Fabrisonic’s patented low-temperature 3D metal printing process, Ultrasonic Additive Manufacturing (UAM), is an enabling technology that allows engineers to print otherwise impossible heat exchangers. With UAM, designers can achieve dissimilar metals anywhere in the device, CNC surface finishes on both the exterior and interior surfaces, as well as the ability to embed sensors at any location in a given geometry. Below, hear from Justin Wenning, Product Engineer at Fabrisonic, about his work developing these unique heat exchangers.
Reducing Weight with Dissimilar Metals
Copper is an advantageous metal to use for heat exchangers because it has twice the thermal conductivity of aluminum. However, copper is three times denser than aluminum, so it poses a weight trade-off for in-flight applications. (Read about Heat Exchanger for Aerospace.) Justin Wenning states, “The benefit of UAM is that we can selectively print copper in high heat flux areas where it is needed and then print the rest of the part out of aluminum to save on material cost and reduce weight,…”. Printing copper in high heat flux regions leverages its ability to quickly wick heat away. However, printing surrounding structure out of aluminum takes advantage of its lightweight and high strength properties. UAM can print most metals, and due to the low temperature of the welding process, dissimilar metals can be welded at will without concern for unwanted metallurgical interactions.
Our process specializes in dissimilar metals. Changing materials on the fly is quite challenging, if not impossible, in other additive processes. However, because UAM is a low-temperature process where the metals stay below 250F when printing, and the materials are off-the-shelf foils, we can simply change out our material feedstock, adjust our welding parameters, and we can be printing an entirely different metal in minutes!”
CNC Quality – Inside and Out
“For most thermal applications, you want smooth cooling passages because rough passages can affect fluid flow and create pressure issues.”, Justin Wenning.
UAM combines the advantages of additive and subtractive fabrication approaches to allow complex 3D parts to be formed with high dimensional accuracy and smooth surfaces, including objects with complex internal passageways. The SonicLayer series of machines builds up to near-net shape using ultrasonic welding and completes fine detail through the use of onboard CNC milling. The hybrid machining steps give each facet of heat exchangers a smooth CNC surface finish. By using additive traits, UAM is also capable of creating fluid passageways with unique cross sections to achieve higher performance flow channels.
Embedding Sensors and Thermal Devices into Solid Metal
The solid-state nature of Fabrisonic’s UAM bond allows for encapsulation of all manner of wires, fibers, and sensors into a metallic substrate. Since the metals do not have to be heated for bonding, electronics can be embedded without damage. This enables sensors, communication circuits, and actuators to be embedded into fully dense metallic structures for lasting security and reliability. For thermal devices, this means engineers can have thermal data at any point they want in a 3D printed part. (Read More about Metal Additive without melting.)
Our process can embed thermocouples in high-interest locations of devices to offer unprecedented feedback to users. Additionally, by printing in high-strength metals or ceramics, we can lightweight parts and even control their coefficient of thermal expansion for high sensitivity applications.”
The Future of UAM in the Heat Exchanger Space
When asked where he felt the heat exchanger market, Justin predicted that there will be a domino effect of industry acceptance and implementation, particularly in the aerospace and semiconductor industries.
Traditional manufacturing may have a few decade head start on producing heat exchangers, but UAM is on track as a revolutionary new way of designing and producing high-performance heat exchangers like mechanically pumped fluid loops and heat pipes.”
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Source: Fabrisonic, https://fabrisonic.com/man-behind-fabrisonic-heat-exchangers/?utm_campaign=May%2FJune%202018%20Campaign&utm_source=hs_automation&utm_medium=email&utm_content=64173309&_hsenc=p2ANqtz–Nux_j43KQRSlzDoG28l2N8Tsg3LkTV_20Tb9eLgva7BSqyc8sj54pMRaLQnppLKvjli8rPBOonQz7VxlpSBcJ9Z3FEsU9fYbiF63Pepa1PBcgzaI&_hsmi=64173309, visited on Jul 31, 2018;