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T-Flex Analysis - Features - Engineers - Loading - Analysis Calculations

T-FLEX CAD ] T-FLEX CAM ] T-FLEX Analysis ] T-FLEX PDM ]

T-FLEX Analysis

Features and Specifications

T-FLEX Analysis offers a wide spectrum of powerful tools to help engineers to perform virtual testing and analysis for predicting the physical behavior under various loading conditions. Fully integrated with T-FLEX CAD modeling software T-FLEX Analysis allows you to test a design and run multiple iterations without ever leaving T-FLEX CAD.

T-FLEX Analysis utilizes the T-FLEX CAD Model Tree, Properties dialog boxes, command and menu structure, and many of the same mouse and keyboard commands, so anyone who can design a part in T-FLEX CAD can analyze it without having to learn a new interface. Plus, since T-FLEX Analysis uses native T-FLEX CAD geometry, design changes made in a model are automatically updated for analysis calculations.

Regardless of industry application, from aerospace to machine-tool, T-FLEX Analysis provides significant product quality benefits; enabling engineers to go beyond hand calculations and verify proof of concept for their designs. Quick and inexpensive analysis often reveals non intuitive solutions and benefits engineers by providing them with a better understanding of product characteristics.

Field failures can lead to costly recalls and liability issues. T-FLEX Analysis shows how a model will perform under real-world conditions before it is built. The ability to perform quick and inexpensive design iterations prior to releasing the design has become a critical competitive advantage. T-FLEX Analysis enables designers to meet functional design specifications but not waste materials helping to reduce cost of production, shipping, and packaging.

T-FLEX Analysis Capabilities

Linear static studies calculate displacements, reaction forces, strains, stresses, and factor of safety distribution. Static analysis can help you avoid failure due to high stresses. Various structural loads and restraints can be specified including force, pressure, gravity, rotational load, bearing force, torque, prescribed displacement, temperature, etc.

Frequency analysis calculates the natural frequencies and the associated mode shapes. When a body is subject to a vibrating environment, frequency studies can help you avoid failure due to excessive stresses caused by resonance. It also provides information to solve dynamic response problems.

 

 

Buckling studies help avoid failure due to buckling which refers to sudden large displacements due to axial loads. Buckling analysis provides the lowest buckling load which is of interest.

 

 

Thermal studies calculate temperatures, temperature gradients, and heat flow based on heat generation, conduction, convection, and radiation conditions. Thermal analysis can help you avoid undesirable thermal conditions like overheating and melting.

Write to 4C Consultants, India today for pricing and purchase of T-FLEX in India.
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