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Citation & Copyright (to be inserted by the publisher ) Texture of Electrodeposited Ni Films Insoo Kim 1 � , Dong Young Sung 1, Byung Hyun Park 1, Min Gu Lee1 1 School of Advanced Materials and Systems Engineering, Kum Oh National Institute of Technology, Kumi, Kyung Buk, Korea, 730-701 Keywords: Ni Electrodeposits, Pulse, Additive, Texture, Nanocrystalline, Inverse pole figure, Surface roughness, Strain energy release maximization model, Recrystallization texture Abstract.
Forum, Vol. 408-412 (2002), p. 75 [8] D.N.

Numerical investigations on the grinding forces in ultrasonic assisted grinding of SiC ceramics by using SPH method LIANG Zhiqiang1, a , MI Zhaoyang1, b , WANG Xibin1, c, ZHOU Tianfeng1, d, WU Yongbo2, e and ZHAO Wenxiang1, f 1Key Laboratory of Fundamental Science for Advanced Machining, Beijing Institute of Technology, Beijing 100081, China 2Department of Machine Intelligence and Systems Engineering, Akita Prefectural University, Akita 015-0055, Japan aliangzhiqiang@bit.edu.cn, bkuziying@126.com, ccutting0@bit.edu.cn, dzhoutf@bit.edu.cn, ewuyb@akita-pu.ac.jp, fzhaowx@bit.edu.cn Keywords: Grinding, Ultrasonic assisted grinding (UAG), Smoothed particle hydrodynamic method (SPH), SiC ceramics, Grinding force Abstract.
Wu, et al.: Materials Science Forum. 471-472 (2004) 101-106

Introduction In engineering practice, composites are used increasingly as more and more expectations must be met and at the same time the environmental regulations become more strict.
Also the increase in performance (micro-electronics) and weight reduction (automobile industry) should be implemented at the same time, thus development engineers have to create more and more advanced materials [1].
Kieback: Dimensional behaviour of aluminium sintered in different atmospheres, Materials Science and Engineering A 478 (2008) 251–256 [4] G.
Kunesch: Advanced material by powder metallurgy - science and technology, Solid State Phenomena Vols. 8-9 (1990) pp 3-36 [5] Z.
He, Effects of particle size and distribution on the mechanical properties of SiC reinforced Al–Cu alloy composites, Materials Science and Engineering A 528 (2011) pp.1131–1137

Martikainen, Welding of Ultra High Strength Steels, Advanced Materials Research, Vol. 849, (2014) pp. 357-365
Zeman, Prevention of cold cracking in ultra-high strength steel Weldox 1300, Archives of Civil and Mechanical Engineering 14 (2014) pp. 417-424
Lisiecki, Laser welding of new grade of advanced high strength steel Strenx 1100 MC, Arch.
Branco: High-Strength Steels, New trends is production and application, Mechanical Engineering Theory of Application, nova science publisher New York, 2018. pp. 144-198
Sisodia, Improving the HAZ toughness of Q+T high strength steels by post weld heat treatment, IOP Conference Series, Materials Science and Engineering 426, Paper: 012012, 2018

Yang4,** 1College of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, China 2Research center of Advanced Materials Science and Technology, Taiyuan University of Technology, Taiyuan 030024, China 3MicroNano System Research Center, Taiyuan University of Technology, Taiyuan 030024, China 4Research Institute of Surface Engineering, Taiyuan University of Technology, Taiyuan 030024, China *qiaojunwei@gmail.com, awangyinfeng123@gmail.com, bwangrenquan-123@163.com, cshijuyan@tyut.edu.cn, dsangshengbo@tyut.edu.cn, **yanghuijun@tyut.edu.cn Keywords: High-entropy alloy, Heat treatment, Mechanical properties, Dynamic loading.
Among these advanced materials, high-entropy alloys (HEAs) possess super mechanical performances together with the simple casting, rendering them potential candidates for use as new engineering structural materials.
The room-temperature engineering stress-strain curves are shown in Figure 4.
For actual engineering applications, the attainment of both strength and toughness is a vital requirement for most structural materials [18].
Forum. 688 (2011) 419-425

This special collection comprises 200 peer-reviewed papers divided into chapters according to the type of material, its applications, characterization or simulation:
Chapter 1 - Biomaterials (19 papers); Chapter 2 - Ceramics (16 papers); Chapter 3 - Composite Materials (15 papers); Chapter 4 - Electronic, Magnetic and Photonic Materials (20 papers); Chapter 5 - Metals and Alloys (17 papers); Chapter 6 - Nano and Microstructural Materials (12 papers); Chapter 7 - Polymers (17 papers); Chapter 8 - Paper, Textiles, Wood and Cork (7 papers) Chapter 9 - Smart Materials (6 papers); Chapter 10 - Advances in Materials Characterization (7 papers); Chapter 11 - Materials and Processing Modelling (9 papers); Chapter 12 - Recycling (10 papers); Chapter 13 - Surfaces, Interfaces and Membranes (12 papers); Chapter 14 - Materials for Civil Engineering Applications (12 papers); Chapter 15 - Materials for Energy Production, Transport, Storage and Mechanical Engineering Applications (14 papers); Chapter

Subjects on Fatigue Crack Generation in High Strength Alloys for Long-life Design Osamu Umezawa1,2,a , Satoshi Morooka1,2,b 1 Department of Materials Science and Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya, Yokohama, 240-8501, Japan 2 Fundamental Studies on Technologies for Steel Materials with Enhanced Strength and Functions, Consortium of the JRCM, Tokyo, Japan aumezawa@ynu.ac.jp, bmoro-ka@ynu.ac.jp Keywords: fatigue crack initiationl; strain incompatibility; strain gradient; stress concentration; microcrack.
Shinohara: Materials Science Forum Vol. 555 (2007), p. 1 [2] O.
Hiraoka: Processing and Fabrication of Advanced Materials XVIII, edited by M.

Electrochemical Properties of P-doped Silicon Thin Film Anodes of Lithium Ion Batteries Arenst Andreas Arie1,a and Joong Kee Lee2,b 1Department of Chemical Engineering, Faculty of Industrial Technology, Parahyangan Catholic University, Ciumbuleuit 94, Bandung 40141 Indonesia 2Energy Storage Research Center, Korea Institute of Science and Technology, Hwarangno 14-gil 5, Seongbuk Gu, Seoul 136-791, Republic of Korea aarenst@unpar.ac.id, bleejk@kist.re.kr Keywords: Lithium ion battery; Doping; P type silicon; Electrical Conductivity Abstract.
Aurbach, A review of advanced and practical lithium battery materials, J.
Defect and Diffusion Forum 326-328 (2012) 87-92.

Spencer 4,d and Amit Lal5e 1,2,3,4,5 School of Electrical and Computer Engineering Phillips Hall, Cornell University Ithaca, NY 14850, USA a chandra.mvs@gmail.com, b cit4@cornell.edu , c hl286@cornell.edu , d spencer@ece.cornell.edu , e lal@ece.cornell.edu Keywords: 4H-SiC, pn junction, pn diode, betavoltaic, radiation, beta, efficiency, Nickel-63, isotopes Abstract.
This work was supported by the Defense Advanced Research Project Agency (DARPA) under contract #W314P46-04-1-R002 under the direction of contract monitor Dr.
Forum 264-268 (1998), p. 1037 [8] Ho-Young Cha, Y.C.

Compare with international advanced level, the reliability level of internal electromagnetic flowmeter is still has a long way to go.
It's testified that it's available to using the method of grey correlation analysis in engineering practice.
Lin: Int J Adv Manuf Technol Vol. 27 (2006), p. 845-853 [4] Sifeng Liu: Journal of Nanjing University of Aeronautics& Astronautics Vol. 36 (2004), p. 267-272 [5] Tie Wang, Shuwen Zhou, Qing Wing, Dechun Ba: Journal of Northeastern University (Natural Science) Vol. 29 (2009), p. 383-386 [6] Chi-Chun Huang, Hahn-Ming Lee: Appl Intell Vol. 25 (2006), p. 243-251 [7] Bo Zeng, Sifeng Liu: Statistics & Information Forum Vol. 24 (2009), p. 22-26