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项目负责人:涂善东所在单位:南京工业大学、华东理工大学项目批准号:59875039项目简介随着现代石油化工、发电、原子能技术及航空航天技术的迅速发展,过程的工艺参数不断提高以满足高效率生产的要求,高温技术因此应运而生,但高温下材料的劣化是和时间相关的,其复杂性大大地增加了人们进行破坏控制的难度。另一方面工业经济的可持续发展要求重新检讨按传统的设计寿命终结的观点,以避免部件、设备乃至整个工厂过早地退役。要达到这一目的,从根本着手,必须从基本理论出发重新审定现有的设计方法。为此,本项目一方面发展新的高温蠕变测
Project Leader: Tu Shaodong Organization: Nanjing University of Technology, East China University of Science and Technology Project Approval No .: 59875039 Project Background With the rapid development of modern petrochemical, power generation, atomic energy and aerospace technologies, the process parameters are continuously improved to meet the requirements of high efficiency Therefore, high-temperature technology has come into being. However, the deterioration of materials at high temperature is time-dependent, and its complexity greatly increases the difficulty of people’s destruction control. On the other hand, the sustainable development of the industrial economy requires a review of the viewpoints of the end of the traditional design life in order to avoid premature decommissioning of components, equipment and even the entire factory. To achieve this goal, starting from the basic theory, we must re-examine the existing design methods based on the basic theory. To this end, the project on the one hand the development of new high temperature creep measurement