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无损检测

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维基百科,自由的百科全书

无损检测(Nondestructive testing,NDT)又称非破坏检验,是在不影响检测对象未来使用功能或现在的运行状态前提下,采用射线超声红外电磁太赫兹无损检测 等原理技术仪器对材料、零件、设备进行缺陷、化学、物理参数的检测技术。常见的有超声波检测焊缝中的裂纹等方法。中国机械工程学会无损检测学会是中国无损检测学术组织,TC56是其标准化机构。

應用與技術

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An example of a 3D replicating technique. The flexible high-resolution replicas allow surfaces to be examined and measured under laboratory conditions. A replica can be taken from all solid materials.

NDT is divided into various methods of nondestructive testing, each based on a particular scientific principle. These methods may be further subdivided into various techniques. The various methods and techniques, due to their particular natures, may lend themselves especially well to certain applications and be of little or no value at all in other applications. Therefore, choosing the right method and technique is an important part of the performance of NDT.


  1. ^ Ahi, Kiarash. A Method and System for Enhancing the Resolution of Terahertz Imaging. Measurement. 2018. doi:10.1016/j.measurement.2018.06.044. 
  2. ^ ASTM E1351: "Standard Practice for Production and Evaluation of Field Metallographic Replicas" (2006)
  3. ^ BS ISO 3057 "Non-destructive testing - Metallographic replica techniques of surface examination" (1998)
  4. ^ "Fundamentals of Resonant Acoustic Method NDT" (2005)