JOURNAL PAPERS

An energy method to assess second-order effects in bolted T-stubs. Chiara-Faralli A., Tan P.J., Wrobel P. (2017). Under preparation.

Large deformation and second-order effects in T-stub connections: Part I - Experiments. Faralli A.C., Latour M., Tan P.J., Rizzano G., Wrobel P. (2017). Submitted for publication.

Large deformation and second-order effects in T-stub connections: Part II - Modelling and failure maps. Faralli A.C., Latour M., Tan P.J., Rizzano G., Wrobel P. (2017). Submitted for publication.

Dynamic crack-interface interactions in SGP laminated glass: an experimental investigation. Xu C., Yuan Y., Zhao C., Tan P.J., Xu X., Li Y. (2017). Submitted for publication.

Dynamic structural response of laminated glass panels to blast loading. Yuan Y., Tan P.J., Li Y. (2017). Composite Structures, 182, 579-589.

On large deformation, damage and failure of ductile plates to blast load. Yuan Y., Tan P.J. (2017). Submitted for publication.

Pressure-impulse diagrams for fully-clamped elasto-plastic beams. Yuan Y., Tan P.J. (2017). Submitted for publication.

A review on recent advances in dynamic fracture experiments and computational techniques. Shojaei K.A., Voyiadjis G.Z., Tan P.J. (2016). Submitted for publication.

Bridging organ and cellular-level behavior in cardiac electrophysiology using populations of models. Ledezma C.A., Kappler B., Meijborg V.M.F., Boukens B., Stijnen M., Tan P.J., Diaz-Zuccarini V. (2017). Submitted for publication.

Failure deformation maps for bolted T-stubs. Chiara-Faralli A., Tan P.J., McShane G.J., Wrobel P. (2017). Submitted for publication.

An assessment of design requirements against external blast loading for naval ship superstructure. Liu L., Tan P.J., Yuan Y., Wrobel P. (2017). Submitted for publication.

Shear and compression fatigue of periodic lattices. Christodoulou I., Tan P.J. (2017). Submitted for publication.

On momentum and energy transfer to clamped elasto-plastic beam in intense air blasts. Yuan Y., Tan P.J. (2017). Submitted for publication.

Effects of size on the toughness of cracked elastic-brittle isotropic lattices. Christodoulou I., Tan P.J. (2017). Submitted for publication.

Edge effects in periodic lattices. Christodoulou I., Tan P.J. (2017). Submitted for publication.

Dynamics, stability and controllability of a lower limb exoskeleton. Braghieri G., Ghilardelli F., Tan P.J. (2017). Submitted for publication.

The influence of deformation limits on fluid-structure interactions in underwater blasts. Yuan Y., Tan P.J., Shojaei K.A., Wrobel P. (2016). International Journal of Impact Engineering, 101, 9-23.

Large deformation, damage evolution and failure of ductile structures to pulse-pressure loading. Yuan Y., Tan P.J., Shojaei K.A., Wrobel P. (2016). International Journal of Solids and Structures, 96, 320-339.

Dynamic delamination in laminated fiber reinforced composites: a continuum damage mechanics approach. Shojaei A., Li G., Tan P.J., Fish J. (2015). International Journal of Solids and Structures, 71, 262-276.

Multi-scale constitutive modeling of ceramic matrix composites by Continuum Damage Mechanics. Shojaei A., Li G., Fish J., Tan P.J. (2014). International Journal of Solids and Structures, 51(23-24), 4068-4081.

Energy and momentum transfer to a clamped elastic plate in an air-blast. Yuan Y., Tan P.J. (2014). Applied Mechanics and Materials, 566, 262-267.

Viscoplastic constitutive theory for brittle to ductile damage in polycrystalline materials under dynamic loading. Shojaei A., Voyiadjis G. Z., Tan P.J. (2013). International Journal of Plasticity, 48, 125-151.

Crack initiation and fracture toughness of random Voronoi honeycombs. Christodoulou I., Tan P.J. (2013). Engineering Fracture Mechanics, 104, 140-161.

Deformation and failure of rectangular plates subjected to impulsive loadings. Yuan Y., Tan P.J. (2013). International Journal of Impact Engineering, 59, 46-59.

Role of specimen size upon the measured toughness of cellular solids. Christodoulou I., Tan P.J. (2013). Journal of Physics: Conference Series, 451(1).

Energy and momentum transfer to a 'fully-clamped' elastic plate in an air-blast. Yuan Y., Tan P.J. (2013). Journal of Physics: Conference Series, 451(1).

On the dynamic mechanical properties of open-cell metal foams - A re-assessment of the 'simple-shock theory'. Tan P.J., Reid S. R., Harrigan J. J. (2012). International Journal of Solids and Structures, 49(19-20), 2744-2753.

Dynamic crushing of honeycombs and features of shock fronts. Zou Z., Reid S. R., Tan P.J., Li S., Harrigan J. J. (2009). International Journal of Impact Engineering, 36(1), 165-176.

Dynamic crushing of a one-dimensional chain of type II structures. Zou Z., Tan P.J., Reid S. R., Li S., Harrigan J. J. (2007). International Journal of Impact Engineering, 34(2), 303-328.

High rate crushing of wood along the grain. Harrigan J. J., Reid S. R., Tan P.J., Reddy T. Y. (2005). International Journal of Mechanical Sciences, 47(4-5), 521-544.

Dynamic compressive strength properties of aluminium foams. Part I - experimental data and observations. Tan P.J., Reid S. R., Harrigan J. J., Zou Z., Li S. (2005). Journal of the Mechanics and Physics of Solids, 53(10), 2174-2205.

Dynamic compressive strength properties of aluminium foams. Part II - 'shock' theory and comparison with experimental data and numerical models. Tan P.J., Reid S. R., Harrigan J. J., Zou Z., Li S. (2005). Journal of the Mechanics and Physics of Soids, 53(10), 2206-2230.

Discussion: "The resistance of clamped sandwich beams to shock loading" (Fleck, N. A., and Deshpande, V. S., 2004, ASME J. Appl. Mech., 71, pp. 386-401). Tan P.J., Reid S. R., Harrigan J. J. (2005). Journal of Applied Mechanics, Transactions ASME, 72(6), 978-980.

Inertia effects in uniaxial dynamic compression of a closed cell aluminium alloy foam. Tan P.J., Harrigan J. J., Reid S. R. (2002). Materials Science and Technology, 18(5), 480-488.


CONFERENCE PROCEEDINGS and ARTICLES

Using population of models to navigate big data in electrophysiology: evaluation of parameter sensitivity of action potential models. Ledezma C.A., Kappler B., Meijborg V.M.F., Boukens B., Stijnen M., Tan P.J., Diaz-Zuccarini V. (2017) In Computing in Cardiology, Rennes (France).

A big data approach to myocyte membrane analysis:using populations of models to understand the cellular causes of heart failure. Ledezma C.A., Kappler B., Meijborg V.M.F., Boukens B., Stijnen M., Tan P.J., Diaz-Zuccarini V. (2017) In Computing in Cardiology, Rennes (France).

Evaluating the risks of arrhythmia through big data: automatic processing and neural networks to classify epicardial electrograms. Ledezma C.A., Kappler B., Meijborg V.M.F., Boukens B., Stijnen M., Tan P.J., Diaz-Zuccarini V. (2017) In Computing in Cardiology, Rennes (France).

Influence of specimen configuration and size on toughness of cellular solids. Tan P.J., Christodoulou I. (2013). In Symposium on Porous Materials. Maribor, Slovenia.

Crack initiation and fracture toughness of random Voronoi lattices. Christodoulou I., Tan P.J. (2012). In IMA Conference on Mathematics of Medical Devices and Surgical Procedures. UCL, London, UK.

On the dynamic mechanical properties of open-cell metal foams. In IUTAM Symposium: Mechanics of Liquid and Solid Foams. Tan P.J., Reid S. R., Harrigan J. J. (2011). Austin, Texas, US.

High-rate compaction of aluminium alloy foams. In M. D. Furnish M. Elert, T. P. Russell & C. T. White (Eds.), Harrigan J. J., Hung Y. C., Tan P.J., Bourne N. K., Withers P.J., Reid S. R., Milne A. M. (2006). Shock Compression of Condensed Matter - 2005, Pts 1 and 2 Vol. 845 (pp. 1519-1522). Baltimore, MD: AMER INST PHYSICS.

Effects of non-periodic microstructure and imperfections on the dynamic response of two-dimensional cellular materials. Zou Z., Tan P.J., Li S., Harrigan J. J., & Reid S. R. (2003). In Mechanics and Materials Conference. Scottsdale, Arizona.

Dynamic properties of aluminium foam: Measurements and Modelling. Harrigan J. J., Tan P.J., Reid S. R. (2002). In 14th US National Congress of Theoretical and Applied Mechanics. Blacksberg, Virginia.

Influence of cell size and morphology on the dynamic compressive strength of aluminium alloy foams. In J. Banhart M. Ashby & N. Fleck (Eds.), Tan P.J., Harrigan J. J., Reid S. R. (2001). Cellular Metals amd Metal Foaming Technology (pp. 345-350). Bremen, Germany: Verlag-MIT Publishing.

The crushing strength of aluminium alloy foam at high rates of strain. Reid S. R., Tan P.J., Harrigan J. J. (2001). In A. Chiba S. Tanimura & K. Hokamoto (Eds.), Impact Engineering and Application, Vols I AND II (pp. 15-22). Kumamoto, Japan: Elsevier Science BV.


OTHERS

Volcanic hazard from Iceland: Analysis and implications of the Eyjafjallajökull eruption. In Sammonds P., McGuire B., Edwards S. (Eds.), UCL Institute of Risk and Disaster Reduction.

Dynamic mechanical properties of metal foams. Tan P.J. (2005). PhD Thesis, The University of Manchester