News

The 12th Japan-China Bilateral Symposium on High Temperature Strength of Materials not only welcomes experts and scholars in related fields from Japan and China, but also welcomes those from all over the world.

Dec. 09, 2024New
"Call for Papers" is uploaded.(Registration)
Oct. 08, 2024
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Important Date

Deadline for submission of abstract:    March 31, 2025
Notification of acceptance: April 10, 2025
Deadline for submission of manuscript: May 20, 2025
Deadline for registration: May 20, 2025

Objective

The 12th Japan-China Bilateral Symposium on High Temperature Strength of Materials will be held at Kanazawa, Japan during 8-11 August 2025.
The symposium series was initiated by the High Temperature Strength and Materials Committee, Materials Institution, Chinese Mechanical Engineering Society and the Committee on High Temperature Strength of Materials, the Society of Materials Science Japan.
This Symposium is a sequel to the successful meetings of the 1st Japan-China Bilateral Symposium held in Luoyang, China,1992; the 2nd bilateral Symposium held in Nagaoka, Japan, 1995; the 3rd held in Nanjing, China,1998; 4th held in Tsukuba, Japan, 2001; 5th held in Xi'an, China, 2004; 6th held in Sendai, Japan, 2007; 7th held in Dalian, China, 2010; 8th held in Asahikawa, Japan, 2013; 9th held in Changsha, China, 2016; 10th held in Kagoshima, Japan, 2019; 11th held in Chengdu, China, 2023.
The purpose is intended to promote academic and technical exchange between Japanese and Chinese scientists, engineers and to strengthen the technical contacts in the field of high temperature strength of materials between the two nearby countries.

Scope

The organizer invites offers of papers on topics which contribute towards providing improvements in the understanding of the high temperature strength of materials and structures. A non-exclusive listing of relevant topics includes:
■ High Temperature Deformation and Fracture Mechanisms.
■ Behavior of Superalloys at High Temperature.
■ Microstructural Study of Heat-Resistant Materials.
■ Superalloys and Composites for High Temperature Use.
■ Deformation and Fracture of Advanced High Temperature Materials Including Intermetallics, Ceramics and Composites etc.
■ Creep and Fatigue at High Temperatures.
■ Creep and Fatigue Interaction.
■ High Temperature Damage Analysis and Design Control.
■ Defect Assessment and Life Prediction of High Temperature Materials and components.
■ Life Extension of High Temperature Components and Plants.

Language

Official language is English.