Heavy Structures & Special Purpose Machinery
Finite Element Analysis (FEA) is crucial for designing and validating heavy structures and special-purpose machinery. It ensures components can handle high static and dynamic loads found in industrial and construction equipment. FEA identifies stress concentrations and potential failure points to improve safety. It evaluates vibration and dynamic behaviour to prevent resonance and ensure smooth operation. FEA also supports material-efficient, cost-effective design optimization.
- • Ensures structural strength and stability under heavy loads.
- • Detects stress hotspots to enhance reliability and safety.
- • Analyses vibration and dynamics for smoother machine performance.
- • Optimizes designs to reduce material use while maintaining durability.
- • Evaluates structural strength and load-carrying capacity during sliding, lifting, and shifting operations.
- • Identifies stress concentrations at supports, rollers, guides, and connection points to prevent deformation or failure.
- • Assesses frictional forces, wear, and stability during movement under varying load conditions.
- • Optimizes girder geometry and material usage for smoother sliding, increased durability, and improved safety.
- • Evaluates structural strength and load capacity during pressing operations.
- • Identifies stress concentrations at the C-frame throat, ram guides, and joints to prevent failure.
- • Assesses deflection, friction, and wear under centred and eccentric loads.
- • Optimizes frame geometry and material for improved stiffness, durability, and operational safety.
- • Evaluates structural strength and load-carrying capacity under static and operational loads.
- • Identifies stress concentrations at base plates, anchor points, stiffeners, and connections.
- • Assesses stability, deflection, and vibration to prevent misalignment or failure.
- • Optimizes structural layout and material usage for improved rigidity, durability, and safety.