Sun, De Jian Zhou, Wei Li
Fabrication of the composite materials is focused on obtaining materials with improved properties compared to the matrix material.
Drilling studies of an Al2O3-Al metal matrix composite, Journal of Materials Science, 1995, 30(24): 6273-6280
Structure properties and corrosion resistance of PM composite materials based on EN AW-2124 aluminium alloy reinforced with the Al2O3 ceramic principles, Journal of Materials Processing Technology, 2005, 162–165 (5): 27–33
The structure and properties of PM composite materials based on EN AW-2124 aluminum alloy reinforced with the BN or Al2O3 ceramic particles, Journal of Materials Processing Technology, 2006, 175(1-3): 186-191
Journal of Materials Engineering, 2002, 11: 3-6.
Drilling studies of an Al2O3-Al metal matrix composite, Journal of Materials Science, 1995, 30(24): 6273-6280
Structure properties and corrosion resistance of PM composite materials based on EN AW-2124 aluminium alloy reinforced with the Al2O3 ceramic principles, Journal of Materials Processing Technology, 2005, 162–165 (5): 27–33
The structure and properties of PM composite materials based on EN AW-2124 aluminum alloy reinforced with the BN or Al2O3 ceramic particles, Journal of Materials Processing Technology, 2006, 175(1-3): 186-191
Journal of Materials Engineering, 2002, 11: 3-6.
Online since: February 2017
Authors: I. Zsoldos, Imre Fekete, István Kozma
Rohatgi, Materials Science and Engineering 582, 415-422 (2013)
[3] L.
Gupta, Materials & Design 66, 504–515 (2015) [4] M.
Orbulov, The Journal of The Minerals, Metals & Materials Society, Vol. 66, No. 6. 882–891 (2014) [11] K.
Orbulov, Material Science and Engineering: A, Vol. 606, 248–256 (2014) [12] K.
Májlinger, International Journal of Materials Research, Vol. 106, No. 11, 1165–1173 (2015) [14] G.H.
Gupta, Materials & Design 66, 504–515 (2015) [4] M.
Orbulov, The Journal of The Minerals, Metals & Materials Society, Vol. 66, No. 6. 882–891 (2014) [11] K.
Orbulov, Material Science and Engineering: A, Vol. 606, 248–256 (2014) [12] K.
Májlinger, International Journal of Materials Research, Vol. 106, No. 11, 1165–1173 (2015) [14] G.H.
Online since: January 2012
Authors: Bin Sun, Pu Meng, Jin Bin Lu, Bin Zhao, Jian Jun Liu
Patent 0051355. (2007)
[2] Zi-qian Hung, Bo Xiang, Yue-hui He, and Bai-yun Huang: International Journal of Mineral, Metallurgy and Materials, Vol. 16(2009) ,P.215
[3] Chien-Min.
Hintermann: Journal of Materials Science, Vol. 26 (1991),P.5093 [5] F.A.
Khalid, and Hans-Rudolf Elsener: Materials Science and Engineering A, Vol. 495(2008), P. 265 [7] Y.M.
Lin: Journal of Materials Engineering and Performance, Vol. 56(1996), P.761 [12] Sheng-Fang Huang, Hsien-Lung Tsai, and Shun-Tian Lin: Materials Chemistry and Physics, Vol. 84(2004) ,P. 251 [13] T.
Suzumura: Journal of Materials Science, Vol. 41(2006) P. 6409 [14] LU Jin-bin, XI Yan-jun and WANG Zhi-xin: The Chinese Journal of Nonferrous Metals, Vol. 20(2010) ,P.137 [15] YU Jue-qi.
Hintermann: Journal of Materials Science, Vol. 26 (1991),P.5093 [5] F.A.
Khalid, and Hans-Rudolf Elsener: Materials Science and Engineering A, Vol. 495(2008), P. 265 [7] Y.M.
Lin: Journal of Materials Engineering and Performance, Vol. 56(1996), P.761 [12] Sheng-Fang Huang, Hsien-Lung Tsai, and Shun-Tian Lin: Materials Chemistry and Physics, Vol. 84(2004) ,P. 251 [13] T.
Suzumura: Journal of Materials Science, Vol. 41(2006) P. 6409 [14] LU Jin-bin, XI Yan-jun and WANG Zhi-xin: The Chinese Journal of Nonferrous Metals, Vol. 20(2010) ,P.137 [15] YU Jue-qi.
Online since: December 2010
Authors: Hai Bing Xiao, Shan Shan Sun, Jun Hai Zhao, Xue Ying Wei
Most of the metallic materials have obvious yield point, and the tensile strength is equal to the compressive strength.
Material yield strength and initial elastic modulus are taken from the appropriate material test results.
Journal of Structural Engineering,2004,13(2):180-188
Beijing: Science Press, 2003:87-91
Foundation of Plastic Mechanics[M].Beijing: Science Press, 1982,202-212
Material yield strength and initial elastic modulus are taken from the appropriate material test results.
Journal of Structural Engineering,2004,13(2):180-188
Beijing: Science Press, 2003:87-91
Foundation of Plastic Mechanics[M].Beijing: Science Press, 1982,202-212
Three Dimensional Printing of Titanium for Bone Tissue Engineering Applications: A Preliminary Study
Online since: August 2014
Authors: Jun Kit Wang, Saeed Maleksaeedi, Ze Ming He, Marcus Thien Chong Wong, Cleo Choong, Vipra Guneta
Polak, Third-Generation Biomedical Materials, Science. 5557 (2002) 1014-1017
Rack, Titanium alloys in total joint replacement—a materials science perspective, Biomaterials. 18 (1998) 1621-1639
Chahal, Preliminary observations of bone ingrowth into porous materials, Journal of Biomedical Materials Research. 3 (1976) 335-344
Blunn, Stem cell engineered bone with calcium-phosphate coated porous titanium scaffold or silicon hydroxyapatite granules for revision total joint arthroplasty, Journal of materials science.
Rethwisch, Materials science and engineering: an introduction, (2007)
Rack, Titanium alloys in total joint replacement—a materials science perspective, Biomaterials. 18 (1998) 1621-1639
Chahal, Preliminary observations of bone ingrowth into porous materials, Journal of Biomedical Materials Research. 3 (1976) 335-344
Blunn, Stem cell engineered bone with calcium-phosphate coated porous titanium scaffold or silicon hydroxyapatite granules for revision total joint arthroplasty, Journal of materials science.
Rethwisch, Materials science and engineering: an introduction, (2007)
Online since: February 2012
Authors: Li Zhang, Pei Feng Zhao, Yan Min Zhang, Yan Jun Zhou
Study on Constitutive Relationship of Ti-6Al-4V-Rare Earth Titanium Alloy during High Temperature Deformation
Yanmin Zhang1, a, Peifeng Zhao1, b, Li Zhang2, c and Yanjun Zhou1, d
1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China
2Zhengzhou Institute of Science and Technology, Zhengzhou 450064, China
azhangmin70@163.com, bzpf_1972@163.com, cazhli@163.com, ddazhou456@163.com
Keywords: titanium alloy; high temperature deformation; flow stress; constitutive equation
Abstract.
Introduction The titanium alloy as the significant structural materials are widely used in aviation and space, high performance engine, transportation, national defense and military industry because of its characteristics of light quality, high strength, good heat resistance and fine corrosion resistance [1-6].
Liu: Science Information Vol. 3 (2011), p. 476, In Chinese [5] Z.
Huang, etc.: Transactions of materials and Heat Treatment Vol. 31 (2010), p. 95-99 [10] F.
Li: Journal of Hefei University of Technology(Natural Science) Vol. 10 (2008), p. 1602-1605, In Chinese [11] S.
Introduction The titanium alloy as the significant structural materials are widely used in aviation and space, high performance engine, transportation, national defense and military industry because of its characteristics of light quality, high strength, good heat resistance and fine corrosion resistance [1-6].
Liu: Science Information Vol. 3 (2011), p. 476, In Chinese [5] Z.
Huang, etc.: Transactions of materials and Heat Treatment Vol. 31 (2010), p. 95-99 [10] F.
Li: Journal of Hefei University of Technology(Natural Science) Vol. 10 (2008), p. 1602-1605, In Chinese [11] S.
Online since: March 2019
Authors: Mokhtar Che Ismail, Mysara Eissa Mohyaldinn, Wai Lin, Ola Gawi, Quosay A. Ahmed, Mohammed Abdalla Ayoub, Anas Hasan
Journal of Petroleum Science and Engineering, 2016. 145: p. 298-320
Materials Letters 2008. 62: p. 113–116
Journal of Electrochemical Science and Technology, 2013. 4(2): p. 81-87
The Pacific Journal of Science and Technology, 2011. 12(1): p. 38-49
International Journal of Science and Technology, 2013. 2(7)
Materials Letters 2008. 62: p. 113–116
Journal of Electrochemical Science and Technology, 2013. 4(2): p. 81-87
The Pacific Journal of Science and Technology, 2011. 12(1): p. 38-49
International Journal of Science and Technology, 2013. 2(7)
Online since: November 2013
Authors: Mohd Zainizan Sahdan, Kah Yoong Chan, Sharul Ashikin Kamaruddin, Hashim Saim, Siti Nooraya Mohd Tawil, Nafarizal Nayan
Znaidi, Sol–gel-deposited ZnO thin films: A review,Materials Science and Engineering B 174 (2010) 18–30
Caglar, Preparation and characterization of ZnO thin filmsdeposited by sol-gel spin coating method, Journal of Optoelectronics and Advanced Materials, Vol. 10, No. 10, October 2008, p. 2578 – 2583
Searson, Influence of solvent on the growth of ZnO nanoparticles, Journal of Colloid and Interface Science 263 (2003) 454–460
Long, Influence of solvents on the growth of zinc oxide nanoparticles fabricated by microwave irradiation, VNU Journal of Science, Mathematics - Physics 25 (2009) 71-76 [11] J.
Wei, Solvent-induced growth of ZnO particles at low temperature, Materials Letters 62 (2008) 2814–2816
Caglar, Preparation and characterization of ZnO thin filmsdeposited by sol-gel spin coating method, Journal of Optoelectronics and Advanced Materials, Vol. 10, No. 10, October 2008, p. 2578 – 2583
Searson, Influence of solvent on the growth of ZnO nanoparticles, Journal of Colloid and Interface Science 263 (2003) 454–460
Long, Influence of solvents on the growth of zinc oxide nanoparticles fabricated by microwave irradiation, VNU Journal of Science, Mathematics - Physics 25 (2009) 71-76 [11] J.
Wei, Solvent-induced growth of ZnO particles at low temperature, Materials Letters 62 (2008) 2814–2816