By Dr Damith Mohotti

Conference Papers

Mohotti D; Mendis P; Ngo T, 2014, 'Application of computational fluid dynamics (CFD) in predicting the wind loads on tall buildings- A case study', Byron Bay, Australia, presented at 23rd Australasian Conference on the Mechanics of Structures and Materials, Byron Bay, Australia, Byron Bay, Australia, 09 December 2014 - 12 December 2014

Ngo T; Mohotti D; Remennikov A; Uy B, 2014, 'Response and failure mechanism of tubular steel columns subjected to close-range explosions', Byron Bay, Australia, pp. 1045 - 1050, presented at 23rd Australasian Conference on the Mechanics of Structures and Materials (ACMSM23), Byron Bay, Australia, 09 December 2014 - 12 December 2014

Mendis P; Mohotti D; Ngo T, 2014, 'Wind Design of Tall Buildings, Problems, Mistakes and Solutions', Melbourne, Australia, presented at 1 st International Conference on Infrastructure Failures and Consequences (ICIFC2014), Melbourne, Australia

Mohotti D; Ngo T; Mendis P, 2012, 'Application of computational fluid dynamics (CFD) in analysis of tall buildings', Kandy, Sri Lanka, presented at International conference of structural engineering and construction management, Kandy, Sri Lanka

Mohotti D; Lunmantara R; Ngo T; Mendis P, 2010, 'Improving the safety of buildings through an innovative sustainable façade system', Kandy, Sri Lanka, presented at International Conference on Sustainable Build Environment (ICSBE-2010), Kandy, Sri Lanka

Mohotti D; Ngo T; Mendis P, 2010, 'Numerical simulation of impact and penetration of ogvial shaped projectiles through steel plate structures', Kandy, Sri Lanka, presented at International Conference on Sustainable Build Environment (ICSBE-2011), Kandy, Sri Lanka

Conference Presentations

Mohotti D; Wijesooriya K; Yu JS; Lee CK; Mendis P, 2023, 'Low-velocity impact resistance of graphene oxide (GO) incorporated concrete composite beams', presented at Concrete Institute of Australia’s Biennial National Conference (CIA-2023), Perth, 10 September 2023 - 13 September 2023

Conference Abstracts

Widanage C; Wijesooriya K; Lee CK; Mohotti D, 2023, 'Prediction of open-air blast positive phase peak impulse using deep learning', in Proceeding of the 26th International Symposium on Military Aspects of Blast and Shock (MABS26), Wollongong, presented at The 26th International Symposium on Military Aspects of Blast and Shock (MABS26), Wollongong, 03 December 2023 - 08 December 2023, https://mabs.ch/data/documents/26-088.pdf

Mohotti D; Wijesooriya K; Lee CK, 2022, 'Polyurethane and its Ability to Absorb and Dissipate High Impact Energy for Damage Prone Structures', in Proceedings of the 4th International Conference on Emerging Advanced Nanomaterials (ICEAN 2022), The NEX, Newcastle, Australia, presented at the 4th International Conference on Emerging Advanced Nanomaterials (ICEAN 2022), The NEX, Newcastle, Australia, 17 October 2022 - 21 October 2022

Reports

Mohotti D; Weckert S, 2022, Numerical investigation of the shockwave overpressure fields of Fuel-Air explosions (FAE)

Mohotti D; Weckert S, 2021, CFD in shock wave propagation

Mohotti D, 2020, Comprehensive numerical simulation of multiple charge interaction within a confined volume

Mohotti D; Ngo T; Mendis P; Yang E, 2015, Stress tri-axiality on steel and aluminium specimens to derive Johnson-Cook constitutive and fracture model parameters

Mohotti D; Mendis P; Ngo T, 2012, High strain rate Tests, Defence Materials Technology Centre (DMTC)

Media

Niven R; Lee CK; Mohotti D; Hazell P, 2022, How to survive a tactical nuclear bomb? Defence experts explain, The Conversation Media Group Ltd, https://theconversation.com/how-to-survive-a-tactical-nuclear-bomb-defence-experts-explain-181340#:~:text=You%20must%20protect%20yourself%20from,doors%2C%20windows%20and%20air%20gaps.

Preprints

Fonseka I; Mohotti D; Wijesooriya K; Lee CK; Mendis P, 2023, Influence of Graphene Oxide on Abrasion Resistance and Strength of Concrete, http://dx.doi.org/10.2139/ssrn.4529077

Ekanayake IU; Palitha S; Gamage S; Gamage DPP; Wijesooriya K; Mohotti D, 2023, Predicting Adhesion Strength of Micropatterned Surfaces Using Gradient Boosting Models and Explainable Artificial Intelligence Visualizations, http://dx.doi.org/10.2139/ssrn.4453984

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