化工装备技术
化工裝備技術
화공장비기술
CHEMICAL EQUIPMENT TECHNOLOGY
2014年
6期
56-60
,共5页
核电设备%无损检测%最优化%成本%模块
覈電設備%無損檢測%最優化%成本%模塊
핵전설비%무손검측%최우화%성본%모괴
Nuclear power equipment%Non-destructive testing%Optimization%Cost%Module
介绍了AP1000核电设备在制造过程中常用的无损检测方法及其适用范围。在实际检测中应根据材料特性、结构因素、核安全级别、环境要素、经济因素、表面状况等不同条件,选择最优化检测方法,才能有效地提高检测质量和检测效率,降低制造成本。
介紹瞭AP1000覈電設備在製造過程中常用的無損檢測方法及其適用範圍。在實際檢測中應根據材料特性、結構因素、覈安全級彆、環境要素、經濟因素、錶麵狀況等不同條件,選擇最優化檢測方法,纔能有效地提高檢測質量和檢測效率,降低製造成本。
개소료AP1000핵전설비재제조과정중상용적무손검측방법급기괄용범위。재실제검측중응근거재료특성、결구인소、핵안전급별、배경요소、경제인소、표면상황등불동조건,선택최우화검측방법,재능유효지제고검측질량화검측효솔,강저제조성본。
Introduces several common non-destructive methods and the applicable scopes for the manufacture of AP1000 nuclear power equipment. An optimal testing method varies in practice depending on parameters such as material properties, configuration factors, nuclear safety classifications, environmental factors, economic factors and surface conditions, which can help enhance the testing quality and efficiency effectively and reduce the manufacturing cost.
