2026 Campbell Laird: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	National Ranking	Publications	Citations
Materials Science	59	7362	1829	259	12871

Discipline name

D-Index

World Ranking

National Ranking

Publications

Citations

Materials Science

7362

1829

259

12871

Overview

Campbell Laird is affiliated with the University of Pennsylvania in the United States. Their research collaborations include frequent co-authorship with Amber Colquhoun and Isabelle Jensen.

Their work spans several areas, reflected in collaborations and publication activities, although specific details on research topics and subfields of study are not listed.

No recent papers or publication venues have been recorded in the available data. Additionally, no book publications, main fields of study, subfields, or main topics of their work are documented.

There are also no records of awards or distinctions attributed to Campbell Laird in the current data.

Campbell Laird is currently active and has not been reported as deceased.

Best Publications

Strain localization in cyclic deformation of copper single crystals

J. M. Finney;C. Laird

524
Citations
Low energy dislocation structures produced by cyclic deformation

Campbell Laird;Philip Charsley;Haël Mughrabi

445
Citations
Mechanisms of slip mode modification in F.C.C. solid solutions

Sun Ig Hong;C. Laird

418
Citations
Dislocation behavior in fatigue

D. Kuhlmann-Wilsdorf;C. Laird

404
Citations
Dislocation behavior in fatigue II. Friction stress and back stress as inferred from an analysis of hysteresis loops

Doris Kuhlmann-Wilsdorf;Campbell Laird

382
Citations
Cyclic stress-strain response of F.C.C. metals and alloys—II Dislocation structures and mechanisms

Unknown

348
Citations
Cyclic stress—strain response of two-phase alloys Part I. Microstructures containing particles penetrable by dislocations

C. Calabrese;C. Laird

346
Citations
Crack nucleation and stage I propagation in high strain fatigue—II. mechanism

W.H. Kim;C. Laird

303
Citations
Overview of fatigue behavior in copper single crystals—I. Surface morphology and stage I crack initiation sites for tests at constant strain amplitude

Ma Bao-Tong;C. Laird

271
Citations
Latent hardening in single crystals. I: Theory and experiments

Tien-yue Wu;John L. Bassani;Campbell Laird

238
Citations
The cyclic stress-strain response of copper at low strains—i. Constant amplitude testing

J.C Figueroa;S.P. Bhat;R. De La Veaux;S. Murzenski

196
Citations
Crack nucleation and stage I propagation in high strain fatigue—I. Microscopic and interferometric observations

W.H. Kim;C. Laird

191
Citations
Kinetics of growth of platelike precipitates

R Sankaran;C Laird

181
Citations
Dislocation behavior in fatigue V: Breakdown of loop patches and formation of persistent slip bands and of dislocation cells

Doris Kuhlmann-Wilsdorf;Campbell Laird

159
Citations
Cyclic stress—strain response of two-phase alloys Part II. Particles not penetrated by dislocations

C. Calabrese;C. Laird

153
Citations
The fatigue limits of metals

Campbell Laird

141
Citations
Mechanisms of cyclic softening and cyclic creep in low carbon steel

Hui-Fen Chai;Campbell Laird

137
Citations
Cyclic response and dislocation structures of AISI 316L stainless steel. Part 1: single crystals fatigued at intermediate strain amplitude

Yuanfeng Li;Campbell Laird

132
Citations
Crack initiation mechanisms in copper polycrystals cycled under constant strain amplitudes and in step tests

J.C. Figueroa;C. Laird

131
Citations
The effect of grain-boundary-engineering-type processing on oxygen-induced cracking of IN718

Ulrich Krupp;William M Kane;Xinyu Liu;Olaf Dueber

128
Citations
Mechanisms of fatigue hardening in copper single crystals: The effects of strain amplitude and orientation

Alex S. Cheng;Campbell Laird

123
Citations