UT-Battelle, LLC (20240269774). ALUMINUM-CERIUM-NICKEL ALLOYS FOR ADDITIVE MANUFACTURING simplified abstract
Contents
ALUMINUM-CERIUM-NICKEL ALLOYS FOR ADDITIVE MANUFACTURING
Organization Name
Inventor(s)
Ryan R. Dehoff of Knoxville TN (US)
Hunter B. Henderson of Livermore CA (US)
Scott Mccall of Livermore CA (US)
Richard Michi of Knoxville TN (US)
Peeyush Nandwana of Oak Ridge TN (US)
Alexander J. Plotkowski of Knoxville TN (US)
Orlando Rios of Knoxville TN (US)
Amit Shyam of Knoxville TN (US)
Zachary C. Sims of Knoxville TN (US)
Kevin D. Sisco of Knoxville TN (US)
David Weiss of Manitowoc WI (US)
Ying Yang of Knoxville TN (US)
ALUMINUM-CERIUM-NICKEL ALLOYS FOR ADDITIVE MANUFACTURING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240269774 titled 'ALUMINUM-CERIUM-NICKEL ALLOYS FOR ADDITIVE MANUFACTURING
The abstract describes embodiments of an aluminum alloy for additive manufacturing, providing fabricated objects with a heterogeneous microstructure and good mechanical properties even under manufacturing conditions.
- Aluminum alloy for additive manufacturing
- Fabricated objects with heterogeneous microstructure
- Good mechanical properties under manufacturing conditions
- Methods for making and using alloy embodiments disclosed
Potential Applications: - Aerospace industry for lightweight components - Automotive industry for high-performance parts - Medical industry for customized implants
Problems Solved: - Enhancing mechanical properties of fabricated objects - Improving performance under additive manufacturing conditions
Benefits: - Increased strength and durability of components - Customizable designs for specific applications - Cost-effective manufacturing process
Commercial Applications: Title: "Advanced Aluminum Alloy for Additive Manufacturing in Aerospace and Automotive Industries" This technology can be used in the aerospace and automotive industries to produce lightweight, high-performance components with improved mechanical properties.
Questions about Aluminum Alloy for Additive Manufacturing: 1. How does the heterogeneous microstructure of the alloy contribute to its mechanical properties? 2. What are the specific additive manufacturing conditions that this alloy can withstand?
Frequently Updated Research: Ongoing research focuses on optimizing the alloy composition for specific applications and further improving its mechanical properties for additive manufacturing.
Original Abstract Submitted
disclosed herein are embodiments of an al—ce—ni alloy for use in additive manufacturing. the disclosed alloy embodiments provide fabricated objects, such as bulk components, comprising a heterogeneous microstructure and having good mechanical properties even when exposed to conditions used during the additive manufacturing process. methods for making and using alloy embodiments also are disclosed herein.
- UT-Battelle, LLC
- Ryan R. Dehoff of Knoxville TN (US)
- Hunter B. Henderson of Livermore CA (US)
- Scott Mccall of Livermore CA (US)
- Richard Michi of Knoxville TN (US)
- Peeyush Nandwana of Oak Ridge TN (US)
- Ryan Ott of Ames IA (US)
- Alexander J. Plotkowski of Knoxville TN (US)
- Orlando Rios of Knoxville TN (US)
- Amit Shyam of Knoxville TN (US)
- Zachary C. Sims of Knoxville TN (US)
- Kevin D. Sisco of Knoxville TN (US)
- David Weiss of Manitowoc WI (US)
- Ying Yang of Knoxville TN (US)
- B23K26/342
- B22F9/08
- B23K103/10
- B33Y10/00
- B33Y70/00
- B33Y70/10
- C22C21/00
- CPC B23K26/342