SupportFree Metal Blog

Will Hasting
Written by Will Hasting

Will is VELO3D's Director of Aviation & Power Turbine Solutions.


Anywhere you find oil, fuel, or electronics in a high-performance device, you are going to find a heat exchanger. To fully optimize heat exchanger design, engineers need to maximize the surface area that exists between the hot side and the cool side.This means that, often for high performance designs, engineers are looking to produce complex internal channels with very thin, high aspect ratio walls.

Watch the recorded session to learn more:



Until now, complex, multi-part assemblies have been used to increase the surface area available for heat dissipation and/or transfer.However, these processes are inefficient and have practical limits on optimization. Watch our recorded webinar to see how engineers are pushing the boundaries of heat exchanger design and overcoming the barriers to production.

Topics Covered:
>> Goals of heat exchanger optimization
>> Using nTopology to reach an optimized design
>> Overcoming manufacturing challenges with VELO3D


Ryan OHara Headshot 1x1 sm
Ryan O'Hara Will Hasting
nTopology's Technical Director for Aerospace and Defense VELO3D's Director of Aviation and Power Turbine Solutions





Back to Blog