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There are important engineering alloys that have found applications because of special physical or chemical properties -- for example, magnetic behavior, superconductivity and chemical stability in corroding atmospheres.
Advanced titanium aluminides are multiphase alloys which can be produced by ingot or powder metallurgy and by precision casting methods.
Wever, Defect and Diffusion Forum 83, 55 (1992)
Shirai, Science and Technology of Advanced Materials 1, 237 (2002)
Gas, Grainboundary Diffusion in Solids: Recent Advances and Applications, Defect and Diffusion Forum 143-147, 1343 (1997)

Scarlin: in 'Materials for Advanced Power Engineering 1998', Eds J Lecomte-Beckers et al (1998), p. 1825
Schulenberg: in 'Materials for Advanced Power Engineering 1998', Eds J LecomteBeckers et al (1998), p. 849
'Life Cycle Issues in Advanced Power Plants', Materials at High Temperatures 20 (2003)
Oakey: in 'Materials for Advanced Power Engineering 2002', Eds J.
Oakey: in 'Materials for Advanced Power Engineering 2002', Eds J.

Azmah Hanim2,d 1UTM Razak School of Engineering & Advanced Technology, Universiti Teknologi Malaysia, 54100, Kuala Lumpur, Malaysia 2Department of Mechanical and Manufacturing Engineering, Universiti Putra Malaysia, 43300, Serdang, Malaysia aoaayad2@live.utm.my*, bastuty@utm.my, cmroslina.kl@utm.my, dazmah@eng.upm.edu.my Keywords: Ti-Al-Fe alloy, Lamellar Microstructure, Recrystallization Treatment.
Introduction Titanium alloys possess exceptional properties which have driven them to be increasingly used in many Engineering applications such as the aerospace, marine, automotive and petroleum industries [1, 2].
Boyer, An overview on the use of titanium in the aerospace industry, Materials Science and Engineering: A. 213 (1996) 103-114
Ashraf Imam, Cost affordable developments in titanium technology and applications, Key Engineering Materials, Trans Tech Publ. 436 (2010) 1-11
Ziaja (Eds.), Titanium Alloys - Advances in Properties Control, InTech, Rijeka, 2013, pp. 69-80

And it enhances advanced technology application and fundamental capacity building and perfects various policy and institution guarantee, providing effective guarantee for annual energy efficiency target [4].
Wang: Economic Forum, (2012) No.9, p.12 [2] Information on http://www.bjstats.gov.cn/ [3] Z.F.
Wang: the 19th International Conference on Management Science & Engineering (Dallas, USA,2012) [5] M.S.
Wang: the18th International Conference on Management Science & Engineering (Rome, Italy,2011) [7] J.
Wu: International Conference on Future Information Technology and Management Engineering (Changzhou,China,2010)

Shafiul Ferdous2,b 1Graduate School of Engineering and Science, University of the Ryukyus, 1 Senbaru, Nishihara, Okinawa 903-0213, Japan 2Department of Mechanical Engineering, Khulna University of Engineering & Technology, Khulna-9203, Bangladesh ams_97247@yahoo.com, bmunazeer_218@yahoo.com Keywords: Hybrid composites, Fatigue limit, Fracture behavior, Crack growth Abstract.
Forum, 940 (2018) 79-83
Chen, Effect of Specimen Thickness on Fatigue Limit in Carbon Composites, Advance Material Research, 1110 (2015) 13
Kimata, Development of Advanced Vacuum-Assisted Resin Transfer Molding Technology for Use in an MRJ Empennage Box Structure, Mitsubishi Heavy Industries, Ltd.

The Influence of Magnetic Fiber Orientation on the Electric Properties of Conductive Polymer Composite Material by Using Magnetic-Assisted Injection Molding Chen-Yuan Chung1,*, Shia-Chung Chen2, and Kuan-Ju Lin1 1Department of Mechanical Engineering, National Central University, Taiwan 2Department of Mechanical Engineering, Chung Yuan Christian University, Taiwan *Email: cychung@ncu.edu.tw Keywords: magnetic-assisted injection molding, conductive polymer composite material, fiber orientation, conductivity Abstract.
Its related fabrication and technology have become the important issue of development of science and engineering.
Advanced Materials, Vol. 15 (2003), p. 1918-1921
Materials Science Forum, Vol. 936 (2018), 136-141
[9] AC Technology Inc., C-MOLD design guide: a resource for plastics engineers, Advanced CAE Technology, Ithaca, New York, 1995.

LASERFLEX + LASAT® for Advanced Powder Batch Control From the mere consideration of the previously-described capabilities of LASERFLEX and LASAT®, one may imagine that combining these two laser-shock process variants could result in innovative, rapid and flexible powder batch control device and method.
LAHMAN, “Laser Shock Processing as a Surface Enhancement Process”, Key Engineering Materials 197(2001)121-144
DELLORO, “An Artistic Approach to Thermal Spray”, Materials Science Forum 878(2016)15-28
KLASSEN, “Determination of plastic constitutive properties of microparticles though single particle compression”, Advanced Powder Technology 26(2015)1544-1554
Engineering Tribology 229(2015)3-29

Delgado2,b, W.M.P.Barbosa de Lima 1,c and A.G.Barbosa de Lima 1,d 1Department of Mechanical Engineering, Federal University of Campina Grande (UFCG), Zip Code 58429-900, Campina Grande-PB, Brazil 2CONSTRUCT-LFC, Civil Engineering Department, Faculty of Engineering, University of Porto, Porto, Portugal averalucia.silva84@yahoo.com.br,bjdelgado@fe.up.pt,cwan_magno@hotmail.com, dantonio.gilson@ufcg.edu.br.
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Series: Advanced Structured Materials. 63ed.

Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Video Engineering.
IEEE Transactions on Knowledge and Data Engineering.
Garcia-Molina: A model for data leakage detection. in: Data Engineering, 2009.

Numerical Simulation for Metal Powder Cross Shear Rolling Compaction Liu Mingjun1, a, Liu Guangchao1,b 1School of Mechanical and Electrical Engineering, Shenzhen Institute of Information Technology, Shenzhen 518172, Guangdong, China aLiumj@sziit.com.cn, bLiugc@sziit.com.cn Keywords: Cross Shear Rolling; Yield Criterion, Constitutive Model; Numerical Simulation Abstract.
Strips produced by rolling compaction are advanced in homogeneous and functional properties.
This process is advanced in its high compaction ratio, low rolling force and high precision.
Forum Vol. 561-565 (2007), p. 2143 [4] Y.