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The authors would like to thank Richard Jefferies and Andrew Graham from the cleanroom facility at the School of Engineering, University of Warwick, for their generous support during device fabrication and characterization. 
Pantelides et al., “Si/SiO2 and SiC/SiO2 Interfaces for MOSFETs – Challenges and Advances,” Materials Science Forum, vol. 527–529, pp. 935–948, Oct. 2006, doi: 10.4028/www.scientific.net/msf.527-529.935
Vasilevskiy, “Advancing Silicon Carbide Electronics Technology II Core Technologies of Silicon Carbide Device Processing,” 2020.
Hosoi et al., “AlON/SiO2 stacked gate dielectrics for 4H-SiC MIS devices,” in Materials Science Forum, Trans Tech Publications Ltd, 2009, pp. 541–544. doi: 10.4028/www.scientific.net/MSF.615-617.541
Mawby, “Reliability study of mos capacitors fabricated on 3c-sic/si substrates,” in Materials Science Forum, Trans Tech Publications Ltd, 2020, pp. 659–664. doi: 10.4028/www.scientific.net/MSF.1004.659

Cole3 1 Chongqing Engineering Research Center for Magnesium Alloys, Chongqing University, Chongqing 400044, China 2 College of Material Science and Engineering, Chongqing Institute of Technology, Chongqing 400050, China 3 Light Weight Strategies, Franklin, MI48025, USA a fspan@cqu.edu.cn; byangmingbo@cqit.edu.cn, c mayanlong@cqit.edu.cn Keywords: Magnesium alloy; wrought magnesium alloy; processing technology Abstract: This paper reviews the latest research and development status of processing technologies for wrought magnesium alloys including extrusion, forging, (twin-roll) thin strip casting, rolling, stamping, and superplastic forming.
Twin-roll thin strip casting of magnesium alloy Twin-roll thin strip casting is considered a promising advanced technology for wrought magnesium alloys.
No.1(2005), p.91 [12] A.Yamashit and Z Horit: Materials Science and Engineering.
Cisar: Materials Science Forum Vol. 419-422(2003), p.243 [16] Y.
Watari: Materials Science Forum Vol.426-432 (2003), p.617 [46] R.

Citation & Copyright (to be inserted by the publisher ) Advanced Processing Techniques for Silicon Carbide MEMS and NEMS C.
Mehregany Department of Electrical Engineering and Computer Science Case Western Reserve University, Cleveland, Ohio 44106 Keywords: MEMS, NEMS, surface micromachining, APCVD, LPCVD, poly-SiC, 3C-SiC Abstract.
This paper reviews several key achievements that have significantly advanced the development of SiC MEMS and NEMS.
This paper reviews several key achievements that have been made by our group to significantly advance the use of SiC in MEMS and NEMS.
Forum Vol. 389-393 (2002), p. 755

The microstructure and phase composition was analyzed by Hitachi-S3400 SEM, BRUKERD8-ADVANCE XRD.
Powder Metall Vol. 29(1993), p. 321 [4] Liu M P, Wang Q D, Liu Z L: Journal of Materials Science Letters Vol. 21(2002), p. 1281 [5] Peng J G, Wang Q D, Liu M P, et al: Material Science Forum Vol. 488-489(2005), p. 257 [6] Li Z L, Ren H P, Wang Y F, et al: Advanced Materials Research Vol. 189-193(2011), p. 1194 [7] Zhendong Wang, Wei Chen, Youqi Wang: Ordnance Material Science and Engineering Vol. 32(2009), p. 96 (In Chinese) [8] Zhenhua Chen, Weijun Xia, Hongge Yan, et al: Wrought Magnesium Alloys (Chemical Industry Press, Beijing 2005)(In Chinese) [9] Pekgularyuz M, Renand J: Mine Metals & Mater Soc Vol. 279(2000), p. 578 [10]Shi L L, Xu J, Evan M: Metals & Materials Society and ASM International Vol. 39(2008), p. 1225

Life-Cycle Low-Carbon Neighborhood: A Genetic Perspective in China Guochao Zhao1,a*, Xiaoming Wang2,b and Xiaokang Li3,c School of Civil Engineering and Mechanics, Huazhong University of Science and Technology, Wuhan 430074, China.
The World Economic Forum’s Global Risks Report 2016 has considered the failure of climate change mitigation and adaptation as the greatest potential risk of 2016.
S. (2005) first advances the concept of building energy gene and constructs the building energy gene theory, which provides a scientific method to accurately grasp the variation law of building energy consumption.
Based on the concept above we regard low-carbon neighborhood as a comprehensive trait which contain the following six traits: low-carbon layout planning, low-carbon building, low-carbon traffic, low-carbon environment, low-carbon municipal engineering and low-carbon construction management while each trait could also be divide into several traits which was shown in the Table 1.
Then we made a classification of low-carbon traits and classified them into following six traits: low-carbon layout planning, low-carbon building, low-carbon traffic, low-carbon environment, low-carbon municipal engineering and low-carbon construction management.

New Thought for Designing the Multi-Phase and Multi-Scale Nanocomposite Ceramic Tool Materials Hanlian Liu 1,a , Chuanzhen Huang1,b, Xinying Teng2,c and Hui Wang1 1 Centre for Advanced Jet Engineering Technologies (CaJET), School of Mechanical Engineering, Shandong University, Jinan, China, 250061 2 School of Materials Science and Engineering, University of Jinan, Jinan, China, 250022 a lhl70@sdu.edu.cn; bchuanzhenh@sdu.edu.cn; c mse_tengxy@ujn.edu.cn Keywords: Nanocomposites, Ceramic tool materials, Microstructure, Multi-phase and multi-scale, mechanical properties Abstract.
An advanced ceramic tool material has been fabricated based on this new thought.
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Zhao: China Mechanical Engineering, Vol.12 (2001) No.10, pp.1198.
Teng: Materials Science Forum, Vol.532-533 (2006), pp.245.

Borisade, Zinc-aluminum (ZA-27)-based metal matrix composites: a review article of synthesis, reinforcement, microstructural, mechanical, and corrosion characteristics, International Journal of Advanced Manufacturing Technology. 100(1-4) (2019) 373-380
Series: Materials Science and Engineering. 969 (2020) 012021
Series: Materials Science and Engineering. 570 (2019) 012072
Series: Materials Science and Engineering. 570 (2019) 012039
Series: Materials Science and Engineering. 240 (2017) 012019.

Annealing Textures of Thin Films and Copper Interconnects Dong Nyung Lee Research Institute of Advanced Materials and School of Materials Science and Engineering Seoul National University, Seoul 151-744, Korea dnlee@snu.ac.kr Keywords: Aluminum, copper, silver, nickel, Fe-Ni alloys, Ni-Co-P alloys, chromium, thin films, copper interconnect, annealing, recrystallization, abnormal grain growth, texture.
Forum 408-412 (2002) 75
Forum.
Lee: Mechanical Properties of Advanced Engineering Materials (Proc.
Forum. 408-412 (2002) 895

Indeed, these tools are very advanced versions of the mentioned codes.
Engineering Computations, 2009. 26(8): p. 1026-1055
Medical Engineering & Physics, 2006. 28(9): p. 916-924
International Journal of Engineering, 2013. 2(1)
University of Michigan, College of Engineering.: USA

Today process and material developments e.g. go for energy saving, rise in productivity, advanced surface requirements, HSLA and multiphase steel grades combining higher strength and ductility as well as multiphase steel grades for hot dip galvanizing.
Figure 2 highlights the close link between the plant- and automation-engineering progress and the specific production technology of individual products.
Hennig, "Processing of Dual-Phase Steel on CSP® Plants", in Proc. of AIST International Conference on Advanced High Strength Sheet Steels for Automotive Applications, June 6-9, 2004 Winter Park, Colorado (USA), pp. 141-151 [6] W.
Böcher, "Advanced CSP® Products and Product Quality, SEASI Seminar on Sustainable New Technology and Plant Rationalisation on Process, Product and environment in Steel Industry, Singapore, November 14-16 (2005)
Bruns, "Advanced Steel Grades and Quality Issues of Compact Strip Production", Iron & Steel Review, Special Edition SMS Demag, ISSN 0578-7661, 2007, pp. 43-46 [8] C.P.