Finite Element Analysis is a very important method for testing part designs using different analysis procedures. FEA is a process of simulating a component design through a different type of techniques in order to test the strength and product design feasibility of any component.
Non-linear FEA Services should be used in various commercial factors. It is used to reduce project development cost, reduce its lead time and enable it to develop products that are better than those produced by its competitors.
In many projects the use of nonlinear finite element analysis can provide this kind of benefits.
Applied non linear FEA analysis concept to FEA engineering industries because it has an easy-to-use interface, provides a wide range of analysis potentials including a powerful implicit nonlinear solver and is affordable.
Once a detailed FEA model has been developed, FE analysis can analyze the design in detail, saving time and money by reducing the number of prototypes required.
Non-linear FEA benefits include Mechanical Event Simulation (MES) and FEA stress with linear and nonlinear models, transient heat transfer, linear dynamics, steady and unsteady fluid flow and piping.
Benefits of Non-linear FEA Analysis Include:
- Product Development
- Safety Qualification
- Manufacturing
- Failure Analysis
- Accuracy, timeliness that exceed your expectations
- Reduction in field failures
- Faster time-to-market for your product
- Increased productivity
- Overall cost reduction
- Elimination of design iteration by incorporating FEA in the earlier stages
- Increased reliability and efficiency
The mechanical engineering discipline includes various factors such as strength of materials, mechanism kinematics and dynamics, collisions, fluid dynamics, heat transfer, functional design and manufacturing processes.
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