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Microstructure and Properties of Vacuum Hot-Pressing SiC/ Ti-Cu-Ni-Sn Bulk Metallic Glass Composites
Online since: October 2007
Authors: Giin Shan Chen, Pee Yew Lee, Hong Ming Lin
Microstructure and Properties of Vacuum Hot-Pressing SiC/ Ti-Cu-Ni-Sn
Bulk Metallic Glass Composites
Hong- Ming Lina , Giin-Shan Chenb and Pee-Yew Leec,*
a
Department of Materials Engineering, Tatung University, Taipei, Taiwan, China
bDepartment of Materials Science, Feng-Chia University, Taichung, Taiwan, China
cInstitute of Materials Engineering, National Taiwan Ocean University, Keelung, Taiwan, China
a
hmlin@ttu.edu.tw, bgschen@fcu.edu.tw, cpylee@mail.ntou.edu.tw
Keywords: Mechanical alloying; Bulk metallic glass composite; Supercooled liquid region; Vacuum
hot pressing; SiC
Abstract.
References [1] A.Inoue: Mater Sci Forum Vol. 312-314 (1999), p.307
Lee: Mater Sci Forum Vol. 475-479 (2005), p.3443
Schultz: Advanced Engineering Materials Vol.3 (2001), p.41
References [1] A.Inoue: Mater Sci Forum Vol. 312-314 (1999), p.307
Lee: Mater Sci Forum Vol. 475-479 (2005), p.3443
Schultz: Advanced Engineering Materials Vol.3 (2001), p.41
Online since: April 2015
PREFACE
This volume contains some selected papers from the 2014 International Conference on Advanced
Materials Engineering and Technology (ICAMET 2014) which is to be held in Ho Chi Minh City,
Vietnam during December 4-5, 2014, and is organized by Centre of Excellence Geopolymer &
Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis.
ICAMET 2014 co-organized by Faculty of Materials Technology, Ho Chi Minh City University of Technology, Vietnam, National Key Laboratory of Polymer and Composite Material, Vietnam and also Faculty of Materials Science and Engineering, Gheorge Asachi Technical University of Iasi, Romania.
The conference aims to provide a high level international forum for researchers, engineers and scientists to present their new advances and research results in the field of advanced materials engineering and technology.
This volume covered all the aspects of advanced materials engineering and technology, particularly of advanced characterization, biomaterials, biotechnology, building materials, coating and surface engineering, composite and polymer materials, optical and photonic materials, nanoengineering and any other related topics.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of advanced materials engineering and technology, and that will be as valuable reference source for further research.
ICAMET 2014 co-organized by Faculty of Materials Technology, Ho Chi Minh City University of Technology, Vietnam, National Key Laboratory of Polymer and Composite Material, Vietnam and also Faculty of Materials Science and Engineering, Gheorge Asachi Technical University of Iasi, Romania.
The conference aims to provide a high level international forum for researchers, engineers and scientists to present their new advances and research results in the field of advanced materials engineering and technology.
This volume covered all the aspects of advanced materials engineering and technology, particularly of advanced characterization, biomaterials, biotechnology, building materials, coating and surface engineering, composite and polymer materials, optical and photonic materials, nanoengineering and any other related topics.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of advanced materials engineering and technology, and that will be as valuable reference source for further research.
Online since: October 2007
Authors: Jae Kwan Kim, Nong Moon Hwang, Pil Ryung Cha, Kyung Jun Ko, Jong Tae Park
ABNORMAL GRAIN GROWTH OF FE-3%SI STEEL APPROACHED BY
SOLID-STATE WETTING MECHANISM
Kyung-Jun, Ko
1,a, Pil-Ryung, Cha2,b, Jong-Tae, Park3,c, Jae Kwan Kim
3,d, and
Nong-Moon, Hwang1,e
1
Department of Materials Science and Engineering, Seoul National University, Seoul, KOREA
2
School of Advanced Materials Engineering, Kook-Min University, Seoul, KOREA
3
POSCO Technical Research Laboratories, POSCO, Pohang, KOREA
kjko04@snu.ac.kra , cprdream@kookmin.ac.krb , jtpark@posco.co.krc , jkwankim@posco.co.krd , and
nmhwang@snu.ac.kre
Keywords: Solid-state wetting, Abnormal grain growth, Fe-3%Si, Phase-field model, Goss
orientation
Abstract.
Forum, Vol. 467-470 (2004), p. 853
Forum, Vol. 539-543 (2007), p. 2557
Forum, Vol. 558-559 (2007), p. 1101.
Forum, Vol. 467-470 (2004), p. 853
Forum, Vol. 539-543 (2007), p. 2557
Forum, Vol. 558-559 (2007), p. 1101.
Online since: July 2011
Authors: Adam Grajcar, Roman Kuziak
Dynamic recrystallization behavior and softening kinetics in 3Mn-1.5Al TRIP steels
Adam Grajcar 1,a, Roman Kuziak 2,b
1 Institute of Engineering Materials and Biomaterials, Silesian University of Technology,
ul.
Introduction Multiphase steels with retained austenite are one of the biggest achievements of contemporary metallurgy in the field of advanced high strength steels (AHSS) for motorization.
Kim: Materials Science Forum Vol. 638-642 (2010), pp. 3313-3318
Somani: Materials Science and Engineering A Vol. 467 (2007), pp. 114-124
Poliak: Materials Science Forum Vol. 500-501 (2005), pp. 15-26
Introduction Multiphase steels with retained austenite are one of the biggest achievements of contemporary metallurgy in the field of advanced high strength steels (AHSS) for motorization.
Kim: Materials Science Forum Vol. 638-642 (2010), pp. 3313-3318
Somani: Materials Science and Engineering A Vol. 467 (2007), pp. 114-124
Poliak: Materials Science Forum Vol. 500-501 (2005), pp. 15-26
Online since: September 2005
Authors: No Jin Park, Bee Lyong Yang, Jun Mo Yang, Jung Kyu Ko, In Soo Kim, Dong Young Sung, Min Gu Lee
R05-2002-01512-0) of
the Korea Science & Engineering Foundation.
Forum, Vol. 408-412 (2002), p. 75 [5] D.
Forum, Vol. 408-412 (2002), p. 1585 [7] I.
Forum, Vol. 408-412 (2002), p. 1591 [8] H.
Forum, Vol. 449-452 (2004), p. 781 [9] W.
Forum, Vol. 408-412 (2002), p. 75 [5] D.
Forum, Vol. 408-412 (2002), p. 1585 [7] I.
Forum, Vol. 408-412 (2002), p. 1591 [8] H.
Forum, Vol. 449-452 (2004), p. 781 [9] W.
Online since: September 2014
Authors: Vyacheslav Mali, Michail Korchagin, Lilia I. Shevtsova, Tatyana Sameyshcheva, Alexander Anisimov, Sayina Bysyina
Kawahara, Properties of Ni-aluminides-reinforced Ni-matrix laminates synthesized by pulsed-current hot pressing (PCHP), Materials Science and Engineering A 428 (2006) 169–174
Polyakov, Metallic-Intermetallic composites produced by vacuum casting and annealing of Ni and Al, The 7th international forum on strategic technology 2012 (IFOST 2012), 1(2012), 275-278
Bazarkina, Formation of the intermetallic layers in Ti-Al multilayer composites, Advanced Materials Research. 311 – 313 (2011) 236-239
Hong, Reaction synthesis and microstructures of NiAl/Ni micro-laminated composites, Materials Science and Engineering A 396 (2005) 376–384 [12] H.
Liu, Combustion reaction in multilayered nickel and aluminum foils, Materials Science and Engineering A239–240 (1997) 532–539
Polyakov, Metallic-Intermetallic composites produced by vacuum casting and annealing of Ni and Al, The 7th international forum on strategic technology 2012 (IFOST 2012), 1(2012), 275-278
Bazarkina, Formation of the intermetallic layers in Ti-Al multilayer composites, Advanced Materials Research. 311 – 313 (2011) 236-239
Hong, Reaction synthesis and microstructures of NiAl/Ni micro-laminated composites, Materials Science and Engineering A 396 (2005) 376–384 [12] H.
Liu, Combustion reaction in multilayered nickel and aluminum foils, Materials Science and Engineering A239–240 (1997) 532–539
Online since: December 2004
Authors: Tong Kun Cao, Jia Lin Sun, Jian Xin Deng
Materials Science Forum Vols. *** (2004) pp.221-224
online at http://scientific.net
Ó 2004 Trans Tech Publications, Switzerland
Mechanical Properties and Microstructure of Self-Lubricating Ceramic
Cutting Tool Materials
J.X.
Sun1,c 1 Department of Mechanical Engineering, Shandong University, Jinan 250061 Shandong Province, P.
Advances in Materials Manufacturing Science and Technology 222 Experimental Procedure The starting powders used to fabricate the ceramic tool materials are of Al2O3 and TiC with particle size less than 1µm.
Axen: J. of Engineering Tribology Vol. 212 (1998), p. 381 [3] Y.
Cheng: Ceramic Engineering Vol. 4 (2001), p. 3.
Sun1,c 1 Department of Mechanical Engineering, Shandong University, Jinan 250061 Shandong Province, P.
Advances in Materials Manufacturing Science and Technology 222 Experimental Procedure The starting powders used to fabricate the ceramic tool materials are of Al2O3 and TiC with particle size less than 1µm.
Axen: J. of Engineering Tribology Vol. 212 (1998), p. 381 [3] Y.
Cheng: Ceramic Engineering Vol. 4 (2001), p. 3.
Online since: February 2012
Authors: Li Tu
On this basis, real collaborative management construction can be achieved by use of the advanced theories and tools.
China Mechanical Engineering. 2007,18(15):1814-1818.
Journal of Industrial Engineering Management. 2000.14(4):45-49.
China Mechanical Engineering. 2003.14(6):482-485.
Computer Engineering and Design. 2003.24(2):11-15.
China Mechanical Engineering. 2007,18(15):1814-1818.
Journal of Industrial Engineering Management. 2000.14(4):45-49.
China Mechanical Engineering. 2003.14(6):482-485.
Computer Engineering and Design. 2003.24(2):11-15.
Online since: August 2013
Authors: Yi Zhang, Cai Li Zhang, Xiang Meng, Guo Qin Cao, Chuan Shuai Li
Corrosion Protection of Mg alloy by a TiO2 Coating Prepared by Sol–gel Method
Yi Zhang1, a*, Caili Zhang2b*, Xiang Meng3, Guoqin Cao3, Chuanshuai Li3
1School of Mechanical Engineering and Automation, Beihang University, Beijing 100191,
China.
2 Department of Civil and Architecture Engineering, Zhongyuan University of Technology, Zhengzhou, 450007, PR China
3 School of Materials Science and Engineering, Zhengzhou University, Zhengzhou 450002, PR China
a zhangyi999@gmail.com; 360948593@qq.com
Keywords: Sol-gel; AZ31 Mg alloy; corrosion; TiO2 films; Orthogonal experiment
Abstract.
Kojima, “Platform Science and Technology for Advanced Magnesium Alloys”, Mater.
Forum, Vol. 350(2000), p. 3-18
Forum, Vol.350(2000), p. 349-358
Krumpel, “Spark-plasma-sintering (SPS) of nanostructured and submicron titanium oxide powders”, Materials Science and Engineering A, Vol.381(2004) p.16-19.
Kojima, “Platform Science and Technology for Advanced Magnesium Alloys”, Mater.
Forum, Vol. 350(2000), p. 3-18
Forum, Vol.350(2000), p. 349-358
Krumpel, “Spark-plasma-sintering (SPS) of nanostructured and submicron titanium oxide powders”, Materials Science and Engineering A, Vol.381(2004) p.16-19.
Online since: December 2004
Authors: Jiu Hua Xu, Liang Li, Ning He
Materials Science Forum Vols. *** (2004) pp.414-417
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Experimental Study on High Speed Milling of Ti Alloys
L.
Tool rejection or failure was determined based on the following criteria: Materials Science Forum Vols. *** 415 Average flank wear = 0.30 mm; Maximum flank wear = 0.6 mm; Excessive chipping/flaking or fracture of the cutting edge.
: 275m/min) Fig.5 Tool wear pattern of high speed milling Ti6Al4V under various cutting speeds Slice fracture Adhesion Nubbly fracture Adhesion Notch wear Slice fracture Notch wear Adhesion Adhesion Crack Materials Science Forum Vols. *** 417 It seems that the machinability of β titanium alloy was poorer than that of α and α+β titanium alloys because of the higher anti-oxidation of the β Ti alloy.
Narutaki: Chinese Journal of Mechanical Engineering Vol. 20 (2002), p. 33 [3] E.
Zhang: Chinese Journal of Mechanical Engineering, Vol. 2 (1988), p. 28 [5] M.
Tool rejection or failure was determined based on the following criteria: Materials Science Forum Vols. *** 415 Average flank wear = 0.30 mm; Maximum flank wear = 0.6 mm; Excessive chipping/flaking or fracture of the cutting edge.
: 275m/min) Fig.5 Tool wear pattern of high speed milling Ti6Al4V under various cutting speeds Slice fracture Adhesion Nubbly fracture Adhesion Notch wear Slice fracture Notch wear Adhesion Adhesion Crack Materials Science Forum Vols. *** 417 It seems that the machinability of β titanium alloy was poorer than that of α and α+β titanium alloys because of the higher anti-oxidation of the β Ti alloy.
Narutaki: Chinese Journal of Mechanical Engineering Vol. 20 (2002), p. 33 [3] E.
Zhang: Chinese Journal of Mechanical Engineering, Vol. 2 (1988), p. 28 [5] M.