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Militzer b The Centre for Metallurgical Process Engineering, University of British Columbia Vancouver, B.C., Canada V6T 1Z4 Phone: (604) 822 6964, Fax: (604) 822 3619 a ffazeli@interchange.ubc.ca, bmilitzer@cmpe.ubc.ca Keywords: TRIP steels, phase transformations, modelling, non-recrystallized austenite, ferrite formation, bainite formation.
Similarly, it is proposed here to consider the effective grain size for a non-recrystallized austenite to describe the kinetics of ferrite formation in the framework of a mixed-mode model [6] that has already been applied to describe the austenite decomposition from recrystallized austenite in a number of advanced high strength steels [2-3,5].
Capturing the kinetics of austenite decomposition for both recrystallized and non-recrystallized cases with one set of parameters confirms the versatile capability of the proposed modeling framework Acknowledgments The authors wish to thank the Natural Sciences and Engineering and Research Council of Canada and Dofasco Inc. for providing the financial support; Dofasco Inc. supplied also the material for this study.
Forum, 500-5001 (2005), 329-338. 5.

Since that time, the importance of niobium regarding the development of engineering materials was recognized.
Its refinement, processing and utilization demand advanced technology and strict process control.
Experimental Part Nb-Ti alloys were produced at Lorena Engineering School (USP-EEL) in Lorena, Brazil.
Forum Vol. 258-260 (2006), p. 137

These transition metal elements have s, p and d electrons that can interact and influence various properties by the advanced electron cloud interaction and hybridization; the degree of β-phase stability is affected by the concentration of the aforementioned elements and the resulting final phases usually contain varying metastable products after rapid cooling and cold deformation.
Engineering (E) and true (T) stress–strain curves of Ti-17Nb-6Ta-3Zr alloy are plotted in Fig. 4.
(a) Typical compression stress-strain curves of Ti-17Nb-6Ta-3Zr alloy in the as homogenized condition [ stopped at 45% engineering strain] (b) Loading-deloading cyclic of homogenized alloy to calculate the elastic modulus.
Forum Vol. 889 (2017), p. 165

Erisov, Resistance to brittle fracture and availability of austenitic steels, IOP Conference Series: Materials Science and Engineering. 3 (450), (2018) 032041
Semin, Development of advanced patterns of cryogenic steels for gas vessels and stationary storage tanks of liquefied natural gas designed for Arctic conditions, Arctic: Ecology and Economy. 4 (24) (2016) 80-89
Igolkin, Strength of structural elements with cracks, IOP Conference Series: Materials Science and Engineering. 1 (826) (2020) 012015
Solovev, Energy Parameters of the Binder during Activation in the Vortex Layer Apparatus, Materials Science Forum, Vol. 945 (2019) 98-103.

The Influence of Inhomogeneous Deformation on the Microstructures and Properties of Thick-plate 7150 Alloy Feng Zhao1, a, Lingyong Cao1, Yujing Lang1, Hua Cui2, Linzhong Zhuang1 and Jishan Zhang1, b 1 State Key Laboratory for Advanced Metals and Materials, University of Science and Technology Beijing, Xueyuan Road 30, Haidian District, Beijing 100083, China 2 School of Materials Science and Engineering, University of Science and Technology Beijing, Xueyuan Road 30, Haidian District, Beijing 100083, China a phoenixzhf@gmail.com, b zhangjs@skl.ustb.edu.cn Keywords: Aluminum alloy, Thick-plate, Deformation, Precipitates, Properties.
Fig. 4 The engineering stress-strain curves (A – center layer, B – surface layer).
Forum ( 2002) 815-820

Tsuji2,d 1 Department of Materials Science and Engineering, Kyoto University, Kyoto, Japan 2 Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka a kumachi@t03.mbox.media.kyoto-u.ac.jp, btichi@mtl.kyoto-u.ac.jp, ce.matsubara@materials.mbox.media.kyoto-u.ac.jp, dtsuji@ams.eng.osaka-u.ac.jp Keywords: ARB aluminum, Ultrasonic damping, X-ray diffraction, Hall plot Abstract.
Acknowledgment This work was partly supported by Grant-in-Aid for Scientific Research on the Priority Area Investigation of ''Giant Straining Process for Advanced Materials Containing Ultra-High Density Lattice Defects'' from the Ministry of Education, Science, Sports and Culture, Japan.
Forum.

Impact of a Treatment Combining Nitrogen Plasma Exposure and Forming Gas Annealing on Defect Passivation of SiO2/SiC Interfaces Heiji Watanabe1-2,a, Yuu Watanabe1, Makoto Harada1, Yusuke Kagei1, Takashi Kirino1, Takuji Hosoi1,2, Takayoshi Shimura1, Shuhei Mitani3, Yuki Nakano3, and Takashi Nakamura3 1 Department of Material and Life Science, Graduate School of Engineering, Osaka University, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan 2 Research Center for Ultra-Precision Science and Technology, Graduate School of Engineering, Osaka University, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan 3 New Material Devices R&D Center, ROHM CO., LTD., 21 Saiin Mizosaki-cho, Ukyo-ku, Kyoto 615-8585, Japan a watanabe@mls.eng.osaka-u.ac.jp Keywords: MOS devices, interface properties, plasma nitridation, forming gas annealing, interface traps, fixed charge, defect passivation Abstract.
Among these devices, SiC-based metal-oxide-semiconductor field-effect transistors (MOSFETs) have gained considerable attention as advanced normally-off switching devices.
Forum Vol. 389-393 (2002), p. 985 [3] Y.

Bonding Strength of Top Coat and Its Fracture Mechanism in Thermal Barrier Coatings with Thermal Fatigue Jae-young Kwon1, Yeon-Gil Jung, Jung-Chel Chang2, Seong-Churl Choi2, Ungyu Paik2 1 School of Nano & Advanced Materials Engineering, Changwon National University, 9 Sarim-dong, Changwon, Kyungnam 641-773, Korea 2 Dept. of Ceramic Engineering, Hanyang University, 17 Haengdang-dong, Seongdong-gu, Seoul 133-791, Korea a Corresponding author: jungyg@changwon.ac.kr Keywords: bonding strength, fracture, resintering, thermal barrier coatings (TBCs), thermal fatigue Abstract.
Forum, Vol. 369-372 (2001), p. 711

Zhao 1, e 1 School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou, 510640, China 2 Foshan Polytechnic College, Foshan, Guangdong, 528237, China a byye@scut.edu.cn, cljp68@126.com, bmyq@tom.com, d zcz_505@163.com e mezhaoxz@scut.edu.cn Keywords: Pre-stress hard cutting, Screw, Fatigue failure, Residual stress Abstract.
As an advanced and clean cutting process, hard machining has a wide application in manufacturing area of aeronautic and astronautics industry, automobile and mould etc., it can cut ultra-hard material such as quench steel directly.
Liu: Key Engineering Materials, Vol. 315-316 (2006), p.526-530
Liu: Materials Science Forum, Vol. 532-533 (2006), p.528-531.

Nanoscale Dynamics at Reactive Wetting Front on SiC Shun-ichiro Tanaka 1 and Chihiro Iwamoto 2 1 Department of Engineering Physics, Electronics and Mechanics, Nagoya Institute of Technology Gokiso-cho, Showa-ku, Nagoya 466-8555, Japan, e-mail: tanaka.shun-ichiro@nitech.ac.jp 2 Department of Mechanical Engineering and Materials Science, Kumamoto University 2-40-1, Kurokami, Kumamoto 860-8555, Japan, e-mail: iwamoto@mech.kumamoto-u.ac.jp Keywords: reactive wetting, precursor tip, atomistic dynamic wetting, in situ observation Abstract.
Meeting on Advanced Materials, Tokyo, vol. 8 (Materials Research Soc., 1989) p.91 [2] C.
Tanaka; Materials Science Forum, 294-296, 589 (1999) [8] C.