Jim Brouzoulis
Jim disputerade 2012 med avhandlingen "Numerical simulation of crack growth and wear in rails", där hans arbete fokuserade på utveckling av beräkningsmodeller för simulering av spricktillväxt i järnvägsräls. Arbetet utfördes inom kompetenscentrumet CHARMEC.
Nu arbetar Jim som postdoc på avdelningen för Material och Beräkningsmekanik. Hans forskning handlar om utveckling av effektiva beräkningsmodeller för simulering av krock av kompositer med inriktning mot fordonsindustrin. Jim är också aktiv inom EU-projektet MATISSE.

Visar 46 publikationer
Constructive allignment by use of project assignments in solid mechanics courses
PREDICTION OF MATRIX INDUCED DELAMINATIONS USING AN ENRICHED SHELL ELEMENT APPROACH
Constructive alignment in solid mechanics courses by means of project assignments
Delamination initiation and propagation modelling with an enriched shell element formulation
MODELING EVOLUTION OF ANISOTROPY IN PEARLITIC STEEL DURING COLD WORKING
Modelling multiple delamination and intralaminar cracks using a single-layer shell approach
Simulation of material degradation in track switches
PREDICTION OF THROUGH-THICKNESS STRESS DISTRIBUTION IN LAMINATED SHELL STRUCTURES
Fracture modeling of composite laminates based on phase field damage evolution in shell kinematics
Modelling multiple delaminations and through-thickness cracking in fibre composites using shells
A fully coupled multiscale shell formulation for the modelling of fibre reinforced laminates
The effect of anisotropy on crack propagation in pearlitic rail steel
Wear impact on rolling contact fatigue crack growth in rails
Modelling of multiple delaminations in shells using XFEM
Modelling of multiple delaminations in shells using XFEM
Utilising the eXtended Finite Element Method (XFEM) to model failure of thin-walled structures
Wear impact on rolling contact fatigue crack growth in rails
Crack propagation in rails under rolling contact fatigue loading conditions based on material forces
The effect of anisotropy on crack propagation in pearlitic rail steel
Strategies for planar crack propagation based on the concept of material forces
Crack propagation in rails under RCF loading conditions based on material forces
Crack propagation in rails based on the concept of material forces
Crack propagation in rails based on the concept of material forces
Simulation of wheel-rail contact and damage in switches & crossings
Propagation of a single head check crack under RCF conditions
On crack propagation in rails under RCF loading conditions
Simulation of wheel-rail contact and damage in switches & crossings
Propagation of a single crack under RCF conditions using the concept of material forces
RCF crack propagation in rails
Crack Propagation in Linear Elasticity Based on the Concept of Material Forces
Ladda ner publikationslistor
Du kan ladda ner denna lista till din dator.
Filtrera och ladda ner publikationslista
Som inloggad användare hittar du ytterligare funktioner i MyResearch.
Du kan även exportera direkt till Zotero eller Mendeley genom webbläsarplugins. Dessa hittar du här:
Zotero Connector
Mendeley Web Importer
Tjänsten SwePub erbjuder uttag av Researchs listor i andra format, till exempel kan du få uttag av publikationer enligt Harvard och Oxford i .RIS, BibTex och RefWorks-format.
Visar 3 forskningsprojekt
Modellering av krockbeteendet i framtida lättviktsfordon