University of Pittsburgh, ANSYS partner on new computing tools for additive manufacturing

From energy-efficient jet engines to personalized medical devices, companies can quickly and easily design and manufacture cutting-edge, safe, and reliable products, thanks to a new collaboration between ANSYS (Canonsburg, PA) and the University of Pittsburgh (Pittsburgh, PA). The partnership will further education and research to solve some of the industry's toughest additive manufacturing problems.

Advances in additive manufacturing technologies are drastically changing the industrial manufacturing landscape. Forward-thinking companies are rapidly adopting new emerging technologies to gain significant competitive advantages to produce complex and customized products that were not possible to build before the advent of additive manufacturing. While additive manufacturing holds incredible promise, there are still significant hurdles to overcome before it can broadly replace existing manufacturing methods.


Printing metal is particularly challenging because it involves the use of a laser. While the laser optimizes the density of the metal for the particular application, it can also melt the metal in unexpected ways, causing the product to fail. And the rapid heating and cooling causes stresses that can deform the end product. So, ANSYS and the University of Pittsburgh are working together to simulate those deformations before printing to ensure the product not only has the desired shape, but also performs as expected.

As part of the partnership, the university is opening a 1200-sq-ft. additive manufacturing lab in the Swanson School of Engineering. The ANSYS Additive Manufacturing Research Laboratory is equipped with some of the most advanced additive manufacturing devices that use metals, alloys, polymers, and other materials to laser-print components for nearly every industry.

The partnership will also support faculty and students conducting collaborative research with ANSYS and other industry partners, including those in the biomedical, aerospace, and defense industries. Lab workers will have access to the ANSYS portfolio, enabling them to explore, simulate, and analyze solutions for stress and fatigue on critical components that go into products such as airplanes, cars, and medical devices.

Additive manufacturing allows for precise control in creating a component at the micro- and nano-scale level, new processes and software are required to help engineers develop parts that are designed to perform a desired function under a set of conditions. Simulation-driven product development changes the process by virtually exploring the properties of a number of design options early on, before committing to specific material and design choices. The benefit of physics-based computational tools is that they can test millions of permutations of designs, materials, flows and shapes to find the optimal design before the engineer needs to build a single physical prototype. Not only will this new approach unleash the next wave of innovative physical products, but it is a necessity to make designs more energy-efficient and sustainable.

The collaboration was initiated with funding from the federal government via America Makes (the National Additive Manufacturing Innovation Institute). The university'sresearch includes the development of new tools to optimize the interior construction of a manufactured part at the microscopic level and thereby improving strength and structural integrity, lowering weight, reducing costs, and improving sustainable production methods.

The partnership with ANSYS will enable university faculty to not only benefit their research, but to help the company improve its own engineering simulation software. This partnership will enable these two organizations to address key challenges that are currently is blocking additive manufacturing from realizing its full potential.

For more information, please visit www.ansys.com and www.pitt.edu.



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