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Influence of Martensitic Transformation on the Fatigue of Low Temperature Metastable Stainless Steel Sergio Neves Monteiro1,a, Verônica Scarpini Cândido1,b, Luis Carlos da Silva1,c and Frederico Muylaert Margem2,d 1 Military Institute of Engineering - IME, Department of Materials Science; Praça General Tibúrcio, 80, Praia Vermelha, Urca, RJ, CEP 22290-270, Urca, Rio de Janeiro, RJ, Brazil. 2State University of the Northern Rio de Janeiro, UENF, Advanced Materials Laboratory, LAMAV; Av.
Forum Vols. 738-739 (2013), p. 217
Rethwisch: Materials Science and Engineering – An Introduction. (8th edition, John Wiley & Sons, Hoboken, NJ, USA, 2010)

Shear Strength and Performance of Glass-to-metal Brazed Joints Xihai Shen a∗, Chunxiang Sun b and Lichun Wang c CNPC Research Institute of Engineering Technology, 300451 Tianjin, China a shenxihai@yahoo.com.cn, b sunchunx@cnpc.com.cn, c wanglc@cnpc.com.cn Keywords: Glass-to-metal joint, Vacuum brazing, Finite element analysis, Shear strength ， Microstructure Abstract.
These experimental results provide an important theoretical and practical base for improving the shear strength and performance of brazed joints and may open a new way to accelerate the wide application of glass-to-metal seals in engineering structures.
Ling: Advanced Materials Research Vol. 44-46 (2008), p.765 [6] B.W.
Liao: Journal of Materials Processing Technology Vol.9 (1999) p.90 [7] Di XU, Xiang LING: Materials Science Forum Vol. 575-578 (2008), p.666 [8] Y.

Hosoda 3,d 1 National Institute for Material Science, Sengen 1-2-1, Tsukuba, Ibaraki, 305-0047, Japan, 2 Division of Materials Science and Engineering, Graduate School of Engineering, Hokkaido University, Kita-13, Nishi-8, Kita-ku, Sapporo, 060-8628, Japan, 3 Precision & Intelligence Laboratory (P&I Lab.), Tokyo Institute of Technology, 4529 Nagatsuta, Midori-ku, Yokohama, 226-8503, Japan a mitarai.yoko@nims.go.jp, bhara.toru@nims.go.jp, cmiura@eng.hokudai.ac.jp, d hosoda@pi.titech.ac.jp Keywords: martensitic transformation, B2, B19, PtTi Abstract.
On Advanced Materials Processing (PRICM-4), eds.
Forum, 426-432, (2003), p.2267

ABOUT FATIGUE TESTS END CRITERION IN ELEVATED TEMPERATURES Stanisław Mroziński 1,a, Michał Piotrowski 2,b 1,2) from University of Technology and Life Sciences in Bydgoszcz, Faculty of Mechanical Engineering, Al.
Journal of Achievements in Materials and Manufacturing Engineering.
Advanced Materials Research.
Fatigue Failure and Fracture Mechanics, Materials Science Forum Vol. 726 (2012) pp. 150-155.

The Progress of Mineral Processing Technology of Lead-zinc Mine in China Yu Chen1,2,a, Shuming Wen1,2,b*, Yijie Wang1,2,c, Qicheng Feng 1,2,d, Jinlin Li1,2,e, Chuanfa Cui 1,2,f 1State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization, Kunming University of Science and Technology, Kunming 650093, China 2Faculty of Land Resource Engineering, Kunming University of Science and Technology, Kunming 650093, China amjzchenyu@126.com, bshmwen@126.com (Corresponding Author), cyjwang2012@126.com, dfqckmust@126.com, e396613803@qq.com, fccf99999@126.com Keywords: Lead-zinc Mine, Technological Process, Flotation Reagents, Progress Abstract.
The progress of lead-zinc mineral processing technology Currently, advanced process of lead-zinc mineral processing technology in china includs: the full potential control flotation, the modified amine flotation, the chelating collector flotation, the branch series flotation, the asynchronous flotation asynchronous, partial high-speed selective flotation, beneficiation-metallurgy combination etc. 1.1 Combined process technology For the ore which has complex properties and contain large quantities of metals, it is difficult to achieve an ideal result with a single beneficiation method.
Forum Vol. 83-87 (1992), p. 119 [2] S.D.Wang and J.B.QIAO: Study on Beneficiation Technology of an Oxidized Lead-Zinc Ore with High Iron Content in Sichuan Province[J], Yunnan Metallurgy 3 (2011): 004
[7] L.Zheng, D.Zhang: Application of Potential Adjustment and Control Flotation in Fankou Lead-zinc Mine[J], China Mine Engineering,2005,34(2):1-4

The 3D Printer Design and Model Formation by a Commercial Inkjet Printing Module Chun-I Cheng1, Chun-Hao Chen 2 , Wei-Hsiang Lai3* , Sheng-Jye Hwang 4, Sen-Yung Lee 5 1 Chief Engineer, Mechanical Technology Research and Development Center, NCKU. 2 Graduate Student, Dept. of Aeronautics/Astronautics, NCKU
4 Professor, Dept. of Mechanical Engineering, NCKU
Introduction Rapid prototyping (RP) technology is an advanced manufacturing technology which is based on CAD/CAM system, laser or photo- coagulation, process control and material science.
[10] Wei-Hsiang Lai, Chun-I Cheng, Mon-U Huang and Hsiu-Ming Chang, "Model Support Algorithm in Powder Based Three Dimensional Printer," Materials Science Forum, Vols. 505-507, , pp. 1255-1260, Jan. 2006 [11] Wei-Hsiang Lai, Chun-I Cheng, "Method and Apparatus For Rapid Prototyping Using Computer-Printer Aided to Object Realization," ROC.

[3] Yusrina Mat Daud, Hussin Kamarudin, Che Mohd Ruzaidi, Azlin Fazlina Osman: Key Engineering Materials Vols. 594 (2014), p. 671-675
Dubois: Materials Science and Engineering: R: Reports Vol 28 (1-2) (2000), p. 1-63
[7] Utracki, L.A., Sepehr, M., Boccaleri, E., Synthetic :Polymers for Advanced Technologies Vol 18 (2007): p. 1-37
[11] Osman, A.F., Jack, K., Edwards, G., Martin D: Advanced Materials Research Vol. 832 (2014), p 27-32 [12] Zunjarrao SC, Sriraman R, Singh RP : J Mater Sci Vol. 41 (2006), p 2219–28
P.: Advance Polymer Science Vol.179 (2005), p 29–82

Hwang School of Materials Science and Engineering and Institute of Advanced Materials, Inha University, 253 Yonghyun-dong, Nam-ku, Incheon 402-751, Korea Key words: Titania, Photocatalyst, Sol-Gel, Transition metal, 1,4-dichlorobenzene Abstract.
The increase in activity is probably due to the increase in the interfacial electron transfer rate, red shifts, and better crystallinity Acknowledgement The authors gratefully acknowledge the financial support of the Korea Science and Engineering Foundation (Grant No. 31138) References [1] K.
Forum Vol. 449-452 (2004), pp. 1117

Research on Eco-campus and its Evaluation Method Caiyun YAO 1,a, Lahua JIN2,b * 1Department of Environmental Engineering, JINAN University, Guangzhou 510632, P.R.
China 2Department of Environmental Engineering, JINAN University, Guangzhou 510632, P.R.
Jinwei ZHANG et.al. considered that the essence of eco-campus is to mostly reduce the consumption of resources and energy and to lessen the amount of waste emissions in order to achieve the recycling of campus internal resource by using advanced scientific technology [4].
R&D Program Foundation ( 2012108101002) References [1] Dong-sheng ZOU, Zuo-wei GAN, Ding-wei MA: Forum on Contemporary Education, Vol.07(2008), P.95-98.

Multiscale Approach for the Damage Modeling of an Aluminum Casting Alloy with Stochastic Character Florence Andrieux1,a *, Dongzhi Sun1,b and Andreas Burblies2,c 1Fraunhofer Institute for Mechanics of Materials IWM Woehlerstr. 11, 79108 Freiburg, Germany 2Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM, Wiener Str. 12, 28359 Bremen, Germany aflorence.andrieux@iwm.fraunhofer.de, bdong-zhi.sun@iwm.fraunhofer.de, candreas.burblies@ifam.fraunhofer.de Keywords: aluminum casting alloy, porosity, pore morphology, Markov Random Field, damage modeling, representative volume elements (RVE), multi-scale, process chain.
Fig.2 Engineering stress vs. strain curves for different positions in the Y-Box.
Fig.3 Engineering stress vs. strain curves for 5 tests on tensile specimens from the same position with 4 fracture surfaces.
Andrieux, Modeling of the influence of pore morphology on damage behavior of an aluminum die casting alloy, Materials Science Forum, Proc. of 14th International Conference on Aluminum Alloys ICAA14, 794-796 (2014) 319-324