
RS-25 Engine Test is Giant Step for 3-D Printing
During the 400-second test at NASA’s Stennis Space Center, Aerojet Rocketdyne was able to evaluate the performance of a 3-D printed vibration dampening device, known as a pogo accumulator assembly,
During the 400-second test at NASA’s Stennis Space Center, Aerojet Rocketdyne was able to evaluate the performance of a 3-D printed vibration dampening device, known as a pogo accumulator assembly,
A Transparency Market Research report, the market valuation for global metal powders for AM will rise substantially to become US$1,783.9 mn by 2025-end. According to a Transparency Market Research report,
Lawrence Livermore National Laboratory delivers amazing research, often related to 3D printing, on a regular basis, so it’s never surprising when they announce something big. This week, however, LLNL researchers have made
The Colorado Economic Development Commission (EDC) approved $2.9 million in Advanced Industries Accelerator (AIA) grants for 18 Colorado companies with technologies that will positively impact key industries from health to
Valentin Stamate, a researcher at the Transilvania University of Brașov, Romania, has demonstrated a prototype two-stroke engine, 3D printed in 3 different metals. Stamate believes the 3D printed engine to be the
As 3D printing technology continues to take the medical field by storm, 3D printed implants fit for human use have risen into prominence. From functional ear replacements to spinal implant
Regardless of your stance on nuclear weapons and energy, one thing we can probably all agree on is that this powerful and hazardous technology must be kept extremely secure. In
Today, the Ohio-based company announced a $200 million plan to build a pair of plants in Huntsville that will produce silicon carbide materials used to make ultra-lightweight ceramic matrix composite
Patrick Callard earned a B.B.A. in advertising from Western Michigan University in 1990. He provides over 30 years of experience in marketing communications, new business development and market outreach.
He has managed multiple marketing projects and budgets for a variety of services and products.
Patrick also successfully grew an IT consulting business from a two-man basement business to a profitable eight employee business in 4-years. Patrick’s daily focus is to unify customer experience, brand purpose, creative communication, and marketing technology to drive the growth of the business.
Tyler’s message will key on blown powder Directed Energy Deposition (L-DED) for AM and repair and why this process is being realized by industry as one of the key pillars in printing thin wall part structures and large part envelope requirements.
Shawn will reveal how Lithography-based Ceramic Manufacturing (LCM) is producing high resolution, high performance technical ceramics that can serve a wide range of applications and structural materials, such as alumina, zirconia, and silicon nitride. He will also touch on how LCM has progressed into multi-material components incorporating ceramics and metals.
Jeff’s presentation will focus on the advances in wire DED, including welding processes for wire DED (arc, laser, and e-beam), next-generation alloys for large format metal 3D printing, and use cases that can benefit from replacing large forgings, replacing large machined billets, and producing advanced tooling — enabling next generation designs.
Dr. Jacob Nuechterlein is the founder and president of Elementum 3D in Erie, CO. He earned his Bachelor of Engineering, Master of Science, and Doctor of Philosophy at the Colorado School of Mines. Jacob has been researching, teaching, or consulting on topics such as casting and powder metallurgy for the last 14 years. Elementum 3D’s work with powder bed laser additive manufacturing is based on these principles. In addition, is thesis work in thermodynamics and formation kinetics of metal matrix composites is directly related to all 3D printing processes.