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Online since: January 2022
The ICMSE2021 is becoming one of the leading international conferences for presenting novel and fundamental advances in material science and engineering in China.
Sajid Hameed, petroleum processes engineering college, tikrit university, Iraq Dr.
Shafiul Ferdous, Khulna University of Engineering & Technology, Bangladesh Dr.
Parthiban Kathirvel, School of Civil Engineering, India Dr.
Hojjat Toiserkani, Graduate University of Advanced Technology, Iran Dr.
Sajid Hameed, petroleum processes engineering college, tikrit university, Iraq Dr.
Shafiul Ferdous, Khulna University of Engineering & Technology, Bangladesh Dr.
Parthiban Kathirvel, School of Civil Engineering, India Dr.
Hojjat Toiserkani, Graduate University of Advanced Technology, Iran Dr.
Online since: August 2012
Authors: Peter Hodgson, Yun Cang Li, Cui'e Wen, Yu Wang
Preparation of Titanium/Strontia Composite by Powder Metallurgy for Biomedical Application
Yu Wang1,a, Cuie Wen2,b, Peter Hodgson1,c, and Yuncang Li1,d
1Institute for Frontier Materials, Deakin University,
Waurn Ponds, Victoria 3217, Australia
2 Faculty of Engineering and Industrial Sciences, Swinburne University of Technology,
Hawthorn, Victoria, 3122, Australia
a qs@deakin.edu.au, b cwen@swin.edu.au, c peter.hodgson@deakin.edu.au,
d yuncang.li@deakin.edu.au (corresponding author)
Keywords: Powder metallurgy, Titanium - based composite, Strontia.
Abstract: In this study, a Titanium (Ti) / Strontia (SrO) composite was prepared using powder metallurgy, with the aim of obtaining advanced Ti-based composites for use as bone implant materials.
Therefore, Ti composites with SrO content is expected to have a better biocompatibility and advanced mechanical properties e.g. high hardness and strength, and reasonable elastic modulus for application as bone implant materials.
Forum., 654-656 (2010) 815-818
Abstract: In this study, a Titanium (Ti) / Strontia (SrO) composite was prepared using powder metallurgy, with the aim of obtaining advanced Ti-based composites for use as bone implant materials.
Therefore, Ti composites with SrO content is expected to have a better biocompatibility and advanced mechanical properties e.g. high hardness and strength, and reasonable elastic modulus for application as bone implant materials.
Forum., 654-656 (2010) 815-818
Online since: February 2012
Authors: Gianluca Buffa, Livan Fratini, Marion Merklein, Tobias Gnibl, Michael Wieland
Fig. 3 shows the obtained temperatures at the varying of the tool advancing speed.
As it can be observed the weld obtained with a tool advancing speed of 400 mm/min is characterized a perfect bonding, with the material coming from the thick blank on the retreating side and being shifted to the thin sheet on the advancing side.
Mishra, Z.Y Ma, Friction stir welding and processing, Materials Science and Engineering R: Reports 50 (2005) 1-78
Fratini, A continuum based FEM model for friction stir welding - model development”, Materials Science and Engineering: A 419/1-2 (2006) 381-388
Simoncini, Friction stir welding of magnesium alloys under different process parameters, Mater Sci Forum 638–642 (2010) 3954–3959.
As it can be observed the weld obtained with a tool advancing speed of 400 mm/min is characterized a perfect bonding, with the material coming from the thick blank on the retreating side and being shifted to the thin sheet on the advancing side.
Mishra, Z.Y Ma, Friction stir welding and processing, Materials Science and Engineering R: Reports 50 (2005) 1-78
Fratini, A continuum based FEM model for friction stir welding - model development”, Materials Science and Engineering: A 419/1-2 (2006) 381-388
Simoncini, Friction stir welding of magnesium alloys under different process parameters, Mater Sci Forum 638–642 (2010) 3954–3959.
Online since: March 2008
Authors: Qi Xun Yu, Tie Fu, Bin Liu, Yu Guang Wu
Development and Application of Cermet Cutting Tools Material
Tie Fu
1,a
, Qixun Yu
1,a, Bin Liu
2,b and Yuguang Wu
2,b
P1PSchool of Mechanical and Vehicular Engineering, Beijing Institute of Technology,
Beijing, China, 100081
P2PChina North Advanced Technology Generalization Institute, Beijing, China, 100080
PaHPTUfutie@bit.edu.cnUTH; PbHPTUliubin19681023@yahoo.com.cnUTH
Keywords: Cutting tool material, Cermet, TiCN based, Turning
Abstract.
The turning tests for high strength steel 38CrNiB3BMoVA (hardened and tempered, HRC36~40) using TiC based insert NT7 (P10~P20, produced from General Research Institute for Nonferrous Metals), WC based insert YT14 (P20) and advanced TiCN based insert TN20 (P20) are made respectively and compared.
Forum, Vol.532-533 (2006), pp.37
The turning tests for high strength steel 38CrNiB3BMoVA (hardened and tempered, HRC36~40) using TiC based insert NT7 (P10~P20, produced from General Research Institute for Nonferrous Metals), WC based insert YT14 (P20) and advanced TiCN based insert TN20 (P20) are made respectively and compared.
Forum, Vol.532-533 (2006), pp.37
Online since: January 2005
Authors: Yasuo Yamada, Tadashi Asahina, Cui E Wen, Tsutomu Sonoda, Mamoru Mabuchi, Kiyotaka Katou
Mabuchi3,f
1Materials Research Institute for Sustainable Development, National Institute of Advanced Industrial
Science and Technology, Nagoya, 463-8560, Japan
2
School of Engineering and Technology, Deakin University, Geelong, 3217, Australia
3
Department of Energy Science and Technology, Kyoto University, Kyoto, 606-8501, Japan
a
yasuo-yamada@aist.go.jp, bcwen@deakin.edu.au, ct.asahina@aist.go.jp,
d
kiyotaka.katou@aist.go.jp, etsutomu.sonoda@aist.go.jp, fmabuchi@energy.kyoto-u.ac.jp
Keywords: Hollow sphere aluminum, foam, mechanical properties, energy absorption.
Acknowledgements This research report is portion of the results of promoting NEDO (New Energy and Industrial Technology Development Organization, Japan) project entitled "Advanced material processing of aluminum alloys for light-weight automobiles".
Forum Vol. 350-351 (2000), p. 359
Acknowledgements This research report is portion of the results of promoting NEDO (New Energy and Industrial Technology Development Organization, Japan) project entitled "Advanced material processing of aluminum alloys for light-weight automobiles".
Forum Vol. 350-351 (2000), p. 359
Online since: September 2018
Authors: Getúlio de Vasconcelos, Ana Claudia Costa Oliveira, Maria Fernanda Souza Ferreira, Silvelene Alessandra Silva, Glaucia Regina Pita
Acknowledgements
The authors thanks CAPES, Institute for Advanced Studies - IEAv/DCTA and OGRAMAC LTDA.
Pawlowski, The Science and Engineering of Thermal Spray Coatings.
Lavigne, Some recent trends in research and technology of advanced thermal barrier coatings.
Materials Science Forum, v. 591-593, p 62 – 67 2008.
Pawlowski, The Science and Engineering of Thermal Spray Coatings.
Lavigne, Some recent trends in research and technology of advanced thermal barrier coatings.
Materials Science Forum, v. 591-593, p 62 – 67 2008.
Online since: April 2009
Authors: E. Derry Doyle, S.J. Dowey
Machining of Light Metals: Challenges for Surface Engineering
E.D.
Not withstanding this, engineers continue to seek stronger and lighter materials.
Cutting Tool Design and Surface Engineering Modern cutting tools manufactured from high speed steel (HSS) and cemented carbide (carbides) have been available for the most of the last century.
[2] Palanisamy, S., Dargusch, M.S., McDonald, S.D., Brandt, M., StJohn, D.H. (2007) A rationale for the acoustic monitoring of surface deformation in Ti6Al4V alloys during machining, Advanced Engineering Materials 9, 11, 1000-1004 [3] Childs, T.H.C., Mackawa,K., Obikawa,T.
[12] Joshi, S.P. and Ramesh, K.T., (2008) Grain Size dependent Shear Instabilities in Bodycentered and Face-centered Cubic Materials, Materials Science and Engineering, A 493, pp.6570
Not withstanding this, engineers continue to seek stronger and lighter materials.
Cutting Tool Design and Surface Engineering Modern cutting tools manufactured from high speed steel (HSS) and cemented carbide (carbides) have been available for the most of the last century.
[2] Palanisamy, S., Dargusch, M.S., McDonald, S.D., Brandt, M., StJohn, D.H. (2007) A rationale for the acoustic monitoring of surface deformation in Ti6Al4V alloys during machining, Advanced Engineering Materials 9, 11, 1000-1004 [3] Childs, T.H.C., Mackawa,K., Obikawa,T.
[12] Joshi, S.P. and Ramesh, K.T., (2008) Grain Size dependent Shear Instabilities in Bodycentered and Face-centered Cubic Materials, Materials Science and Engineering, A 493, pp.6570
Online since: October 2023
Authors: Jorge Salguero Gómez, Juan Manuel Vazquez Martinez, Rafael Bienvenido, Fermín Bañón-García
Doctor Ortiz Ramos s/n (Campus de Teatinos), E29071 – Málaga, Spain
2Department of Mechanical Engineering and Industrial Design, School of Engineering, University of Cadiz.
Universidad de Cadiz 10, E11510 - Puerto Real, Spain 3Department of Civil and Industrial Engineering, Algeciras Higher Technical School of Engineering, University of Cadiz.
The use of advanced materials in new fields of applications is usually related with specific properties and great advantages.
Dudenhausen, Design of a multifunctional cell for aerospace CFRP production, Lecture Notes in Mechanical Engineering. 7 (2013) 515–524. https://doi.org/10.1007/978-3-319-00557-7_42
Gao, Hole diameter variation and roundness in dry orbital drilling of CFRP/Ti stacks, International Journal of Advanced Manufacturing Technology. 87 (2016) 811–824. https://doi.org/10.1007/s00170-016-8528-1
Universidad de Cadiz 10, E11510 - Puerto Real, Spain 3Department of Civil and Industrial Engineering, Algeciras Higher Technical School of Engineering, University of Cadiz.
The use of advanced materials in new fields of applications is usually related with specific properties and great advantages.
Dudenhausen, Design of a multifunctional cell for aerospace CFRP production, Lecture Notes in Mechanical Engineering. 7 (2013) 515–524. https://doi.org/10.1007/978-3-319-00557-7_42
Gao, Hole diameter variation and roundness in dry orbital drilling of CFRP/Ti stacks, International Journal of Advanced Manufacturing Technology. 87 (2016) 811–824. https://doi.org/10.1007/s00170-016-8528-1
Online since: May 2012
Authors: Aravinda Kar, Geunsik Lim, Tariq Manzur
Laser-Doped SiC as Wireless Remote Gas Sensor based on Semiconductor Optics
Geunsik Lim1,a, Tariq Manzur2,b and Aravinda Kar1,*
1 Laser-Advanced Materials Processing Laboratory, CREOL, The College of Optics and Photonics, Mechanical, Materials and Aerospace Engineering Department, University of Central Florida, Orlando, Florida 32816-2700, USA
2 S&T Lead, I&EW, Undersea Warfare Electromagnetic Systems Development, Building 1319, 1176 Howell Street, Newport, RI 02841-1708, USA
aglim@creol.ucf.edu, btariq.manzur@navy.mil, akar@creol.ucf.edu, *corresponding author
Keywords: optical sensor, noncontact sensor, refractive index, laser doping, nonintrusive sensor
Abstract.
Introduction Accessing the harsh combustion environments requires advanced materials and packaging that limit the applicability of conventional semiconductor gas sensors [1].
Forum 600-603 (2009) 1199-1202
Introduction Accessing the harsh combustion environments requires advanced materials and packaging that limit the applicability of conventional semiconductor gas sensors [1].
Forum 600-603 (2009) 1199-1202
Online since: April 2013
Authors: Jin Xu Liu, Zhi Yu Hu, Usman Zahid, Abdul Rehman Niazi, Ying Chun Wang, Shu Kui Li
Effect of Spark Plasma Sintering Temperature on microstructures and Properties of Copper-Diamond Composites
Abdul Rehman Khan Niazi 1,a,Li Shukui 1,b, Wang Yingchun 1,c, Liu Jinxu 1,d, Hu Zhiyu 1,e, Zahid Usman 1,f
1School of Materials Science and Engineering, Beijing Institute of Technology,
Beijing 100081, People’s Republic of China
a abdurrehmanniazi@yahoo.com, b bitleesk@bit.edu.cn ,c wangyc@bit.edu.cn, d liujinxu@bit.edu.cn,e hzy896@yahoo.com.cn, f zasu79@yahoo.com
Key words: Diamond/Copper Composites, Spark plasma sintering, Thermal conductivity, Specific Heat, Diffusivity.
Zweben, “High performance thermal management materials” Advanced Packaging, 2006 vol.15, no 2, pp 1-5 [2] Łukas Ciupiński, D.
Advanced Materials Research, 59(2009) 120-124 [3] Tavangar R, Molina JM, Weber L.
Forum 2009; 59:111–5 [5] Shen W, Shaoa W, Wanga Q, Maa M.
Zweben, “High performance thermal management materials” Advanced Packaging, 2006 vol.15, no 2, pp 1-5 [2] Łukas Ciupiński, D.
Advanced Materials Research, 59(2009) 120-124 [3] Tavangar R, Molina JM, Weber L.
Forum 2009; 59:111–5 [5] Shen W, Shaoa W, Wanga Q, Maa M.