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Oxidation of Pentatitanium Trisilicide (Ti5Si3) Powder at High Temperature Jun-ichi Matsushita1,a, Tatsuki Satsukawa1, Naoya Iwamoto1, Xiaoling Wang2, Jianfeng Yang3, Tomoyo Goto4, Tohru Sekino4, Xiaoyong Wu5, Shu Yin5, and Tsugio Sato5 1 Department of Materials Science, Tokai University, Hiratsuka 259-1292, Japan 2 School of Mechanical Engineering, University Science and Technology Beijing, Beijing 100083, China 3 School of Materials Science & Engineering, Xi'an Jiaotong University, Xi'an 710049, China 4 The Institute of Scientific and Industrial Research, Osaka University, Osaka 567-0041, Japan 5 Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai 980-8577, Japan a Corresponding e-mail: matsushita@tsc.u-tokai.ac.jp Keywords: Ti5Si3, Oxidation, Oxidation behavior, Oxidation resistance Abstract.
The oxidation of pentatitanium trisilicide (Ti5Si3) powder at high temperature was investigated in order to determine the suitability of this ceramic material for advanced application in an oxidation atmosphere at high temperature.
Titanium silicide has been attracted for years as an engineering ceramics due to its high hardness, high melting point, and good chemical stability.
In this study, the isothermal high temperature oxidation of commercial Ti5Si3 powder is investigated in order to determine the suitability of this ceramic material for advanced application at high temperature.
Forum, 761 (2013) 125-129.

Preface The volume contains selected peer-reviewed papers presented at the AMS-Workshop “Advances in Materials Sciences-2020”, which took place in the framework of the III International Conference on Advanced Technologies in Aerospace, Mechanical and Automation Engineering - MIST: Aerospace-III-2020 on November 20-21, 2020 (Krasnoyarsk, Russian Federation).
The Conference was jointly organised by the International and Russian Union of Scientific and Engineering Associations (Moscow, Russia), Krasnoyarsk Regional Union of Scientific and Engineering Associations, and Krasnoyarsk Science and Technology City Hall.
The Program Committee and Editorial Board included prominent professors and scientists from the Russian and International Union of Scientific and Engineering Associations, Russian Academy of Sciences, University of Maribor (Slovenia), Chinese-Ukrainian University (China), Ruhr University in Bochum (Germany), Siberian Federal University (Russia), Reshetnev Siberian State University of Science and Technology (Russia), Voronezh State Technical University (Russia) as well as specialists from Russian and foreign leading industrial enterprises.
We chose the Materials Science Forum to provide all contributors with the opportunity to publish their papers in an international, peer-reviewed journal.

Structure and Properties of Ni˗Al˗Ti Systems Formed by Combustion Synthesis Tri Widodo Besar Riyadi1,a* 1Faculty of Engineering, Universitas Muhammadiyah Surakarta, Jl.
Morsi, “Review: reaction synthesis processing of Ni–Al intermetallic materials”, Materials Science and Engineering: A, vol. 299, no. 1–2, pp. 1–15, Feb. 2001
Liu, “Adiabatic temperature of combustion synthesis of Al–Ni systems,” Materials Science and Engineering: A, vol. 357, no. 1–2, pp. 248–257, Sep. 2003
Sheng, "Microstructure, Mechanical and Tribological Properties of the Rapidly Solidified NiAl/Cr(Mo,Dy) Hypoeutectic Alloy", Materials Science Forum, Vol. 849, pp. 590-596, 2016 [8] Li Ma, Hong Zhi Cui, Li Li Cao, Fang Lei Teng, Ning Cui, Lei Liu, "The Synthesis of Porous TiC-TiB2-NiAl Composites by SHS", Advanced Materials Research, Vols. 634-638, pp. 2110-2118, 2013 [9] Riyadi T.W.B, Tao Zhang, Denis Marchant, Xiaomeng Zhu, “NiAl–TiC–Al2O3 composite formed by self-propagation high-temperature synthesis process: Combustion behaviour, microstructure, and properties”, Journal of Alloys and Compounds Volume 805, 15 October 2019, Pages 104-112
Feng, “Combustion synthesis of advanced materials: Part I.

ICMSM2013 provided a forum for academic scientists, leading engineers, industry researchers and scholar students to exchange and share their experiences and research results.
ICMSM2013 aims to cover the recent advancement and trends in the area of new materials, advanced materials, advanced manufacturing technologies, and manufacturing systems and automation to facilitate knowledge sharing and networking interactions on emerging trends and new challenges.
The editor hopes this book will provide readers a broad overview of the latest advances on material science and manufacturing technologies.

Vinod Agarwala NAVAIR Esteemed Fellow Associate Director for Materials Science & Engineering U.S.
Francesco Bellucci Dept. of Materials and Production Engineering University of Naples "Federico II" Naples, Italy Conference Coordinator and Point of Contact Juliet Ippolito c/o Dept. of Aerospace Engineering University of Naples "Federico II" Naples, Italy Technical Coordinator Mario Montuori Dept. of Materials and Production Engineering University of Naples "Federico II" Naples, Italy Local Committee Vincenza Marzocchi Gianni Castagnola Bitondo Ciro ii Background and Objectives Building on the success of our First World Congress on Corrosion in the Military held in Sorrento Italy back in 2005, this Second World Congress has been organized with the even timelier premise of dealing with the escalating costs of corrosion.
The major cost and readiness concerns in the military are on the operational and maintenance side as most advanced countries have a large inventory of aging ships, air and ground vehicles, submarines, tanks and weapons systems.
These are worldwide problems, issues and concerns for all advanced and even developing countries.
The pooling and leveraging of each others' knowledge, experience, expertise and talents within the global realm encompassed by this world congress proves to be most meaningful, beneficial and productive and does much to consolidate, direct and propel corrosion research to the next technologically-advanced level.

., Thermal Analysis of Reinforced Concrete Structural Elements, Journal of Structural Fire Engineering. 4 (2013) 227–244
[6] Afanasenko, K. et al., Epoxidized Dinaphthol Application as the Basis for Binder with Advanced Carbonation Level to Reducing its Flammability, Materials Science Forum, 1006, (2020) 41–46
Xu et al., Experimental study on fire resistance of precast concrete columns with efficient reinforcement, Engineering Structures, 204, (2020) 109947
Naser, High temperature properties of fiber reinforced polymers and fire insulation for fire resistance modeling of strengthened concrete structures, Composites Part B: Engineering, 175, (2019) 107104
Korytchenko et al., Advanced detonation gun application for aluminum oxide coating, Multidisciplinary journal «Functional Materials», 27 (1), (2020) 224-229

Song 1,b 1 School of Mechanical Engineering, Shandong University, Jinan, 250061, China a sunll@sdu.edu.cn, bkjsong@sdu.edu.cn Keywords: Optimal control, Active suspension, Ride comfort, Ambulance stretcher Abstract.
Advances in Materials Manufacturing Science and Technology 316 References [1] R.
Henderson: Journal of Automobile Engineering Vol. 212 (1998), p. 93 [3] R.J.
Raine: Journal of Automobile Engineering Vol. 212 (1998), p. 227 [4] HAC: Journal of Sound and Vibration Vol. 100 (1985), p. 343 [5] D.Hrovat: Journal of Sound and Vibration Vol. 145 (1991), p. 93 [6] R.
Inooka: Journal of Engineering in Medicine Vol. 216 (2002), p. 247 [12] T.

Preface of the 2012 International Conference on Mechatronics and Materials Engineering (ICMME 2012) Xiancan Deng, and Xufeng Dong The 2012 International Conference on Mechatronics and Materials Engineering (ICMME 2012) will be held on Jul. 13-14, 2012, Hangzhou, China.
ICMME was initially created by a network of researchers and engineers both from academia and industry in the areas of mechatronics and materials engineering.
The conference provides a forum where researchers shall be able to present recent research results and new research problems and directions related to them.
The conference seeks contributions presenting novel research in all aspects of new advanced methods for material and mechanics science.
Raj Das (Department of Mechanical Engineering, Centre for Advanced Composite Materials, University of Auckland) Dr.

The Research on Management Maturity Evaluation Model of Petroleum Engineering Projects [J].
Any advanced management modes will not necessarily be able to bear fruit without staff quality as a support.
Therefore, the primary task of engineering project management is to mobilize the initiative of staff.
Thought must be advanced, thinking must be open, and mind must be clear to be of the excellent quality of thought.
Analysis on current issues in project supervision and engineering project management [J].

Particularly, AA7085 has even lower quenching sensitivity and a much higher strength-toughness combination, which has been used on the new Airbus A380 and advanced F22 fighter [7].
Forum. 519-521 (2006) 1233-1238
Forum, 28(2004) 969-974
Warner, Aluminum alloy advances for the airbus A380.
Forum, 706-709 (2012) 335-339