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This comprehensive book covers the five major NDT methods - liquid penetrants, eddy currents, magnetic particles, radiography and ultrasonics in detail and also considers newer methods such as acoustic emission and thermography and discusses their role in on-line monitoring of plant components. Analytical techniques such as reliability studies and statistical quality control are considered in terms of their ability to reduce inspection costs and limit down time. A useful chapter provides practical guidance on selecting the right method for a given situation.
This second edition builds on the success of the first and covers the widespread introduction of computer technology, particularly the digitisation of data into the many branches of NDT. It surveys the new European (CEN) Standards and provisional CEN Standards on NDT, many of which are replacing British Standards. New NDT techniques not included in the first edition are also included.
This part of GB/T 15822 specifies the general principles for the magnetic particle testing of ferromagnetic materials. The magnetic particle testing is mainly used to test the discontinuity of surface openings (especially cracks) and also the near-surface discontinuity, but its sensitivity drops quickly with depth. This part defines surface preparation of tested workpieces, magnetization technology and the requirements for and application of testing media, as well as the recording and interpretation of results arising therefrom. No provision has been made for the acceptance criteria. As for the magnetic particle testing on special items, additional requirements will be specified according to the product standard. The residual magnetic method is non-applicable to this part.
This part of GB/T 15822 specifies the general principles for magnetic particle testing of ferromagnetic materials. The magnetic particle testing is mainly used to test the discontinuity of surface openings (especially cracks) and also the near-surface discontinuity when its sensitivity, however, drops quickly with depth. This part defines surface preparation of tested workpieces, magnetization technology and the requirements for and application of detection media, as well as the recording and interpretation of results arising therefrom. No provision has been made for the acceptance criteria. As for the magnetic particle testing on special items, additional requirements will be specified according to product standard. The residual magnetic method is non-applicable to this part.
This book was proposed and organized as a means to present recent developments in the field of nondestructive testing of materials in civil engineering. For this reason, the articles highlighted in this editorial relate to different aspects of nondestructive testing of different materials in civil engineering—from building materials to building structures. The current trend in the development of nondestructive testing of materials in civil engineering is mainly concerned with the detection of flaws and defects in concrete elements and structures, and acoustic methods predominate in this field. As in medicine, the trend is towards designing test equipment that allows one to obtain a picture of the inside of the tested element and materials. From this point of view, interesting results with significance for building practices have been obtained
Comprehensive guide to the basic principles and applications of non-destructive testing methods for aircraft system and components: airframe, propulsion, landing gear and more Provides detailed analysis of the advantages and disadvantages of major NDT methods Important for design, inspection, maintenance, repair, corrosion protection and safety This critical book is among the first to provide a detailed assessment of non-destructive testing methods for the many materials and thousands of parts in aircraft. It describes a wide variety of NDT techniques and explains their application in the evaluation and inspection of aerospace materials and components ranging from the entire airframe to systems and subsystems. At the same time the book offers guidance on the information derived from each NDT method and its relation to aircraft design, repair, maintenance and overall safety. The book covers basic principles, as well as practical details of instrumentation, procedures and operational results with a full discussion of each method's capabilities and limitations as these pertain to aircraft inspection and different types of materials, e.g., composites and metal alloys. Technologies covered include: optical and enhanced optical methods; liquid penetrant, replication and magnetic particle inspection; electromagnetic and eddy current approaches; acoustics and ultrasonic techniques; infrared thermal imaging; and radiographic methods. A final section is devoted to NDT reliability and ways the probability of detection can be measured to establish inspection intervals.
This standard specifies the basic rules to be followed when applying the non-destructive testing (NDT). The purpose of this standard is to guide the proper use of non-destructive testing.