Complete integration with I-DEAS Master FEM allows you to create models which are fully associative with geometry, and to reuse existing finite element models for thermal analysis. Leading edge solver technology provides solid reliability and superior solution speed for even the most challenging problems. With TMG, accurate thermal analysis can be performed quickly and effectively, delivering the engineering insight and turnaround speed needed to ensure success within today's rapid development cycles.

User interface is icon-driven and forms-based, minimizing learning time and enhancing productivity.

Rigorous control volume scheme computes accurate conductive terms even for highly skewed matrices.

Thermal Couplings tool allows heat flow to be modeled between disjoint meshes.

Innovative view factor and ray-tracing technology enables you to perform sophisticated thermal radiation analysis, including environmental heating effects.

Bi-spectral capability allows easy simulation of high-temperature lamps or other radiative heat sources.

TMG duct flow provides integrated simulation of one-dimensional fluid flow and convective heat transfer, based on a hydraulic network approach. The thermal and network flow models are fully coupled, providing accurate simulation of both free and forced convection heat transfer.

Integration with ESC Flow provides full CFD capabilities for simulating complex 3D flow systems.

Sophisticated spacecraft thermal analysis, with orbital maneuvers, tracking-based articulation of assemblies, and comprehensive database of planet/sun characteristics. With extensive post-processing and visualization options, interfaces to other thermal analysis programs (such as Sinda, Esatan, TSS, Esarad, Thermica), and a wide variety of customization capabilities and execution options, I-deas TMG Thermal is an ideal solution for any engineering environment.