SPEE3D showcases first cold spray metal 3d printed wheel at rapid + tct conference in detroit

SPEED3D’s Unique 3D Printing Technology Transforming Manufacturing and Speeding Up Supply Chain for Industries Including Aerospace, Automotive, Marine, and Defense

 

Detroit, MI, May 16, 2022On the back of the announcement from US President Joe Biden to boost additive manufacturing through the AM Forward Program, SPEE3Da leading supplier of the world’s fastest metal 3D printers – will be showcasing technology to enable SME's to manufacture parts on-site or in the field. 

SPEE3D will be at the RAPID + TCT Conference in Detroit Michigan on May 17-19 2022, displaying their cold spray 3D printed wheel for automobiles, as well as the live manufacturing of copper battery terminals. SPEE3D will be located at booth #1901, and CEO Byron Kennedy and members of the Board will attend the show, coming from the company’s headquarters in Australia.

 

SPEE3D printers enable the most affordable and fastest metal additive manufacturing process in the world, leveraging metal cold spray technology to produce industrial quality metal parts in minutes, from anywhere. The process harnesses the power of kinetic energy, rather than relying on high-power lasers and expensive gasses, allowing metal 3D printing at normal production costs. Uniquely, SPEE3D delivers mid to large-size metal parts across industries including automotive, defense, marine, and aerospace. 

 

President Biden’s AM Forward Program aims to drive the wider adoption of 3D printing by promoting the technology to SME’s to help secure their supply chains, which have suffered as a result of the Covid-19 pandemic. SPEE3D has been at the forefront of this movement, printing parts for Nissan and for the S5000 Class racing cars onsite at the 2022 Melbourne F1 Grand Prix in April. While at the RAPID + TCT conference, attendees will be able to view the first 9kg Mag Wheel Centre – a very large part by AM standards – which was printed in just 5 ½ hours.

 

"The RAPID + TCT Conference is the perfect venue to showcase our metal 3D printing technology to help US-based SME's with their supply chain and improve their businesses," said Byron Kennedy, SPEE3D CEO. "We are committed to helping our customers grow and succeed, and this event is a perfect opportunity for us to exhibit our solutions and make new partnerships" 

 

About SPEE3D

SPEE3D is an innovative supplier of metal-based additive manufacturing technology. SPEE3D focuses on the development, assembly, and distribution of machines and integrated system and software solutions based on the patented cold-spray technology. The products enable significantly faster, lower-cost, and more scalable production than traditional metal printing techniques for copper, aluminum, and other materials. 

Featured Video
Jobs
Senior Firmware Architect - Server Manageability for Nvidia at Santa Clara, California
Sr. Silicon Design Engineer for AMD at Santa Clara, California
GPU Design Verification Engineer for AMD at Santa Clara, California
Senior Platform Software Engineer, AI Server - GPU for Nvidia at Santa Clara, California
Design Verification Engineer for Blockwork IT at Milpitas, California
CAD Engineer for Nvidia at Santa Clara, California
Upcoming Events
Phil Kaufman Award Ceremony and Banquet to be held November 6 at Hayes Mansion at Hayes Mansion 200 Edenvale Ave San Jose CA - Nov 6, 2024
SEMICON Europa 2024 at Messe München München Germany - Nov 12 - 15, 2024
DVCon Europe 2023 at Holiday Inn Munich – City Centre Munich Germany - Nov 14 - 15, 2024
SEMI MEMS & Imaging Sensors Summit, at International Conference Center Munich Germany - Nov 14, 2024



© 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 TechJobsCafe - Technical Jobs and Resumes GISCafe - Geographical Information Services  MCADCafe - Mechanical Design and Engineering ShareCG - Share Computer Graphic (CG) Animation, 3D Art and 3D Models
  Privacy PolicyAdvertise