Danny Hopkin
Danny Hopkin
Verified email at ofrconsultants.com
Cited by
Cited by
The need for hierarchies of acceptance criteria for probabilistic risk assessments in fire engineering
R Van Coile, D Hopkin, D Lange, G Jomaas, L Bisby
Fire technology 55 (4), 1111-1146, 2019
A numerical study of gypsum plasterboard behaviour under standard and natural fire conditions
DJ Hopkin, T Lennon, J El‐Rimawi, VV Silberschmidt
Fire and Materials 36 (2), 107-126, 2012
Certain Uncertainty-Demonstrating safety in fire engineering design and the need for safety targets.
D Hopkins, R Van Coile, D Lange
SFPE Europe, 2017
Probabilistic models for temperature-dependent strength of steel and concrete
R Qureshi, S Ni, N Elhami Khorasani, R Van Coile, D Hopkin, T Gernay
Journal of Structural Engineering 146 (6), 04020102, 2020
Large scale natural fire tests on protected engineered timber floor systems
T Lennon, D Hopkin, J El-Rimawi, V Silberschmidt
Fire safety journal 45 (3), 168-182, 2010
The meaning of Beta: background and applicability of the target reliability index for normal conditions to structural fire engineering
R Van Coile, D Hopkin, L Bisby, R Caspeele
Procedia engineering 210, 528-536, 2017
Efficient uncertainty quantification method applied to structural fire engineering computations
T Gernay, R Van Coile, NE Khorasani, D Hopkin
Engineering Structures 183, 1-17, 2019
An effective thermal property framework for softwood in parametric design fires: Comparison of the Eurocode 5 parametric charring approach and advanced calculation models
DJ Hopkin, J El-Rimawi, V Silberschmidt, T Lennon
Construction and Building Materials 25 (5), 2584-2595, 2011
Full-scale natural fire tests on gypsum lined structural insulated panel (SIP) and engineered floor joist assemblies
DJ Hopkin, T Lennon, J El-Rimawi, V Silberschmidt
Fire safety journal 46 (8), 528-542, 2011
Design fires for use in fire safety engineering
C Mayfield, D Hopkin
BRE, 2011
ICE manual of construction materials
M Forde
Thomas Telford, 2009
A review of design values adopted for heat release rate per unit area
C Hopkin, M Spearpoint, D Hopkin
Fire Technology 55 (5), 1599-1618, 2019
A review of fire resistance expectations for high-rise UK apartment buildings
D Hopkin
Fire technology 53 (1), 87-106, 2017
Testing the single zone structural fire design hypothesis
DJ Hopkin
Interflam 2013, Proceedings of the 13th International Conference, 24-26, 2013
Review of current practice in probabilistic structural fire engineering: permanent and live load modelling
B Jovanović, R Van Coile, D Hopkin, N Elhami Khorasani, D Lange, ...
Fire Technology 57, 1-30, 2021
Developing fragility curves and estimating failure probabilities for protected steel structural elements subject to fully developed fires
D Hopkin, R Van Coile, I Fu
10th International Conference on Structures in Fire, 2018
Demonstrating adequate safety for a concrete column exposed to fire, using probabilistic methods
R Van Coile, D Hopkin, N Elhami‐Khorasani, T Gernay
Fire and Materials 45 (7), 918-928, 2021
Cost-benefit analysis of residential sprinklers–Application of a judgement value method
D Hopkin, M Spearpoint, M Arnott, R Van Coile
Fire safety journal 106, 61-71, 2019
Timber Structures Subject to Non-Standard Fire Exposure–Advances and Challenges
D Hopkin, J Schmid, K Friquin
world conference on timber engineering, Vienna, Austria, 2016
The fire performance of engineered timber products and systems
DJ Hopkin
Loughborough University, 2011
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