Concurrent Technologies Corporation Engineers Earn Patent for New Additive Manufacturing Process

Johnstown, PA, Sept. 18, 2017 (GLOBE NEWSWIRE) -- Concurrent Technologies Corporation (CTC) has been awarded a patent for “Additive Manufacturing Using Metals from the Gaseous State,” a concept that advances the already state-of-the-art additive manufacturing (3D) process.  

0_int_CTC_verB_color.jpg


To achieve this accomplishment, CTC engineers applied an established process that is more than a century old and is currently used commercially to extract metals from ore. United States Patent 9,587,309 B1 protects the intellectual property that uniquely leverages the Mond process to effectively create thin-wall parts with precise thickness and complex geometry on substrates of arbitrary shape and controlled temperature distribution.

Additive manufacturing (AM) refers to depositing layers of solid material to create a three-dimensional object from computer-generated designs. CTC’s patented concept uses a gas (carbon monoxide) that reacts with any of 18 different metals to form a more complex gas at elevated temperatures. The metal then deposits on hotter substrates that define the shape of the finished component. This action frees up the carbon monoxide for reuse in reacting with additional metallic atoms and continuing the additive process.

“This is a different approach for additive manufacturing,” said Edward J. Sheehan, Jr., Concurrent Technologies Corporation President and CEO. “Our engineers creatively applied a basic metallurgical theory for the manufacture of a real part. Their work illustrates the innovative solutions that CTC’s engineers, scientists, and other professionals create to help our clients achieve their goals.”

This patented process complements other forms of AM and effectively produces seamless, thin-walled, metallic components. Thin-walled components (including those with arbitrary shapes and without internal support structures) are challenging to produce with most other forms of AM.

The inventors are Juan Valencia, Ph.D., Advisor Engineer; Mike Tims, Advisor Engineer; and former CTC employee Joe Pickens.

Concurrent Technologies Corporation (CTC) is an independent, nonprofit, applied scientific research and development professional services organization. Together with our affiliates, Enterprise Ventures Corporation and CTC Foundation, we leverage research, development, test and evaluation work to provide transformative, full lifecycle solutions. To best serve our clients’ needs, we offer the complete ability to fully design, develop, test, prototype and build. We support our clients’ core mission objectives with customized solutions and strive to exceed expectations. For more information about CTC, visit www.ctc.com.

Attachments:

A photo accompanying this announcement is available at http://www.globenewswire.com/NewsRoom/AttachmentNg/8e401c8a-aaad-478d-bbd2-7fdeb465c1e9

Mary Bevan
Concurrent Technologies Corporation
814-269-2490
BevanM@ctc.com

Featured Video
Jobs
Business Development Manager for Berntsen International, Inc. at Madison, Wisconsin
Mechanical Manufacturing Engineering Manager for Google at Sunnyvale, California
Machine Learning Engineer 3D Geometry/ Multi-Modal for Autodesk at San Francisco, California
Senior Principal Mechanical Engineer for General Dynamics Mission Systems at Canonsburg, Pennsylvania
Mechanical Engineer 2 for Lam Research at Fremont, California
Principal Engineer for Autodesk at San Francisco, California
Upcoming Events
Coastal GeoTools 2025 Conference at 301 North Water Street - Jan 27 - 30, 2025
Commercial UAV Expo Europe 2025 at Amsterdam Netherlands - Apr 8 - 10, 2025



© 2024 Internet Business Systems, Inc.
670 Aberdeen Way, Milpitas, CA 95035
+1 (408) 882-6554 — Contact Us, or visit our other sites:
AECCafe - Architectural Design and Engineering EDACafe - Electronic Design Automation TechJobsCafe - Technical Jobs and Resumes  MCADCafe - Mechanical Design and Engineering ShareCG - Share Computer Graphic (CG) Animation, 3D Art and 3D Models
  Privacy PolicyAdvertise