Finita elementanalys Jobs

We are looking for a specialist in electromagnetic systems modeling. With real-world experience modeling magnet lead screws, please include an example of your MLS modeling in your proposal.

I'm seeking an experienced mechanical engineer to develop a building energy model focused on energy modeling to qualify for energy rebates. Ideal skills and experience: - Expertise in energy modeling software like Trane Trace or similar. - Strong background in mechanical engineering principles - Proven track record in energy efficiency projects - Ability to analyze and interpret complex data - Experience with building systems and HVAC Please include relevant experience in your application.

I am developing a set of brand-new mechanical components in SolidWorks and need a specialist who can take those fresh CAD models straight into Ansys Workbench for detailed structural analysis. The task is to validate strength, identify critical stress regions, and suggest geometry or material tweaks before we freeze the design. You will receive the native SolidWorks files (latest version) plus basic load and boundary conditions. From there, I expect you to: • build a clean finite-element model in Ansys, • run linear static simulations under the supplied loads, • iterate if weak spots appear and propose design changes inside SolidWorks, and • deliver a concise PDF report with screenshots of mesh quality, contour plots, reaction summaries, and your design recommen...

Project Description Composite materials with periodic microstructures are widely used to engineer materials with tailored mechanical, thermal, or acoustic properties. A class of advanced composites called high-contrast composites (or metamaterials)- where the constituent material phases exhibit large differences in stiffness,density,or conductivity-are of particular interest as they display complex 'non- standard' wave mathematical study of the high-contrast regime results in non-local or frequency-dependent effective models that model rich dynamic behaviour that cannot be captured by the standard continuum approximations. This project aims to mathematically investigate such high-contrast periodic composites, focusing on how scale interactions lead to non-trivial wave phenomena,...

I need sixteen individual surface-textured pipe models prepared for direct use in Ansys Fluent. Each pipe must follow written dimensions that I will supply (no drawings), and the internal wall carries elliptical dimples arranged in series with varying heights. For every geometry, I require: • A clean, watertight .iges file of the pipe. • A Fluent-ready mesh whose first boundary-layer height is exactly 0.002 mm, overall aspect ratio stays below 20, and global element sizing is fine enough for accurate near-wall resolution. Please keep the workflow consistent across all sixteen cases so I can run comparative CFD studies without additional cleanup. I will check mesh statistics in Fluent; any cell group exceeding the aspect-ratio limit or breaking continuity will need revision. ...

We are an energy solutions company seeking an experienced solar PV engineer or consultant to conduct a preliminary technical feasibility study for the installation of solar PV panels on two semi-submersible accommodation vessels currently operating offshore Brazil. Scope of Work: The deliverable is a feasibility study report covering the following: System sizing based on available deck area (~324 sqm per vessel) and local solar irradiance conditions Assessment of key technical challenges specific to the offshore marine environment (dynamic vessel heading, motion and vibration loading, saltwater corrosion, shading analysis) Indicative equipment specifications (marine-grade PV panels, inverters, mounting systems) Electrical integration approach with the vessel's existing onboard power...

What the project is A comparative structural impact study of three lightweight occupant-cell concepts for a small side by side 2 seater urban vehicle: 1. Tubular frame (aluminium) 2. Monocoque frame (preferably carbon or maybe polyurethane like foam filled stuff) 3. Hybrid redesign based on the weaknesses found in 1 and 2 The occupants are side-by-side in every case. The impact speed is 28 mph (45 km/h) in every case. The impact conditions are: • frontal impact • side impact The purpose is to find which concept gives the best occupant protection for a lightweight design.

I need an Aspen simulation that focuses on full process design of a heat exchanger network. The goal is to build an accurate model and deliver a detailed thermal performance evaluation: temperatures, duties, pinch points, approach temperatures, and any bottlenecks that appear once the network is integrated into the overall process flow. You may work in Aspen Plus or HYSYS for the main flowsheet and use Exchanger Design & Rating (EDR) or Energy Analyzer for the network itself—whichever produces the most reliable convergence and reporting. Please document every assumption (fluid properties, fouling factors, pressure drops) directly in the model notes so I can reproduce your results. Acceptance criteria • Complete Aspen file(s) with all units converged • Thermal perfor...

I’m working on the next-generation gear systems that will drive our CNC turning centres, vertical machining centres, and multi-axis machines. What I need right now is a fresh, precise mechanical design for those individual gear components—everything from tooth profile definition through tolerance-ready manufacturing drawings. Here’s what the collaboration looks like: • Scope ‑ Purely mechanical design: no electronics or control work this round. ‑ Component-level focus: shafts, pinions, spur/helical gears and their mating relations inside the gearbox. ‑ The design must integrate smoothly with our existing machine envelopes and lubrication layouts at JYOTI CNC Automation Ltd. • Typical workflow 1. You receive my baseline requirements, speed/torq...

I need a complete modal and vibration study in ANSYS Student version 2026 that mirrors the methodology and numerical results reported in the research paper I will share. The structure is fixed at one end, no external forces or pressure are applied, and the material throughout is Nitinol (shape-memory alloy). My primary interest is in the natural frequencies; matching mode shapes would be a bonus, but frequency accuracy comes first. Please aim for results that are either identical to the paper or within a tight engineering tolerance—if you can document any unavoidable deviations, that is acceptable. All modelling, meshing and post-processing must be done inside the Student edition so I can reproduce everything on my own machine later. I EVEN WANT VIDEO OF HOW U MADE AND GOT RESULTS...

Project Title: Bio-Inspired Disc Brake Design with Dust Collection System (ANSYS Analysis) Project Description: I am a final-year engineering student working on a disc brake project. The main aim is to reduce the formation of the third body layer (dust and debris) on the brake disc by improving airflow and adding a dust collection system. We have already: Designed a basic disc brake model Tried different groove patterns (including Tesla valve-inspired shapes) Studied airflow behavior for dust movement Now, we want to develop a final improved design using bio-inspired groove patterns that can help create unidirectional airflow, pushing dust towards the collection system. What I Need Help With: I am looking for an experienced engineer who can guide and assist with: Suggesting bio-inspired gr...

I’m building a finite-element model in Abaqus to replicate a push-out test where steel beams are connected to CLT slabs. The sole objective is to capture and understand the deformation behaviours that develop throughout the load history, rather than ultimate strength or specific failure modes. Here’s what I need from you: • An accurately meshed, non-linear Abaqus model that represents the steel beam-to-CLT connection used in push-out testing (material orthotropy for CLT, contact definitions, appropriate boundary conditions, and loading protocol). • Post-processing that isolates global and local deformations and presents them as clear, publication-ready graphs and charts (force–slip curves, displacement contours, etc.). • All input files, output da...

I have a simple but critical industrial water system: one centrifugal pump feeds seven separate delivery points through a branched pipe network. The factory installed the network without any modeling in mind. Your brief is two-fold. First, verify every calculated flow rate and pressure drop from the pump discharge right up to each of the seven use points. Second, once the numbers are solid, help me refine or completely re-design the network if that will improve overall performance or simplify the pipework. What I need from you • Flow-rate analysis along every leg, confirming that each outlet meets its target demand. • Pressure-loss calculations, clearly identifying sections where friction losses or elevation changes are hurting performance. • A summary of flow rate a...

I am preparing a detailed multi-body simulation focused on the dynamics of the power transmission in a manual transmission and the crankshaft assembly. I urgently need an engineer who can: • Build a robust multibody model of the connecting shafts and input components of the gear train for a 5-speed manual transmission, the crankshaft assembly, • Run steady-state and transient analyses to capture torsional vibration, imbalance forces, and bearing loads • Document all assumptions, material properties, and boundary conditions so results are fully traceable • Recommend design tweaks if critical speed or NVH issues appear in the results Adams and Simpack, experience with either package is a bonus, but I’m also open to other comparable platforms if you can just...

I’m building a compact, four-legged robot and need a mechanical designer who can take it from concept to validated CAD. Whether you prefer SolidWorks or Fusion 360 is completely up to you—the important part is a solid background in robotics mechanisms, joints, linkages, and gears, backed by a portfolio that shows assemblies in motion rather than static renders. Project scope The core task is a lightweight yet strong leg architecture. Each leg will have hip and knee joints that must offer a wide range of motion and allow precise control once the actuators and gearing are in place. Please reserve internal volume and mounting points for a Jetson board alongside a battery pack, and route cabling logically so the final build stays neat. What I expect from you • A full 3D ...

I need a CT scan of the septal cartilage converted into a finite element model for medical research. The focus is on analyzing deformation patterns. Requirements: - Expertise in CT imaging and FEA - Background in medical research, particularly in cartilage or related areas - Proficiency in software used for FEA modeling - Attention to detail and accuracy in model creation Ideal Skills: - Mechanical engineering - Biomedical engineering - Computational mechanics Please provide relevant experience and a timeline for completion.

This project focuses on the validation of an experimental investigation on a novel Concrete-Filled Steel Tube (CFST) pier-to-foundation connection with tubed RC encasement using advanced finite element modeling in ABAQUS. The objective is to reproduce the experimental/numerical work presented in and verify the accuracy of the FE model by comparing: Load–displacement (load-drift) behavior Failure modes (FM1, FM2, FM3) Stress and strain distribution Lateral resistance and stiffness The ABAQUS model includes: Concrete Damaged Plasticity (CDP) for concrete Steel modeled with elastic–plastic behavior Surface-to-surface contact with friction Embedded constraints for reinforcement Boundary conditions simulating real test setup Validation is performed by comparing FE results with ...

Hi I will share the details with the shortlisted candidates. Thanks

This tssk focuses on using finite element analysis (FEA) to study the mechanical behaviour of a sugar mill roller shaft under realistic operating conditions. The task requires modelling the shaft in engineering software (NX Nastran) to predict how it deforms and where stresses are concentrated, particularly at critical نقاط where failure is likely due to fatigue. Students must apply appropriate loads (such as roll pressure and torque), define constraints, and choose suitable mesh and element types while justifying all modelling decisions. The analysis is carried out for two scenarios—roll load only, and combined roll load with torque—to compare their effects on stress and deformation. Finally, the results, assumptions, and engineering reasoning must be clearly presented in a st...