ABAQUS FDM Property Simulation

@tnowsolutions

Hello, I can reproduce the finite-element strategy from your attached thesis in ABAQUS and extend it to explore the effect of layer orientation and filament stacking on mechanical responses. I have experience in: • 3D FDM modeling and geometry generation for ABAQUS • Mesh generation, cohesive zone interface elements, and plasticity material models • Running simulations for tensile, flexural, and impact responses • Documenting assumptions, boundary conditions, and post-processing in concise technical memos I will deliver: • ABAQUS *.cae and *.inp files for every configuration • A memo summarising mesh, material, boundary, and post-processing details • Fully reproducible models so you can rerun simulations without errors and match the reported numerical values I can also integrate updated literature findings to compare simulations with recent experimental data, strengthening the research insights. I can start immediately once I have the thesis and any baseline CAD or material data. Best regards, Muhammad Jibran

@ibrahiman58

Timeline: 6 days | Budget: ₹30,000 Hi there. Because your project is my major, I think I am a right person for your project. I will meticulously study the provided thesis, extract the finite‑element methodology and recreate the baseline FDM part in ABAQUS using cohesive zone and plasticity models. The model will be parametrized to allow easy variation of filament orientation (45°/‑45°) and layer stacking, with a Python script that regenerates geometry, mesh and boundary conditions for each configuration. Mesh convergence and material calibration will be performed to match the reported tensile, flexural and impact responses, and the same procedure will be applied to the extended parameter set. All simulations will generate *.cae and *.inp files, result plots, raw data and a concise technical memo documenting assumptions, mesh details, material models and post‑processing steps. I will validate the workflow by reproducing the thesis values and then deliver the files ready for you to rerun or modify without errors. I hope to hear from you. Thank you.

@feamechanical13

Hi, this project fits very well with my background. I’m a Mechanical Engineer and Doctoral Researcher specializing in Finite Element Analysis using Abaqus, and I regularly build high-fidelity models involving nonlinear materials, contact, and validation against experimental data. I also have strong CAD experience (e.g., SolidWorks) to generate precise geometries for simulation workflows. Reproducing the thesis model and extending it to study filament orientations (e.g., 45°/-45° layers) and their effect on tensile, flexural, and impact response is exactly the kind of physics-based modeling I work on. I can deliver clean, well-structured .cae/.inp files and a clear technical memo so you can easily reproduce every simulation. I’d be happy to review the thesis and discuss how we can implement and extend the model efficiently.