ICMD Platform Adds Titanium Alloy Modelling Tools for Aerospace
QuesTek Innovations has significantly upgraded its ICMD platform with advanced modelling for titanium alloys. The cloud-based ICMD system, designed to streamline materials development, now supports a wider range of simulations essential for aerospace, energy, and Additive Manufacturing sectors. The Focus Keyphrase, titanium alloy modelling, plays a central role in this upgrade.
The platform’s new capabilities include accurate predictions of mechanical properties such as elastic modulus, shear modulus, and tensile strength. These functions rely on alloy chemistry and process parameters, reducing the need for costly physical trials. As a result, engineers can evaluate and optimize titanium alloy candidates earlier in the development cycle.
Microstructure Simulation and AM Optimization Strengthen ICMD Platform
In addition to mechanical properties, QuesTek’s ICMD now features heat treatment simulation tools. These allow users to predict alpha-phase evolution during annealing, giving insight into the strength, ductility, and fatigue resistance of titanium components. These tools empower engineers to design heat treatments that align with performance goals.
Furthermore, the ICMD platform now predicts dendritic grain structures under various solidification conditions. This is especially valuable in Additive Manufacturing, where grain morphology impacts part integrity. By forecasting whether columnar or equiaxed grains will form, materials teams can reduce anisotropy and improve structural performance.
SuperMetalPrice Commentary:
QuesTek’s ICMD upgrade marks a notable step in digitally driven materials innovation. Titanium alloy modelling will help industries reduce development costs while increasing precision. As aerospace and AM sectors seek stronger, lighter, and more reliable metals, platforms like ICMD are becoming critical to next-generation alloy qualification strategies.
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