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The tradition of discussing the newest achievements in the consideration of NDE reliability was continued with the 5th European American Workshop on Reliability of NDE (5th EAW) in Berlin in 2013. The Focus of this workshop was to determine the 'delta' between the laboratorylike conditions, in which reliability assessments are usually carried out, and the everyday field conditions. Which obstacles need to be still overcome and how do we get closer with our estimations to the real field reliability? With the joint effort of international researchers and in-field practitioners the up-to-date research was presented and discussed, culminating in a half-a-day long 'Open Space Technology' discussion. This paper presents the main conclusions of the workshop.
Using the Modular Reliability Model the three different main influencing elements, i.e. intrinsic capability (IC), application parameters (AP) and the human factors (HF), are, in the first instance, investigated separately. The intrinsic capability stands for the pure physical-technological process of the signal detection caused by the waves or the rays from a material defect in the presence of noise (driven by the material and the devices). This intrinsic capability is the upper bound of the possible reliability. Already when measuring this intrinsic capability for thick walled components the original one-parameter POD must be extended to a multiparameter POD, where, in addition to the defect size, a number of additional physical parameters, such as the grain size distribution (or attenuation), defect depth, and angle or surface roughness, must be considered. For real life cycle assessments it is necessary to evaluate the signal response from real defects. The industrial application factors, e.g. coupling conditions, limited accessibility, heat and environmental vibrations, diminish the reliability. The amount of reduction can be determined quantitatively, if the underlying conditions are controlled. In case they are not controlled it is necessary to count for a fluctuation in the reliability in the field anyway. The third group of important influencing factors are the human factors, which do not only cover the individual performance capability of the inspectors but also the design of the working place,the procedure, the teamwork quality, interaction with systems, the organization, and finally, the relationship between the companies involved in the inspection process and to which extend the responsible parties are aware of it. When comparing an “ideal inspection” with a “real inspection” it is worth while to look how the existing practices, rules and standards support reliable testing and where the “delta” is. In the context of vigor, with respect to the industrial end user, it needs to be shown how the level of reliability of NDE, influenced by the different factors, has an impact on acceptance or rejection of safety critical parts.
The tradition of discussing the newest achievements in the consideration of NDE reliability was continued with the 5th European American Workshop on Reliability of NDE (5th EAW) in Berlin in 2013. The focus of this workshop was to determine the “delta” between the laboratory- like conditions, in which reliability assessments are usually carried out, and the everyday field conditions. Which obstacles need to be still over- come and how do we get closer with our estimations to the real field re- liability? With the joint effort of international researchers and in-field practitioners the up-to-date research was presented and discussed, culminating in a half-a-day long “Open Space Technology” discussion. This paper presents the main conclusions of the workshop.