FEA Soulutions
The P2S simulation team offers a variety of FEA consulting services to help solve design problems, meet performance requirements, decrease iteration cycles, and ensure a smooth prototype phase.
Elevate your engineering endeavors to unparalleled heights with Finite Element Analysis (FEA). Our FEA solutions empower you to simulate and analyze complex structures, materials, and mechanical behaviors with exceptional precision. Transform concepts into reality, navigate intricate challenges with confidence, and revolutionize your design process with FEA—a powerful ally in shaping the future of innovation. P2S can assist you whether you require more assistance for your simulation team or if you’re searching for an end-to-end analysis solution.
Our Services
- Structural Analysis
- Explicit dynamic analysis
- Multi body dynamics
- Modal and Random vibration analysis
Structural Analysis
Elevate your engineering prowess with ANSYS static structural analysis, a cutting-edge solution that guarantees unparalleled precision in predicting structural behavior under diverse loading scenarios.
• Vital abilities
- Stress, strain, deformations
- Buckling
- Topology optimization
- Contact stress
- Hyper elasticity
• Deal with
From linear static to nonlinear and dynamic analyses, ANSYS ensures versatility in addressing a myriad of structural challenges, saving both time and costs by identifying potential issues early in the design phase.
Explicit dynamic analysis
This advanced tool within the ANSYS suite enables users to simulate high-speed impact, crash events, and other dynamic scenarios with precision and accuracy.
• Vital abilities
- Impact
- Crash
- High speed events
- Quasi-static
• Deal with
Explicit Dynamics leverages an explicit time integration
scheme, allowing for the accurate representation of
transient phenomena such as shock waves, vibrations,
and nonlinear material behavior
Multi body dynamics
Multibody dynamics (MBD) in ANSYS involves the simulation and analysis of the motion and interaction of interconnected rigid or flexible bodies.
• Vital abilities
- Force calculation
- Torque calculation
- Frictional effects
- Kinematic & dynamic motion
- Optimizing design
• Deal with
Multibody dynamics simulations in ANSYS are valuable for studying the dynamic response of mechanical systems, predicting their performance, and optimizing designs across various engineering disciplines, such as
automotive, aerospace, and robotics
Modal and Random vibration analysis
Modal and random vibration analysis in ANSYS involves
assessing the dynamic behavior of structures subjected
to varying loads.
• Vital abilities
- Natural frequencies
- Mode shapes
- Damping ratios of structures
- Structure response to dynamic forces
• Deal with
By combining modal and random vibration analyses in ANSYS, engineers gain valuable insights into a structure’s dynamic behavior, enabling them to design and optimize systems that can withstand complex and unpredictable loading conditions