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Vasiljeva: Applied Surface Science Vol. 255 (2009), pp.6391-6396 [2] I.
El Mansori: Journal of Materials Processing Technology Vol. 210 (2010) , pp.466-473 [3] D.J.
Ono: Journal of Materials Processing Technology Vol. 200 (2008), pp. 356-363 [6] T.
Shirakashi: Journal of Manufacturing Processes Vol. 7(2) (2005), pp.102-108 [7] M.J Chen, Q.L.
Li: Journal of Materials Processing Technology Vol.168 (2005), pp.75-82

This article makes a detailed introduction about the setup and tests a kind of typical materials of aero-engine hot end components.
In the experiment, heat losses from three aspects: remnant heat transfer in the insulating materials, heat radiation and heat conduction of thermocouples leads.
Journal of Thermophysics and Heat Transfer 1998; Vol. 12(No. 3): 374-381
Journal of Materials Processing Technology 2004; 145(2): 207-214
Rare Metal Materials and Engineering.

Rapid Laminated Manufacturing for Metallic Parts Based on Resistance Welding Double-station LOM CHENG Ronga, b,*, WU Xiao-yub, and LUO Wei-hongb aCollege of Materials Science and Engineering, Huazhong University of Science and Technolog Wuhan, China 430074 bShenzhen Key Laboratory of Advanced Manufacturing Technology for Mold&Die, Shenzhen, China 518060 Keywords: Rapid Prototyping; LOM; Resistance Welding; Rapid Tooling Abstract.The adhesive strength between the metallic sheets and the way to remove the waste are the key problems of the laminated object manufacturing (LOM) for metallic functional parts.
Murakami, Rapid prototyping for functional modeling materials[J].
Obikawa, Development of rapid manufacturing system with thick steel sheet as modeling materials[J].
Journal of Materials Processing Technology 150 (2004) 175–181
Journal of Materials Processing Technology 150 (2004) 175–181 [11] WU Xiao-yu, Ruan Shuang-shen, Cheng Rong, et al.

Microstructures of Fe-Pd Alloy Ribbons Subjected to Rapidly Solidified Melt Spinning Yoichi KISHI1, a, Takeshi KUBOTA2, Zenjiro YAJIMA1 Teiko OKAZAKI3, Yasubumi FURUYA3 and Manfred WUTTIG4 1 AMS R and D Center, Kanazawa Institute of Technology, Hakusan, Japan 2 NJRISE, Hirosaki University, Aomori, Japan 3 Faculty of Science and Technology, Hirosaki University, Hirosaki, Japan 4 Department of Materials Science and Engineering, University of Maryland, MD, USA a kishi@neptune.kanazawa-it.ac.jp Keywords: Martensitic transformation, Ferromagnetic Shape Memory Alloy, Pole Figure, Texture, Transmission Electron Microscope Abstract.
Watanabe, Shape Memory Effect and Magnetiostriction in Rapidly Solidified Fe-29.6at%Pd Alloy, Materials Transactions, JIM, 39 (1998) 1248-1254
Wuttig, Crossing and Detwinning of Fully Twinned Martensites in Rapidly Solidified CoNiGa Alloy Ribbons, Materials Science and Engineering A, 481–482 (2008) 442–445
Hu, Textural and Shape Memory Characteristics of Fe–29.9 at.% Pd Melt-Spun Ribbons, Smart Materials and Structures, 12 (2003) 242–248
Fujita, Transmission Electron Microscopy of FCC-FCT Termoelastic Martensite Transformation in Fe-Pd Alloys, Journal of Japan Institute of Metals, 48, (1984) 881-889.

Metal material and intensity album (second) [M].
The Strength of Metal Materials[M].
Journal of Mechanical Strength. 2003. 25(5):196-199 [7] Nicholas T.
Fatigue Fracture of Engineering Materials Structures [J] . 2002. 25:861-869 [8] WANG Z ,Chen ZW.
The Strengthening Effect and Damage Under Fatigue Limit[J].Journal of Northeastern University(Natural Science). 1996 17(3) 338-341 [10] Ishihara S,McEvily A J.

H2S is not only attack metal materials, but also being toxic which can severely threaten people’s lives[1,2].
In this paper, we applied periodic density functional theory(DFT) to investigate the adsorption of S on Fe(111) surface, this work is meaningful for the design of corrosion-resisting materials and anti-corrosion inhibitors in the future.
Methods and Models All calculations were carried out at the DFT level with the CASTEP program in the Materials Studio package.
[8] Siddiqui R A, Journal of Materials Processing Technology, 170(2005), 430
[10] Alfonso D R, Surface Science, 602(2008), 2758

W-Ti Alloy Prepared by Hydrogen Reduction of Nanometer WO3-TiH2 Powders Peng Xiaoa, Yingchun Qub , Xiaohong Yangc and Shuhua Liangd School of Materials Science and Engineering, Xi’an University of Technology, Xi’an 710048, China axiaopeng01@xaut.edu.cn, bququhhxx@126.com, cyangxh@xaut.edu.cn, dliangsh@xaut.edu.cn Keywords: W-10Ti alloy, Milling, Hydrogen-reduction, Solid-phase sintering Abstract.
Introduction With the rapid development of ultra large scale integrated circuits, the thin film materials are widely used in the electronic information industry.
Experimental methods Commercial WO3 (99.9% purity and particle sizes about 50μm) and TiH2 (99.7% purity and average sizes of 38μm) powders were used as raw materials.
Chinese Journal of Rare Metal 30 (2006) 1-4
Fu, Influence of heating rate on heat decomposition of TiH2, Rare Metal Materials and Engineering, 39 (2010) 1107-1109

Synthesis and characterization of poly (methyl methacrylate) -grafted-cellulose nanofiber Chun WANG1,a, Qing LI1, Jianhua YANG1, Junya WADA1, Takahiko KAWAI2,b, Yoshinori KASAI3,c, Hisato HAYASHI3, d, and Shin-ichi KURODA2, e* 1Graduate School of Engineering, Gunma University, Ota, Gunma 373-0057, Japan 2Faculty of Science and Technology, Gunma University, Ota, Gunma 373-0057, Japan 3Nissan Chemical Industries, Ltd., Chiyoda-ku, Tokyo 101-0054, Japan achunwang213@gmail.com, bkawaitakahiko@gunma-u.ac.jp, ckasaiyo@nissanchem.co.jp, dhayashihi@nissanchem.co.jp, eskuroda@gunma-u.ac.jp Keywords: Cellulose nanofibers, PMMA, Graft polymerization, Surface modification, Abstract.
Introduction The production of cellulose nanofibers (CeNFs) and their application in composite materials has gained increasing attention due to their high strength and stiffness combined with low weight, biodegradability, and renewability [1-4].
Puig: Journal of Applied Polymer Science, Vol. 66(2), 339-346 (1997)
Patra: Journal of Applied Polymer Science, Vol.91 (2), 981-990 (2004)
[5] F.Fahma, N.Hori, T.Iwata, A,Takemura: Journal of Applied Polymer Science, Vol.128(3) 1563-1568 (2012)

Progress in Materials Science (2024): 101361
Materials Science and Engineering: C 102 (2019): 844-862
Materials & Design (2024): 112850
Materials Technology 31.12 (2016): 696-704
"Overview of Surface Modification Techniques for Titanium Alloys in Modern Material Science: A Comprehensive Analysis.

Numerical investigation for evaluation and prevention of casting defects in TiAl alloys Ildiko Peter1, a *, Mario Rosso1,b and Ilaria Forno1,c 1 Politecnico di Torino, Department of Applied Science and Technology Institute of Science & Engineering of Materials for the Innovative Technologies, Corso Duca degli Abruzzi 24, 10129 Torino, Italy aildiko.peter@polito.it, bmario.rosso@polito.it, cilaria.forno@polito.it Keywords: Ti-Al alloys, numerical investigation, casting defects.
For the calculation of the temperature field in the casting system, all the involved materials have to be appropriately described: i.e. density, specific heat capacity and thermal conductivity are required for all the thermally involved materials (metal alloy, mould and cores material).
Loretto (Eds.), Gamma Titanium Aluminides 1999, TheMinerals, Metals & Materials Society, Warrendale, PA, 1999, p. 3-8
[6] Dapeng Zhao, Keke Chang, Thomas Ebel, Ma Qian, Regine Willumeit, Ming Yan, Florian Pyczak, Microstructure and mechanical behavior of metal injection molded Ti–Nb binary alloys as biomedical material, Journal of the Mechanical Behavior of Biomedical Materials, Volume 28, 2013, p.171-182
Ghiban, Investigation on cobalt based alloy modified by titanium for dental application, Archives of Materials Science and Engineering Vol. 61, Issue 2, 2013, p. 62-68