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Online since: January 2014
Authors: Apirit Petkhwan, Prapas Muangjunburee, Jessada Wannasin
Researchers thank the Department of Mining and Materials Engineering, Faculty of Engineering, Prince of Songkla University in Thailand.
PSU-E Engineering Conference (PEC-5), 21-22 May 2009
Bruger: Materials Science and Engineering.
Forum Vol. 447(2007), p. 192-196
Advanced Materials Research Vols. 488-489(2012), pp. 328-334
PSU-E Engineering Conference (PEC-5), 21-22 May 2009
Bruger: Materials Science and Engineering.
Forum Vol. 447(2007), p. 192-196
Advanced Materials Research Vols. 488-489(2012), pp. 328-334
Online since: January 2014
Authors: Zhi Ling Wang, Fu Xiang Wei, Gen Xi Yu
Effect of AlF3 addition on electric conductivity of NiFe2O4-based cermet inert anode
Fu-xiang Wei 1,2, a, Gen-xi Yu2 and Zhi-ling Wang3
1Jiangsu Key Laboratory of Large Engineering Equipment Detection and Control, Xuzhou Institute of Technology, Xuzhou, Jiangsu 221111, China
2School of Materials Science and Engineering, China University of Mining & Technology, Xuzhou, Jiangsu 221116, China
3Jiangsu province xuzhou technician institute, Xuzhou, Jiangsu 221116, China
aweifuxiang2001@163.com, yugengxi@126.com
Keywords: Metal ceramics; Conductivity; AlF3 addition; Microstructure
Abstract.
The phase composition of the cermet samples was analyzed using X diffractometer (D8 Advance Bruker, Germany).
Acknowledgements This work was supported by " Jiangsu Key Laboratory of Large Engineering Equipment Detection and Control " (JSKLEDC201206) and China Postdoctoral Science Foundation (20110491471).
Forum Vol. 690 (2011), p.433 [8] F.
The phase composition of the cermet samples was analyzed using X diffractometer (D8 Advance Bruker, Germany).
Acknowledgements This work was supported by " Jiangsu Key Laboratory of Large Engineering Equipment Detection and Control " (JSKLEDC201206) and China Postdoctoral Science Foundation (20110491471).
Forum Vol. 690 (2011), p.433 [8] F.
Online since: June 2014
Authors: Ji Wei Wang, Ping Chuan Dong, Tian Lin Zhuang, Li Yang Song
Science Forum, 2006
Three-dimensional Finite Element Calculations In Soil And Mining Engineering[C]. 7th ISRM Congress, 2001
Advances in Structural Engineering, 2001 (1) 43-49
IEEE/ICME on Complex Medical Engineering, CME, 2011, 471-473.
Three-dimensional Finite Element Calculations In Soil And Mining Engineering[C]. 7th ISRM Congress, 2001
Advances in Structural Engineering, 2001 (1) 43-49
IEEE/ICME on Complex Medical Engineering, CME, 2011, 471-473.
Online since: October 2022
Authors: Ziyauddin Seikh, Golam Kibria, Rafiqul Haque, Sandip Kunar, Shamim Haidar, Mukandar Sekh
Metal matrix composite materials are a novel material generation capable of handling the implementation of advanced technology's growing needs.
Micro silica is a substance that can be used to make advanced materials, for example, SiC, Si3N4, basic Si, and Mg2Si [15-18].
Chauhan, Characterization of hybrid aluminum matrix composites for advanced applications–a review., J.
Fayomi, The study on improvement of aluminium alloy for engineering application: A Review., Int.
Purohit, Advanced Aluminium Matrix Composites: The critical need of Automotive and Aerospace Engineering Fields, Mater.
Micro silica is a substance that can be used to make advanced materials, for example, SiC, Si3N4, basic Si, and Mg2Si [15-18].
Chauhan, Characterization of hybrid aluminum matrix composites for advanced applications–a review., J.
Fayomi, The study on improvement of aluminium alloy for engineering application: A Review., Int.
Purohit, Advanced Aluminium Matrix Composites: The critical need of Automotive and Aerospace Engineering Fields, Mater.
Online since: June 2020
Yifeng Zhong, School of Civil Engineering, Chongqing University, China
Prof.
Ang Zi Yang Adrian, Temasek Polytechnic, School of Engineering, Singapore A.Prof.
Wenbo Liu, School of Mechanical Engineering, Sichuan University, China Prof.
Joseph’s Institute of Technology/ Mechanical Engineering, India.
Jun Bian, School of Materials Science and Engineering, Xihua University, China Prof.
Ang Zi Yang Adrian, Temasek Polytechnic, School of Engineering, Singapore A.Prof.
Wenbo Liu, School of Mechanical Engineering, Sichuan University, China Prof.
Joseph’s Institute of Technology/ Mechanical Engineering, India.
Jun Bian, School of Materials Science and Engineering, Xihua University, China Prof.
Online since: March 1996
However, it has
become evident that understanding of grain growth is of increasing importance to development of
advanced materials, not only ordinary polycrystalline materials, but also in nanostructured materials
and thin film semiconductor and superconducting materials.
He received a BS of Metallurgical Engineering from the National Chiao Tung University of China.
Steel, he was appointed Research Professor, Department of Materials Science and Engineering at the university of Pittsburgh, where he worked until his death.
Switzerland Posthumous Manuscript An Historical Overview of Grain Growth in Metallic Materials Hsun Hu Department of Materials Science and Engineering University of Pittsburg, Pittsburg, PA 15261, U.S.A.
Although the phenomenon of abnormal grain growth occurs frequently in engineering materials, such as certain types of steel and non-ferrous alloys, extensive studies of its kinetics have been scarce.
He received a BS of Metallurgical Engineering from the National Chiao Tung University of China.
Steel, he was appointed Research Professor, Department of Materials Science and Engineering at the university of Pittsburgh, where he worked until his death.
Switzerland Posthumous Manuscript An Historical Overview of Grain Growth in Metallic Materials Hsun Hu Department of Materials Science and Engineering University of Pittsburg, Pittsburg, PA 15261, U.S.A.
Although the phenomenon of abnormal grain growth occurs frequently in engineering materials, such as certain types of steel and non-ferrous alloys, extensive studies of its kinetics have been scarce.
Online since: August 2018
Authors: Yousef Alshammari, Fei Yang, Leandro Bolzoni
Yield of Binary Ti-Cu and Ti-Mn Alloys Produced via Powder Metallurgy
Yousef Alshammari1,a, Fei Yang1,b, Leandro Bolzoni1,c*
1Waikato Centre for Advanced Materials, School of Engineering, The University of Waikato
Private Bag 3105, 3240 Hamilton - New Zealand
aynja1@students.waikato.ac.nz, bfyang@waikato.ac.nz, cleandro@waikato.ac.nz
Keywords: Titanium alloys, titanium powder metallurgy, press and sinter, blending elemental, homogeneous microstructure, Ti-Cu, Ti-Mn
Abstract.
High strength, low density, good corrosion resistance and biocompatibility is the combination of properties that Ti and its alloys can provide for engineering applications.
Zhang, Effect of Cu Content on the Antibacterial Activity of Titanium-Copper Sintered Alloys, Materials Science and Engineering: C, 35 (2014) 392-400
Gordo, Microstructural Evolution and Mechanical Properties of the Ti-6Al-4V Alloy Produced by Vacuum Hot-pressing, Materials Science and Engineering A, 546 (2012) 189-197
Gordo, Feasibility Study of the Production of Biomedical Ti-6Al-4V Alloy by Powder Metallurgy, Materials Science and Engineering C, 49 (2015) 400-407
High strength, low density, good corrosion resistance and biocompatibility is the combination of properties that Ti and its alloys can provide for engineering applications.
Zhang, Effect of Cu Content on the Antibacterial Activity of Titanium-Copper Sintered Alloys, Materials Science and Engineering: C, 35 (2014) 392-400
Gordo, Microstructural Evolution and Mechanical Properties of the Ti-6Al-4V Alloy Produced by Vacuum Hot-pressing, Materials Science and Engineering A, 546 (2012) 189-197
Gordo, Feasibility Study of the Production of Biomedical Ti-6Al-4V Alloy by Powder Metallurgy, Materials Science and Engineering C, 49 (2015) 400-407
Online since: December 2010
Authors: Terence G. Langdon
Langdon1,2,a
1Departments of Aerospace & Mechanical Engineering and Materials Science
University of Southern California, Los Angeles, CA 90089-1453, U.S.A.
2Materials Research Group, School of Engineering Sciences
University of Southampton, Southampton SO17 1BJ, U.K.
It is instructive to note that Wootz steel has been specifically designated as an advanced material of the ancient world because of its high impact hardness and superplastic properties at elevated temperatures [3].
Furthermore, this listing includes the papers ranked in the #1 positions for Scripta Materialia and Materials Science and Engineering A.
Sci.Forum Vol. 503-504 (2006), p. 363 [3] S.
Ranganathan: India’s Legendary Wootz Steel: An Advanced Material of the Ancient World (National Institute of Advanced Studies and IISc, Bangalore, India, 2004) [4] O.D.
It is instructive to note that Wootz steel has been specifically designated as an advanced material of the ancient world because of its high impact hardness and superplastic properties at elevated temperatures [3].
Furthermore, this listing includes the papers ranked in the #1 positions for Scripta Materialia and Materials Science and Engineering A.
Sci.Forum Vol. 503-504 (2006), p. 363 [3] S.
Ranganathan: India’s Legendary Wootz Steel: An Advanced Material of the Ancient World (National Institute of Advanced Studies and IISc, Bangalore, India, 2004) [4] O.D.
Online since: July 2020
Authors: Ghanim Sh. Sadiq, Muhammed Abdul Sattar, Saif M. Abbas
Sadiq2,b and Muhammed Abdul Sattar3,c
1Al-Nahrain University, College of Engineering, Prosthetics and Orthotics Engineering Department, Iraq
2,3Al-Nahrain University, College of Engineering, Mechanical Engineering Department, Iraq
asaifmohammad645@yahoo.com, bghanim_sadiq@yahoo.com, cm1976sjnr@gmail.com
Keywords: Below Knee, Tensile, Fatigue, F-socket, Prosthesis material.
Erik, PhD: Prosthetic Advances, Journal of Surgical Orthopaedic Advances, Vol.21, No.1, (2012) 58-64
Series: Materials Science and Engineering 433 (2018)
Series: Materials Science and Engineering 454 (2018)
Series: Materials Science and Engineering 4671 (2020)
Erik, PhD: Prosthetic Advances, Journal of Surgical Orthopaedic Advances, Vol.21, No.1, (2012) 58-64
Series: Materials Science and Engineering 433 (2018)
Series: Materials Science and Engineering 454 (2018)
Series: Materials Science and Engineering 4671 (2020)
Online since: December 2012
Authors: Mohammad Albakri, Bilal Mansoor, Ahmad Albakri, Marwan Khraisheh
Mulyukov, “Structure and properties of ultrafine-grained materials produced by severe plastic deformation,” Materials Science and Engineering: A, vol. 168, no. 2, pp. 141–148, Aug. 1993
Fuller, “Superplastic Forming of 7475 Al Sheet after Friction Stir Processing (FSP),” Materials Science Forum, vol. 447–448, pp. 505–512, 2004
Khraisheh, “Impact of Selective Grain Refinement on Superplastic Deformation: Finite Element Analysis,” Journal of Materials Engineering and Performance, vol. 17, no. 2, pp. 163–167, Dec. 2007
Khraisheh, “Simulation of Friction Stir Processing with Internally Cooled Tool,” Advanced Materials Research, vol. 445, pp. 560–565, Jan. 2012
Khraisheh, “Analysis of superplastic deformation of AZ31 magnesium alloy,” Advanced Engineering Materials, vol. 9, no. 9, pp. 777–783, 2007.
Fuller, “Superplastic Forming of 7475 Al Sheet after Friction Stir Processing (FSP),” Materials Science Forum, vol. 447–448, pp. 505–512, 2004
Khraisheh, “Impact of Selective Grain Refinement on Superplastic Deformation: Finite Element Analysis,” Journal of Materials Engineering and Performance, vol. 17, no. 2, pp. 163–167, Dec. 2007
Khraisheh, “Simulation of Friction Stir Processing with Internally Cooled Tool,” Advanced Materials Research, vol. 445, pp. 560–565, Jan. 2012
Khraisheh, “Analysis of superplastic deformation of AZ31 magnesium alloy,” Advanced Engineering Materials, vol. 9, no. 9, pp. 777–783, 2007.