Other key features of Inspire Mold include: Scrap, tooling, and rework costs are slashed, and there are no requirements for specialized, GPU-computing hardware. Design iterations are completed faster, and fewer are needed before an optimal solution is identified. Manufacturability of new components can now be evaluated at the outset of the development process, and the risk of defects such as warping, sink marks, and short shots are mitigated before any costly investments are made in molds. “Inspire Mold reduces the costs and delays traditionally found in the slow and laborious processing of design iterations, as well as the building and reworking of prototype molds.” It puts designers and engineers firmly in control of faster, more intelligent, and intuitive evaluation of injection molded plastic parts,” said James Dagg, chief technical officer, Altair. “Inspire Mold embodies everything we believe simulation should be. Inspire Mold offers engineers fast, highly capable tools with unrivalled solver performance and unprecedented opportunities to make better design decisions earlier, reduce costs, speed time-to-market, and optimize the quality and manufacturability of finished parts. Injection molded plastic components play a critical role in a vast array of applications from toys and consumer electronics to high-performance, load-bearing components in sectors like aerospace and automotive. For the first time, Inspire Mold brings Altair’s core philosophies of simulation-driven design and democratization of simulation to this $250 billion manufacturing sector. 05, 2020 (GLOBE NEWSWIRE) - Altair, (Nasdaq: ALTR), a global technology company providing solutions in data analytics, simulation, and high-performance computing (HPC), today launched Altair Inspire Mold, a revolutionary, end-to-end solution for simulating injection molding.
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