2026 Ian Burgess: Engineering and Technology Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	42	6646	6418	419	398	207	6214

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Engineering and Technology

6646

6418

419

398

207

6214

Engineering and Technology

D-Index

Citations

6214

World Ranking

6646

National Ranking

419

Overview

Ian Burgess is affiliated with the University of Sheffield in the United Kingdom. Their research primarily focuses on engineering, with a specialization in civil and structural engineering. Their work covers related subfields such as building and construction, safety, risk, reliability, and quality, as well as materials chemistry.

The main topics of Ian Burgess's research include:

Fire effects on concrete materials
Structural response to dynamic loads
Fire dynamics and safety research
Structural load-bearing analysis
Structural behavior of reinforced concrete
High-velocity impact and material behavior
Wood treatment and properties

Ian Burgess has published extensively in several academic venues. The most frequent publication venues are:

Engineering Structures
Fire Safety Journal
ce/papers
Journal of Constructional Steel Research
Journal of Structural Fire Engineering

Their recent papers include:

"Performance of a novel ductile connection in steel-framed structures under fire conditions," 2020, Journal of Constructional Steel Research
"Fire performance of axially ductile connections in composite construction," 2021, Fire Safety Journal
"Component-based modelling of a novel ductile steel connection," 2020, Engineering Structures
"An integrated yield-line approach to tensile and compressive membrane actions in thin lightly-reinforced concrete slabs," 2020, Engineering Structures
"Modelling of composite fin-plate connections under fire conditions using component-based method," 2022, Engineering Structures

Frequent co-authors collaborating with Ian Burgess include:

Shan-Shan Huang
Yu Liu
Neno Torić
Buick Davison
Martyn S. McLaggan

Best Publications

A theoretical approach to the deformation of honeycomb based composite materials

F.K. Abd El-Sayed;R. Jones;I.W. Burgess

231
Citations
Performance-Based Fire Engineering of Structures

Yong Wang;Ian Burgess;František Wald;Martin Gillie

223
Citations
Progressive collapse analysis of steel structures under fire conditions

Ruirui Sun;Zhaohui Huang;Ian W Burgess

221
Citations
Modeling Membrane Action of Concrete Slabs in Composite Buildings in Fire. I: Theoretical Development

Zhaohui Huang;Ian W. Burgess;Roger J. Plank

200
Citations
Modeling Membrane Action of Concrete Slabs in Composite Buildings in Fire. II: Validations

Zhaohui Huang;Ian W. Burgess;Roger J. Plank

185
Citations
Experimental investigation of the behaviour of fin plate connections in fire

Hongxia Yu;I.W. Burgess;J.B. Davison;R.J. Plank

177
Citations
A nonlinear analysis for three-dimensional steel frames in fire conditions

S.R. Najjar;I.W. Burgess

163
Citations
A comparison of some simple constitutive relations for slightly compressible rubber-like materials

M. Levinson;I.W. Burgess

162
Citations
Nonlinear Analysis of Reinforced Concrete Slabs Subjected to Fire

Zhaohui Huang;Ian W. Burgess;Roger J. Plank

158
Citations
Numerical simulation of bolted steel connections in fire using explicit dynamic analysis

Hongxia Yu;I.W. Burgess;J.B. Davison;R.J. Plank

153
Citations
Experimental behaviour of concrete floor slabs at large displacements

S. J. Foster;C. G. Bailey;Ian W. Burgess;R. J. Plank

151
Citations
The effect of axial restraint on the fire resistance of steel columns

Faris A Ali;Paul Shepherd;Michael Randall;Ian W Simms

142
Citations
Analyses of the effects of cooling and fire spread on steel-framed buildings

C.G. Bailey;I.W. Burgess;R.J. Plank

140
Citations
Finite element modelling of steel fin plate connections in fire

M. Sarraj;I.W. Burgess;J.B. Davison;R.J. Plank

138
Citations
Moment–rotation–temperature curves for semi-rigid joints

K.S. Al-Jabri;I.W. Burgess;T. Lennon;R.J. Plank

126
Citations
Behaviour of steel and composite beam-column connections in fire

K.S Al-Jabri;T Lennon;I.W Burgess;R.J Plank

126
Citations
The collapse behaviour of braced steel frames exposed to fire

Ruirui Sun;Zhaohui Huang;Ian W. Burgess

114
Citations
Thermal and structural behaviour of a full-scale composite building subject to a severe compartment fire

Samantha Foster;Magdaléna Chladná;Christina Hsieh;Ian Burgess

114
Citations
Tying capacity of web cleat connections in fire, Part 1: Test and finite element simulation

Hongxia Yu;I.W. Burgess;J.B. Davison;R.J. Plank

106
Citations
ELEVATED-TEMPERATURE MOMENT-ROTATION TESTS ON STEELWORK CONNECTIONS.

L C Leston Jones;L C L Jones;I W Burgess;T Lennon

106
Citations