2026 Anthony J. Kinloch: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	95	1315	1263	55	51	409	37115

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

1315

1263

409

37115

Research.com Recognitions

2022 - Research.com Materials Science in United Kingdom Leader Award
2007 - Fellow of the Royal Society, United Kingdom
1997 - Fellow of the Royal Academy of Engineering (UK)

Overview

Anthony J. Kinloch is affiliated with Imperial College London in the United Kingdom. Their research activities predominantly align with the fields of Engineering and Materials Science, with a significant focus on several subfields including Mechanics of Materials, Mechanical Engineering, Materials Chemistry, Polymers and Plastics, and Civil and Structural Engineering.

The main topics of Anthony J. Kinloch's work revolve around the Mechanical Behavior of Composites, Fiber-reinforced polymer composites, Fatigue and fracture mechanics, Epoxy Resin Curing Processes, High-Velocity Impact and Material Behavior, Structural Response to Dynamic Loads, and Probabilistic and Robust Engineering Design.

The scientist's frequent coauthors include:

John P. Dear (17 joint publications)
Haibao Liu (16 joint publications)
B.R.K. Blackman (12 joint publications)
R. Jones (12 joint publications)
Jun Liu (8 joint publications)

Anthony J. Kinloch has published extensively in several scientific venues, with the most recurrent being:

Composites Science and Technology (5 publications)
Applied Composite Materials (5 publications)
Composites Part B Engineering (4 publications)
Journal of Materials Science (3 publications)
Composite Structures (3 publications)

Selected recent publications by Anthony J. Kinloch include:

"Peel tests for quantifying adhesion and toughness: A review," 2023, Progress in Materials Science
"A three-dimensional elastic-plastic damage model for predicting the impact behaviour of fibre-reinforced polymer-matrix composites," 2020, Composites Part B Engineering
"The behaviour of thermoplastic and thermoset carbon fibre composites subjected to low-velocity and high-velocity impact," 2020, Journal of Materials Science
"Improving the delamination resistance and impact damage tolerance of carbon fibre-epoxy composites using multi-scale fibre toughening," 2021, Composites Part A Applied Science and Manufacturing
"Strengthening and toughening epoxy polymer at cryogenic temperature using cupric oxide nanorods," 2021, Composites Science and Technology

Throughout their career, Anthony J. Kinloch has been recognized with several honors, including becoming a Fellow of the Royal Academy of Engineering (UK) in 1997 and a Fellow of the Royal Society in the United Kingdom in 2007.

Best Publications

Adhesion and Adhesives: Science and Technology

A. J. Kinloch

3271
Citations
Fracture Behaviour of Polymers

A. J. Kinloch;Robert J. Young

2110
Citations
Toughening mechanisms of nanoparticle-modified epoxy polymers

B.B. Johnsen;A.J. Kinloch;R.D. Mohammed;A.C. Taylor

1167
Citations
Deformation and fracture behaviour of a rubber-toughened epoxy: 1. Microstructure and fracture studies

A.J. Kinloch;S.J. Shaw;D.A. Tod;D.L. Hunston

1066
Citations
The science of adhesion

A. J. Kinloch

730
Citations
The science of adhesion: Part 1 Surface and interfacial aspects

A. J. Kinloch

615
Citations
The mechanisms and mechanics of the toughening of epoxy polymers modified with silica nanoparticles

T.H. Hsieh;A.J. Kinloch;K. Masania;A.C. Taylor

595
Citations
The peeling of flexible laminates

A. J. Kinloch;C. C. Lau;J. G. Williams

565
Citations
The analysis of interlaminar fracture in uniaxial fibre-polymer composites

S. Hashemi;Anthony James Kinloch;J. M. Williams

545
Citations
Mechanics of adhesive failure. II

E. H. Andrews;Anthony James Kinloch

526
Citations
The toughness of epoxy polymers and fibre composites modified with rubber microparticles and silica nanoparticles

T. H. Hsieh;A. J. Kinloch;K. Masania;J. Sohn Lee

505
Citations
Deformation and fracture behaviour of a rubber-toughened epoxy: 2. Failure criteria

A.J. Kinloch;S.J. Shaw;D.L. Hunston

461
Citations
Durability of structural adhesives

A. J Kinloch

434
Citations
Aligning multilayer graphene flakes with an external electric field to improve multifunctional properties of epoxy nanocomposites

Shuying Wu;Raj B. Ladani;Jin Zhang;Ehsan Bafekrpour

419
Citations
The effect of silica nano particles and rubber particles on the toughness of multiphase thermosetting epoxy polymers

A. J. Kinloch;R. D. Mohammed;A. C. Taylor;C. Eger

407
Citations
Erratum to: The toughness of epoxy polymers and fibre composites modified with rubber microparticles and silica nanoparticles (vol 45, pg 1193, 2010)

TH Hsieh;AJ Kinloch;K Masania;JS Lee

369
Citations
The use of a cohesive zone model to study the fracture of fibre composites and adhesively-bonded joints

B. R. K. Blackman;H. Hadavinia;A. J. Kinloch;J. G. Williams

363
Citations
Modelling of the toughening mechanisms in rubber-modified epoxy polymers

Y. Huang;A. J. Kinloch

352
Citations
The fracture of hybrid-particulate composites

A. J. Kinloch;D. L. Maxwell;R. J. Young

331
Citations
Crack blunting mechanisms in polymers

A. J. Kinloch;J. G. Williams

329
Citations
Toughening mechanisms of nanoparticle-modified epoxy polymers

B B Johnsen;A J Kinloch;R D Mohammed;S Sprenger

2
Citations