2026 D.A. Hills: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

Overview

D.A. Hills is affiliated with the University of Oxford in the United Kingdom. Their research primarily focuses on engineering, with a strong specialization in mechanics of materials and mechanical engineering. The scientist has contributed extensively to several key topics within these fields.

The main topics covered in their work include:

Mechanical stress and fatigue analysis
Adhesion, friction, and surface interactions
Gear and bearing dynamics analysis
Electrical contact performance and analysis
Mechanical behavior of composites

Among their recent publications are:

"A comparison of the state of stress at an incomplete fretting contact edge with a crack tip" (2020), published in Tribology International
"Asymptotic description of fretting wear and fretting fatigue for incomplete contacts" (2021), published in Engineering Fracture Mechanics
"Analysing the accuracy of asymptotic approximations in incomplete contact problems" (2022), published in International Journal of Solids and Structures
"A review of partial slip solutions for elastic contacts" (2025), published in European Journal of Mechanics - A/Solids
"Analysis of a Prismatic Elastic Contact of Finite Length" (2024), published in SSRN Electronic Journal

The frequent co-authors with whom D.A. Hills has collaborated include:

J. R. Barber
J.P.J. Truelove
N. Cwiekala
Brandon Eames
M.R. Moore

D.A. Hills has published primarily in the following venues:

SSRN Electronic Journal
European Journal of Mechanics - A/Solids
Tribology International
Engineering Fracture Mechanics
International Journal of Solids and Structures

The accumulated research output indicates a strong focus on understanding elastic contact problems, fretting wear and fatigue, and the mechanics of partial slip in materials. Their work contributes to the broader field of mechanical stress and surface interaction analysis, offering insights relevant to engineering and materials science applications.

Best Publications

Recent developments in the understanding of fretting fatigue

D. Nowell;D. Dini;D.A. Hills

365
Citations
The influence of rounded edges on indentation by a flat punch

M Ciavarella;D A Hills;G Monno

253
Citations
Mechanics of fretting fatigue tests

D. Nowell;D.A. Hills

246
Citations
On the mechanics of fretting fatigue.

D.A. Hills;D. Nowell;J.J. O'Connor

191
Citations
Crack initiation criteria in fretting fatigue

D. Nowell;D.A. Hills

188
Citations
Contact of dissimilar elastic cylinders under normal and tangential loading

D. Nowell;D.A. Hills;A. Sackfield

145
Citations
An elastic–plastic asperity interaction model for sliding friction

Daniel M Mulvihill;Mehmet E Kartal;David Nowell;David A Hills

145
Citations
Open cracks at or near free edges

D Nowell;D A Hills

142
Citations
Contact problems incorporating elastic layers

D. Nowell;D.A. Hills

107
Citations
Frictional elastic contact with periodic loading

J.R. Barber;M. Davies;M. Davies;D.A. Hills

105
Citations
Measurements of pressure and area dependent tangential contact stiffness between rough surfaces using digital image correlation

Mehmet E Kartal;Daniel M Mulvihill;David Nowell;David A Hills

93
Citations
A note on the hertz contact problem: A correlation of standard formulae:

A Sackfield;D Hills

93
Citations
Some useful results in the tangentially loaded hertzian contact problem

A Sackfield;D A Hills

92
Citations
Prediction of fretting crack propagation based on a short crack methodology

S. Fouvry;D. Nowell;Krzysztof Kubiak;D.A. Hills

85
Citations
INITIATION AND GROWTH OF FRETTING FATIGUE CRACKS IN THE PARTIAL SLIP REGIME

M. Kuno;R. B. Waterhouse;D. Nowell;D. A. Hills

84
Citations
Static Axisymmetric Hertzian Contacts Subject to Shearing Forces

R. L. Munisamy;D. A. Hills;D. Nowell

80
Citations
A comparison of two and three-dimensional analyses of fatigue crack closure

H. Alizadeh;D. A. Hills;P. F.P. de Matos;D. Nowell

79
Citations
Contact stresses in a moderately thin strip (with particular reference to fretting experiments)

L.J. Fellows;D. Nowell;D.A. Hills

70
Citations
Investigation of non-Coulomb friction behaviour in reciprocating sliding

D.M. Mulvihill;M.E. Kartal;A.V. Olver;D. Nowell

69
Citations
The design of joints between elastically dissimilar components (with special reference to ceramic/metal joints)

Piaras Kelly;DA Hills;D Nowell

67
Citations

Frequent Co-Authors

David Nowell Imperial College London

Daniele Dini Imperial College London

Alexander M. Korsunsky University of Oxford

James Barber University of Michigan–Ann Arbor

Michele Ciavarella Polytechnic University of Bari

Martyn J Pavier University of Bristol

Paolo Decuzzi Italian Institute of Technology

David J. Smith Arizona State University

Siegfried Fouvry Mines ParisTech

External Links

Personal website of D.A. Hills

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