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Preface The 2018 International Symposium on Advanced Materials and Application (ISAMA 2018) was taken place in Seoul, South Korea on January 19-21, 2018.
The objective of ISAMA 2018 is to bring together academics, scientists, engineers, postgraduates and other professionals in the area of material science and engineering technology from all over the world.
It provides a high-standard international forum to introduce, to exchange and to discuss recent advances novel and practical techniques or application in the field of material engineering and application.

The primary aim of the conference is to bring together the expertise of scientists and engineers in academia and industry in the field of damage assessment, structural health monitoring (SHM) and non-destructive evaluation (NDE) and to exchange information with a particular emphasis on scientific and technical development.
The DAMAS series of conferences is now established as a major forum for discussion and dissemination of recent advances in damage detection, assessment and quantification, following the seven previous conferences in Pescara (1995), Sheffield (1997), Dublin (1999), Cardiff (2001), Southampton (2003) , Gdansk (2005) and Torino(2007).
The proceedings covers activities relevant to damage assessment of engineering structures and systems including signal processing of sensor measurement and analytical techniques as well as experimental case studies.
The conference themes are as follows: z Damage location and quantification z Developments in signal processing and algorithms z Damage assessment z Condition monitoring z System diagnostics and prognosis z Damage mechanisms z Fatigue damage z Structural integrity and damage assessment z Advanced methods of NDT The conference organizing committee is very grateful to the authors and Keynote Speakers for their careful efforts in producing the papers and to the Scientific Committee for taking the time to review the papers in line with the journal standards.
The organizers are grateful to the Natural Science Foundation of China (NSFC) and the State Key Laboratory of Tribology for their financial supports to this conference, and to Chinese Society for Vibration Engineering, Tsinghua University, the Institute of Physics Stress and Vibration Group, and Hunan Provincial Key Laboratory of Health Maintenance for Mechanical Equipment who kindly supported the promotion of this event.

Preface SREE Workshop on Medical Materials and Engineering (WMME) aims to bring together academic scientists, leading engineers, industry researchers and scholar students to exchange and share their experiences and research results about all aspects of medical materials and engineering, and discuss the practical challenges encountered and the solutions adopted.
WMME 2011 aims to provide a forum for theoretical and technical exchanges regarding the advanced theories, methodologies and techniques about all aspects of medical materials and engineering.
WMME 2011 received about 280 submissions, which are involved in the fields as follows: a) medical materials; b) medical equipments; c) medical supplies; d)medical reagents; e) medical signal and its processing; f) computer-aided diagnosis; g) monitoring and telemetry system; h) medical imaging; i) testing and inspection in medicine; j) anesthesia, surgery and treatment; k) disease prevention and immunization; l) pharmaceutical production, storage and transportation; m) food, environment and health; n) biophysics and biochemistry. 84 selected papers are published in the WMME 2011 proceedings, which are divided into three topics: medical materials; medical engineering; food, environment and health.
Sponsor Sponsored by Society for Resources, Environment and Engineering（SREE）

Preface The present issue of Key Engineering Materials contains a collection of the selected papers presented at the Second China International Conference on High-Performance Ceramics (C!
Continuing the success of the first conference in the series, CICC-2 offered an international forum for the presentation, discussion and review of the latest advances in science and teclmology of high-perfom1ance ceramics.
Jianghong Gong and Wei Pan Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, P.R.
China The Second China International Conference on High-Performance Ceramics Sponsors The Chinese Ceramic Society National Natural Science Foundation of China Organizers Advanced Ceramics Division of the Chinese Ceramic Society State Key Laboratory of New Ceramics and Fine Processing, Tsinghua University Department of Materials Science and Engineering, Yunnan University Co-Sponsors American Ceramic Society Australian Ceramic Society Ceramic Society of Japan European Ceramic Society International Ceramic Federation Korean Ceramic Society Russian Ceramic Society Beijing Chapter of IEEE-UFFC Chinese Institute of Electronics Chinese Materials Research Society Chinese Mechanical Engineering Society Chinese Society of Composite Materials Chinese Society of Electronic Components Committee of Materials & Technology of Chinese Society of Astronautics

Harris, Properties of Silicon Carbide, The Institute of Electrical Engineers, London, 1995
Forum 389-393 (2002) 961
Forum 389-393 (2002) 1057
Forum 389-393 (2002) 1025
Forum 338-342 (2000) 1283

PREFACE The understanding of damage evolution in engineering materials, systems and structures is currently one of the most important areas of engineering research.
This volume constitutes the proceedings of the fourth conference and aims to report upon recent advances in the areas of damage detection, assessment and quantification.
The DAMAS conference is now established as a major forum for discussion and dissemination of recent advances in damage detection, assessment and quantification, following the three previous conferences in Pescara ( 1995), Sheflield ( I 997) and Dublin (1999).
The type of structure studied also varies widely and techniques highlighted here apply in many engineering fields, in particular Mechanical and Civil Engineering.
The various levels of support provided by the SIDANET EPS.RC network, the Institute of Physics Stress and Vibration Group and the Institution of Mechanical Engineers are all gratefully acknowledged.

Zhen, Static and dynamic characteristics modeling for CK61125 CNC lathe bed basing on FEM, Procedia Engineering 174 (2017) 489-496
Pasternak, Boundary element modeling of pyroelectric solids with shell inclusions, Mechanics and Mechanical Engineering 22 (2018) 727-737
Padding, Non-spherical particles in a pseudo-2D fluidised bed: modelling study, Chemical Engineering Science 192 (2018) 1105-1123
Journal of Achievements in Materials and Manufacturing Engineering. 91 (2018) 27–33
Schott, Replicating cohesive and stress-history-dependent behavior of bulk solids: feasibility and definiteness in DEM calibration procedure, Advanced Powder Technology 32 (2021) 1532-1548

King 2 1 School of Advanced Materials and Systems Engineering, Kum Oh National Institute of Technology, Kumi, Kyung Buk, Korea, 730-701 2 Department of Mechanical Engineering, University of Victoria, Victoria, BC, Canada, V8W 3P6 Keywords: TiN, Texture, Surface Roughness, Frictional Behavior, Erosion-Corrosion Resistance, Corrosion Resistance, Polarization Test Abstract.
R05-2002-01512-0) of the Korea Science & Engineering Foundation.
Forum, Vol. 408-412 (2002), p. 75 [6] I.Kim, S.Dost, H.W.King, S.Ferguson and D.R.Nagy, Mater.
Forum, Vol. 408-412 (2002), p. 1585 [7] I.Kim, S.Dost, Mater.
Forum, Vol. 408-412 (2002), p. 1591 [8] N.Nishida, U.S.

Microstructure Mapping: An approach to quantitative interpretation of microstructural evolution in Indian Fast Reactor Advanced Clad material during hot forging Aashranth Ba*, Santosh Kumarb, Dipti Samantarayc, Shaju K Albertd, Utpal Borahe and AK Bhadurif Materials Technology Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India aaashranthb@igcar.gov.in,,bsantosh@igcar.gov.in,cdeepsaroj@igcar.gov.in,dshaju@igcar.gov.in, eborah@igcar.gov.in, fbhaduri@igcar.gov.in Keywords: Austenitic stainless steel, hot forging, microstructure, instability map, µ-map Abstract In this paper, microstructural evolution of Indian Fast Reactor Advanced Clad (IFAC-1) steel during thermo-mechanical processing has been investigated.
The present study aims to provide a multi-parameter, quantitative interpretation of microstructural evolution in Indian Fast Reactor Advanced Clad (IFAC-1) steel.
Forum. 584-586 (2008) 673-678
Jayakumar, Thermal stability and thermal property characterisation of Fe–14.4Cr–15.4Ni–2.4Mo–2.36Mn–0.25Ti–1.02Si–0.042C–0.04P–0.005B (mass%) austenitic stainless steel (Alloy D9I), Nuclear Engineering and Design 255 (2013) 86– 96.

The authors are also grateful to some engineers from Nannan Aluminum Company for their great supports, both financially and technologically.
References [1] Lunarska E, Chernyaeva O: Materials Science Vol.40 (2004), P.399 [2] Jianmin Zeng, Ping Gu, Youbing Wang: Materials Science and Engineering B Vol.177 (2012), p.1717 [3] Andreini R., Foster J. and Callen R.: Metall.
Forum Vol. 704-705 (2011), p. 1197 [7] C.M.
Zeng: Advanced Materials Research Vol. 146-147 (2011) p. 1859 [8] Z.B.
Zeng: Advanced Materials Research Vol. 97-101 (2010) p. 1045 [9] Yang Li, Zhengbing Xu and Jianmin Zeng: Materials Science Forum Vol. 704-705 (2012), p.1201 [10] Chengang Hao, Dezhi Li and Jianmin Zeng: Advanced Materials Research Vol. 418-420 (2012), p.1856 [11] Haihong Zhan, Jianmin Zeng, Ping Chen,and ZhuoYi Lin: Applied Mechanics and Materials Vol. 117-119 (2012), p. 1701 [12] Jianmin Zeng, Dezhi Li, Zhengbin Xu, and Youbin Wang: Advanced Science Letters Vol. 4, (2011), p.1