🚀 Unlocking the Hidden Potential of 3D Printing with Infrared Magic! 🌡️👁️🗨️ Dr. Calvin M. Stewart, PhD and Britton DeGarmo are at the forefront of a revolutionary approach in #3DPrinting, turning the invisible into invaluable insights: Innovative Use of Infrared Thermography: They're employing this technique to detect temperature discrepancies, revealing build defects that were once hidden. Non-Destructive Testing: This method ensures the integrity of parts without causing any damage, a huge leap in quality assurance. Collaboration at its Finest: Kudos to Britton DeGarmo for integrating this capability, showcasing the power of teamwork in innovation. 🔗 Dive into their journey with MATERIALS AT EXTREMES (MATX) and witness how they're shaping the future of additive manufacturing and quality control: Explore MATX. #Innovation #MaterialScience #NDT #QualityControl
See Build Defects with Infrared Eyes ❗❗❗ 🔥👀🔥 Who knew Temperature 🌡 could be a quality detector? We're using infrared thermography to catch build defects in 3D printed parts. This non-destructive technique reveals hidden flaws by picking up on temperature variations during the build. Shout-out to Britton DeGarmo for integrating this capability into our printer! 🔥 🔥 🔥 MATERIALS AT EXTREMES (MATX) 🔥 🔥 🔥 https://mae.osu.edu/MATX #3DPrinting #Innovation #materialsscience #NDT #AdditiveManufacturing #QualityControl
Academician | Additive Manufacturing Enthusiast 🌟 | FISSA | MIE | NDT-II
7moIt’s interesting to see the utilization of thermography in 3D printing for defect detection. However, visualizing the defects can be challenging. It might be worthwhile to consider using ultrasonic or dye penetrant methods during post-processing for the detection of defects in 3D printed product