Paul Fromme scite author profile

Paul Fromme

5Publications

275Citation Statements Received

91Citation Statements Given

How they've been cited

450

269

How they cite others

Affiliations

University College London, UCL Australia, ETH Zurich

Publications

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Measurement of the scattering of a Lamb wave by a through hole in a plate

Fromme

Sayir

2002

102

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Flexural waves propagating in an aluminum plate containing a circular hole are studied. In the experiments the first antisymmetric Lamb wave mode A0 is excited selectively by a piezoelectric transducer. The scattered field around a circular cavity is measured pointwise using a heterodyne laser interferometer. The measurements are compared with theoretical calculations. Different approximate analytical approaches, employing Kirchhoff and Mindlin types of plate theories to describe the scattered field, are used. Good agreement between the experimental data and the analytical solutions is found within the ranges of validity of the different models. Introduction of a small imperfection, like a notch, at the boundary of the cavity changes the measured scattered field

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Detection of cracks at rivet holes using guided waves

2002

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On the development and testing of a guided ultrasonic wave array for structural integrity monitoring

Fromme¹,

Wilcox²,

Lowe³

et al. 2006

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Abstract-The prototype of a guided ultrasonic wave array for the structural integrity monitoring of large, platelike structures has been designed, built, and tested. The development of suitably small transducers for the excitation and measurement of the first antisymmetric Lamb wave mode A0 is described. The array design consists of a ring of 32 transducers, permanently bonded to the structure with a protective membrane, in a compact housing with the necessary multiplexing electronics. Using a phased addition algorithm with dispersion compensation and deconvolution in the wavenumber domain, a good dynamic range can be achieved with a limited number of transducers. Limitations in the transducer design and manufacture restricted the overall dynamic range achieved to 27 dB. Laboratory measurements for a steel plate containing various defects have been performed. The results for standard defects are compared to theoretical predictions and the sensitivity of the array device for defect detection has been established. Simulated corrosion pitting and a defect cut with an angle grinder simulating general corrosion were detected.

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Novel adaptive finite element algorithms to predict bone ingrowth in additive manufactured porous implants

Cheong

Fromme

Mumith

et al. 2018

Journal of the Mechanical Behavior of Biomedical Materials

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Bone loss caused by stress shielding of metallic implants is a concern, as it can potentially lead to long-term implant failure. Surface coating and reducing structural stiffness of implants are two ways to improve bone ingrowth and osteointegration. Additive manufacturing, through selective laser sintering (SLS) or electron beam melting (EBM) of metallic alloys, can produce porous implants with bone ingrowth regions that enhance osteointegration and improve clinical outcomes. Histology of porous Ti6Al4V plugs of two pore sizes with and without electrochemically deposited hydroxyapatite coating, implanted in ovine condyles, showed that bone formation did not penetrate deep into the porous structure, whilst significantly increased bone growth along coated pore surfaces (osteointegration) was observed. Finite Element simulations, combining new algorithms to model bone ingrowth and the effect of surface modification on osteoconduction, were verified with the histology results. The results showed stress shielding of porous implants made from conventional titanium alloy due to material stiffness and implant geometry, limiting ingrowth and osteointegration. Simulations for reduced implant material stiffness predicted increased bone ingrowth. For low modulus Titanium-tantalum alloy (Ti-70%Ta), reduced stress shielding and enhanced bone ingrowth into the porous implant was found, leading to improved mechanical interlock. Algorithms predicted osteoconductive coating to promote both osteointegration and bone ingrowth into the inner pores when they were coated. These new Finite Element algorithms show that using implant materials with lower elastic modulus, osteoconductive coatings or improved implant design could lead to increased bone remodelling that optimises tissue regeneration, fulfilling the potential of enhanced porosity and complex implant designs made possible by additive layer manufacturing techniques.

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On the development and testing of a guided ultrasonic wave array for structural integrity monitoring

Fromme

Wilcox

Lowe

et al. 2006

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

126

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Paul Fromme

Measurement of the scattering of a Lamb wave by a through hole in a plate

Detection of cracks at rivet holes using guided waves

On the development and testing of a guided ultrasonic wave array for structural integrity monitoring

Novel adaptive finite element algorithms to predict bone ingrowth in additive manufactured porous implants

On the development and testing of a guided ultrasonic wave array for structural integrity monitoring

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