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Method for aligning multiple lasers using axial sensor data.
TS-054019 — This technology improves the additive manufacturing process by aligning the multiple lasers to one reference point. The reference laser provides real time feedback to the other lasers thereby minimizing seam defects resulting in a higher quality print. .tb_button {padding:1px;cursor:pointer;border-right: 1px solid #8b8b8b;border-left: 1px solid #FFF;border-bottom: 1px solid #fff;}.tb_button.hover {borer:2px outset #def; background-color: #f8f8f8 !important;}.ws_toolbar {z-index:100000} .ws_toolbar .ws_tb_btn {cursor:pointer;border:1px solid #555;padding:3px} .tb_highlight{background-color:yellow} .tb_hide {visibility:hidden} .ws_toolbar img {padding:2px;margin:0px}
The additive manufacturing (AM) market has been steadily growing and has recently surpassed the $10 billion in market revenue. To keep up with this demand for less expensive, larger parts, users are turning to multi-laser machines to scale the technology. Each machine has a coordinate system w…
  • College: College of Engineering (COE)
  • Inventors: Rindler, Jacob
  • Licensing Officer: Zinn, Ryan

Ultrasonically assisted wire additive manufacturing process and apparatus
TS-054013 — The ultrasonically assisted wire additive manufacturing process and apparatus is a new innovation that uses power ultrasound (UA) for benefits in processing molten metals. The UA energy is directly applied in the local deposition pool, which makes this new hybrid process applicable for building parts with any size and geometry.
Additive manufacturing (AM) is the process of 3D printing for industrial use. Instead of countertop devices printing small toys from plastic, industrial AM is used on a much larger scale to create engine blocks, plane components, and many other products made of metal alloys. AM is traditionally do…
  • College: College of Engineering (COE)
  • Inventors: Liu, Xun; Pfeifer, Eddie "Ed"; Wang, Tianzhao
  • Licensing Officer: Zinn, Ryan

Method for seamless joining and repair of metal parts using ultrasonic additive manufacturing
TS-050479 — This invention provides a method for repairing metal parts by removing and replacing worn, damaged, or defective metal material. It also serves as a method for seamlessly joining metal sheets and other parts while retaining the original temper of the joined parts. This technology, based on ultrasonic additive manufacturing (UAM), achieves strong joints and repairs by enabling the filling of a channel that has been cut, formed, or otherwise created in a metal structure or between two metal structures.
The aircraft industry requires robust methods for joining metal sheets, structures, and assemblies together in wings, fuselages, and engines. Fusion-based welding methods cannot always be used because they create heat-affected zones, which reduce the mechanical performance of material around the w…
  • College: College of Engineering (COE)
  • Inventors: Dapino, Marcelo; Gingerich, Mark; Headings, Leon
  • Licensing Officer: Zinn, Ryan

Integrally Joined Stainless Steel-NiTi Medical Devices
TS-050057 — A method for manufacturing surgical tools and implants with strong, gapless joints between NiTi (Nitinol) and stainless steel to capitalize on the best properties of both materials.
NiTi (Nitinol) is widely accepted and used for medical devices such as surgical tools and implants due to its biocompatibility and unique thermal-mechanical properties which provide super-elastic or shape memory responses. However, there are currently no commercial solutions for joining of NiTi to…
  • College: College of Engineering (COE)
  • Inventors: Panton, Boyd; Dapino, Marcelo; Gingerich, Mark; Headings, Leon; Morris, Jennifer
  • Licensing Officer: Zinn, Ryan

High-strength/high-ductility magnesium sheet alloy for room-temperature forming
TS-048065 — A new wrought magnesium alloy with optimal mechanical and formability performance suitable for industrial applications
Magnesium (Mg), the lightest structural metal, and its alloys, with their high specific strength and low density, are promising lightweight materials for industrial applications in automotive, aerospace, and electronic sectors. A 2019 report by Business Communications Company (BCC) Research highli…
  • College: College of Engineering (COE)
  • Inventors: Luo, Aihua "Alan"; Shi, Renhai
  • Licensing Officer: Zinn, Ryan

Integration of smart materials into surgical tools and medical devices using vaporizing foil actuator technology.
TS-045092 — Shape memory alloys are metals that "remember" their original shape when deformed and can return to their initial shape when heated. These shape memory alloys cannot currently be welded to other alloys, which significantly limits their use. Current state-of-the-art methods of joining sha…
  • College: College of Engineering (COE)
  • Inventors: Panton, Boyd; Daehn, Glenn; Vivek, Anupam
  • Licensing Officer: Zinn, Ryan

Novel Method for Welding of High-Strength Aluminum Alloys
TS-014735 — A cost-effective method that drastically increases high-strength aluminum alloys' resistance to environmental degradation.
Manufacturers seek low-density, high-strength metals that can withstand environmental stress. High-strength aluminum alloys (AAs) are increasingly used for light-weighting in automotive and aerospace structure applications, but welds with such alloys are susceptible to environmental degradation, w…
  • College: College of Engineering (COE)
  • Inventors: Zhang, Wei; Borchers, Tyler
  • Licensing Officer: Zinn, Ryan

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