☑ Heating
☑ Austenitization
☑ Quenching
☑ Spray quenching
☑ Tempering
☑ Annealing
☑ Carburizing
☑ Nitriding
☑ Carbonitriding
☑ Induction heat treating
☑ Quenching of aluminum
☑ Artificial aging of aluminum
☑ TTT & CCT diagram generator
☑ Optimization and inverse analysis
☑ Self-coding of user routines
☑ Material data base
➽ Use of powerful solvers for a wide range of coupled resolutions (mechanical, thermal, metallurgical and electromagnetic).
➽ Master product quality and properties by prediction for oxide layers, temperatures, residual stresses, distortions, local hardness (HV, HRC) and phase transformation.
➽ Improve your profitability by determining the optimum heating duration for the furnace.
➽ Access a rich quenchant database is available, including sixty-three Quaker Houghton quenchants. The integrated optimization module can find the most relevant values of heat transfer coefficients to fit experimental cooling curves.
➽ Avoid cracks from residual stress or too much distortion that can be due to cooling.
➽ Study carbon and nitrogen penetration depth during carburizing or nitriding.
➽ Optimize current intensity/frequency in induction heat treating to get expected surface hardness and core ductility.
➽ Exploit a full range of induction heat treating results: temperature, heat affected zone, induced magnetic field, heating time, surface hardness, and core impact resistance.
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