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Zhao1,d 1Department of Materials Science & Engineering, Xi’an University of Technology, Xi’an, China 2The 2nd Research Institute of China Electronics Technology Group Corporation, Taiyuan, China amaokaili001@aliyun.com, bwymzll@126.com, ccetclb@163.com, dzhaogy@xaut.edu.cn Keywords: Silicon Carbide; Obtuse Triangular Defects; Confocal Microscope; Photoluminescence Abstract: The obtuse triangular defects would result in higher leakage currents and the preferential gate oxide breakdown of SiC devices.
Forum, 740-742, p.649-652 (2013)
Forum, 679-680, p.123-126 (2011)
Forum, 778-780, p.309-312 (2014)
Forum, 778-780, p.394-397 (2014)

An understanding of boron diffusion post rapid thermal annealing in general, and out of in situ doped epitaxially grown silicon-germanium films in particular, is essential to hetero junction engineering in microelectronic device technology today.
Introduction Engineering of in situ Boron doped junctions in microelectronic technology is key to enable high performance devices [5-6].
Based on advanced rapid thermal anneal experiments post Born implant and LDD model approximation [3], diffusion learning can be transferred to in situ Boron doped applications, because the diffusion model remains the same.
As shown in sample overview of Tab. 1, several samples got processed further by Spike anneal at 1070°C and rapid thermal anneal (RTA) at 1050°C/5s, advanced thermal processes as typical in semiconductor industry [12].
-J.; Herzog, O.; Ruelke, H.; Hubler, P.; Stephan, R.; Greenlaw, D.; Raab, M.; Kepler, N.; Chen, H.; Chidambarrao, D.; Fried, D.; Holt, J.; Lee, W.; Nii, H.; Panda, S.; Sato, T.; Waite, A.; Liming, S.; Rim, K.; Schepis, D.; Khare, M.; Huang, S.F.; Pellerin, J.; Su, L.T.; "Integration and optimization of embedded-sige, compressive and tensile stressed liner films, and stress memorization in advanced SOI CMOS technologies," Electron Devices Meeting, 2005.

There have been substantial advances in the understanding of both of these phenomena over the last two decades.
Finally, a list of six key considerations is provided to help casthouse and foundry engineers when trying to optimise grain refinement and reduce hot tearing.
[3] Easton, M.A. and StJohn, D.H. (2007) Theoretical Advances Leading to Improvement in Commercial Grain Refinement Practices in Al Alloys, Materials Forum, 31: 57-63
[5] Easton, M.A. and StJohn, D.H. (2008) Improved prediction of the grain size of aluminium alloys that includes the effect of cooling rate, Materials Science and Engineering A, 486(1-2): 8-13
Nie, J.F., Zhang, X. and Couper, M.J. (2004) The effect of Ti Content on the Mechanical Properties of an Al7Si0.35Mg Alloy, Materials Forum, 28: 12221228

In the last decade new coatings with advanced substrate materials have allowed to implement tools in more extreme conditions, e.g. applying higher working temperatures and higher contact pressures to the coating [1-5].
Financial support from the R&D programme „Materials technology” is acknowledged for supporting the project „Advanced thin hard coatings in tooling” No.
Forum. 681 (2011) 455-460
Forum. 681 (2011) 165-170
Forum. 404-407 (2002) 849-854

Preface International Conference on Structural Integrity and Failure, SIF 2010 The International Conference on Structural Integrity and Failure, SIF2010, was organized by the Chemical & Materials Engineering Department for the Australian Fracture Group, AFG, and held in the School of Engineering at The University of Auckland, from July 5th -7th 2010.
The conference provided a forum for materials and engineering research groups in Australia, Asia and New Zealand to present and discuss up-to-date research results and findings from their research on fracture and fatigue of all types of materials and structures, including biological tissue, metals, ceramics, polymers, composites and thin films.
The strong international presence at SIF 2010 stems from good links between committee members and overseas friends and colleagues, and especially a very productive collaborative Exchange Agreement between the Schools of Engineering of The University of Tokushima and The University of Auckland.
SMNZI, Society of Materials New Zealand Incorporated, is a collaborating technical society of the Institution of Professional Engineers New Zealand and started life in 1964 as The Metallurgical Society; CACM, the Centre for Advanced Composite Materials is a Research Centre in The Mechanical Engineering Department.
, The University of Auckland hemical aterials ENGINEERING C M & Supported by:

Growth and Characterization of Thick Multi-Layer 4H-SiC Epiwafer for Very High-Voltage p-Channel IGBTs Tetsuya Miyazawa1,a *, Koji Nakayama2,b, Atsushi Tanaka2,c, Katsunori Asano2,d, Shi-yang Ji3,e, Kazutoshi Kojima3,f, Yuuki Ishida3,g, and Hidekazu Tsuchida1,h 1Central Research Institute of Electric Power Industry (CRIEPI), 2-6-1 Nagasaka, Yokosuka, Kanagawa, 240-0196, Japan 2Power Engineering R&D Center, Kansai Electric Power Co., Inc., 3-11-20 Nakoji, Amagasaki, Hyogo, 661-0974, Japan 3National Institute of Advanced Industrial Science and Technology, 1-1-1 Umezono, Tsukuba, Ibaraki, 305-8568, Japan ayo-miya@criepi.denken.or.jp, bnakayama.koji@a3.kepco.co.jp, ctanaka.atsushi@b5.kepco.co.jp, dasano.katsunori@c2.kepco.co.jp, eaist-ki@aist.go.jp, fkazu-kojima@aist.go.jp, gy-ishida@aist.go.jp, htsuchida@criepi.denken.or.jp Keywords: 4H-SiC, epitaxial growth, IGBT, high voltage, carrier lifetime Abstract.
Forum 778-780 (2014) 1030
Forum 778-780 (2014) 1038

Design and Simulation Analysis of Compost Pallet Transfer Device of Agaricus Bisporus Factory Cultivation Wuyun Zhao1,a, Jie Yang1,b, XuepengTang1,c, Fei Dai1,d 1School of Engineering, Gansu Agricultural University, Lanzhou 730070, PR China a zhaowy@gsau.edu.cn, byj2511@126.com, cgndtxp@163.com, d442670867@qq.com Key words:Agaricus bisporus; Factory; Compost pallet; Transfer device; Motion simulation Abstract.
The introduction of foreign advanced machinery and equipment businesses with their own reality, to optimize the innovation of foreign products.
Forum Vol.20(2012), p. 4627.
Mycelium liquid culture medium of edible fungi of China.Forum Vol. 4 (2007),p. 34.

MEMC2012 is a comprehensive conference,and it is an integrated conference concentrating its focus upon Engineering Materials, Energy,Management and Control.
In the proceeding, you can learn much more knowledge about Engineering Materials, Energy,Management and Control of researchers all around the world.
In order to meet high standard of Advanced Material Research,the organization committee has made their efforts to do the following things.
The goal of the conference is to provide researchers from Engineering Materials, Energy,Management and Control.
fields with a free exchanging forum to share the new ideas, new innovation and solutions with each other.

Preface MECB2013 is a comprehensive conference,and it is an integrated conference concentrating its focus upon Material Engineering,Chemistry and Bioinformatics.
In the proceeding, you can learn much more knowledge about Material Engineering,Chemistry and Bioinformatics of researchers all around the world.
In order to meet high standard of Advanced Material Research,the organization committee has made their efforts to do the following things.
The goal of the conference is to provide researchers from Material Engineering,Chemistry and Bioinformatics fields with a free exchanging forum to share the new ideas, new innovation and solutions with each other.

Introduction Modern metallic and ceramic materials used in structural components for industrial systems are at their performance limits to attend the levels of properties, specially the mechanical strength, hardness and stiffness, required by new engineering projects.
Poltoratsky: Innovative Superhard Materials and Sustainable Coatings for Advanced Manufacturing Vol. 200 (2005), p.357
Tardim: Materials Science Forum Vols. 660-661 (2010), p. 848
Tardim: Materials Science Forum Vol. 660 (2010), p. 483.