Mathematical modelling in non-destructive testing : based on the proceedings of a conference organized by the Institute of Mathematics and Its Applications on mathematical modelling in non-destructive testing, held at Jesus College, Cambridge, in September 1986

This collection of essays is taken from a conference on mathematical modelling in non-destructive testing, organized by the Institute of Mathematics and its Applications and held in Cambridge, 1986. The conference was a response to demands on industry to ensure the safety of its manufacturing plant and products which, in turn, has increased the level of serious scientific research into techniques for the non-destructive testing (NDT) of components. The NDT community recognizes that mathematical modelling can play a complementary role to traditional, experimental research in developing, validating and improving NDT inspection procedures. The conference dealt with the use of mathematics in NDT research and one of its main aims was to encourage dialogue between theoreticians and practising NDT engineers. Consequently the material assembled in the Proceedings emphasizes the application of the models as well as their theoretical basis. Topics covered include a range of NDT techniques, such as ultrasonics, eddy current testing and ACPD methods, as well as more specialized papers describing areas of topical interest.

• Part 1 General papers: mathematical modelling in NDT - what it is and what it does, J.M.Coffey
• the role of mathematical modelling in validation, D.Firth. Part 2 Ultrasonics: recent developments in ultrasonic modelling for crack detection and characterization, J.D.Achenbach
• mathematical aspects of scattering from rough cracks, J.R.Willis
• ultrasonic wave propagation and scattering using explicit finite difference methods, L.J.Bond et al
• numerical modelling of ultrasonic scattering, K.J.Langenberg et al
• a mathematical model of the operation of an ultrasonic probe, M.G.Silk et al
• ultrasonic propagation in anistropic welds and cast materials, J.A.Ogilvy
• an integrated model of ultrasonic NDT and its practical application, R.K.Chapman
• development of models to predict the ultrasonic scattered pulse shapes, M.Blakemore and D.Firth. Part 3 Electromagnetics: a three-dimensional finite element model for eddy currents in non-ferrous metals, P.C.French and L.J.Bond
• developments in the AC field method of NDT, R.Collins and D.H. Michael
• the magnetic force on a spherical magnetic particle in the leakage field of a surface-breaking slot, C.Edwards and S.B.Palmer. Part 4 Geophysics: evaluating the earth non-destructively, J.A.Hudson. Part 5 Poster session contributions: pulse-echo methods and the Born approximation, R.Stacey and J.P.Weight
• modelling ultrasonic inspection on a microcomputer, R.K.Chapman
• ultrasonic testing of concrete, P.L.Domone and R.B.J.Casson
• boundary element analysis of acoustic wave scattering, W.S.Hall and W.H.Robertson.