会议名称(中文): 2015 IUTAM固体成长研讨会
会议名称(英文): IUTAM Symposium on Growing solids
所属学科: 一般力学与力学基础,固体力学
开始日期: 2015-06-23
结束日期: 2015-06-27
所在国家: 俄罗斯
所在城市: 俄罗斯
具体地点: Moscow, Russia
主办单位: International Union of Theoretical and Applied Mechanics
会议背景介绍:
A vast majority of objects or solids that surround us arise from some growth processes. As an example, one can present natural phenomena such as the growth of biological tissues, glaciers, blocks of sedimentary and volcanic rocks, and space objects. Similar processes determine the specific features of many technologies in industry, including well-known technologies of crystal growth, laser deposition, solidification of melts, electrolytic formation, pyrolytic deposition, polymerization, and concreting. Recent research has shown that solids formed by growth processes differ in their properties essentially from solids in the traditional view. Moreover, the classical approaches of solid mechanics to modeling the growing solids behavior fail. They should be replaced by new ideas and methods of modern mechanics, mathematics, physics, and engineering sciences. Thus, at present, a new area of solid mechanics is forming, which deals with the construction of adequate models of solid growth processes. The main objectives of the IUTAM Symposium on Growing Solids include a joint discussion of fundamental, computational, and applied problems of the new scientific area by leading mechanicians, mathematicians, physicists, and technologists, exchange of the latest ideas and achievements, as well as working out the main directions of its further development. The symposium program includes topics such as the fundamental problem of solid growth processes, numerical modeling of growth, moving boundaries and interfaces, surface science, phase transitions, dislocations and disclinations in solids, crystal growth, growth of bone and soft tissues, laser deposition, solidification of melts, electrolytic formation, and engineering applications.
征文范围及要求:
Topics
Basic problems for growing solids
Additive manufacturing technologies
Crystal growth
Growth in phase transitions
Growth in biology and medicine
Growth in astronomical and natural phenomena
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