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Ultrasonic Additive Manufacturing for Naval Transducer Development
Navy SBIR FY2012.1
| Sol No.: |
Navy SBIR FY2012.1 |
| Topic No.: |
N121-094 |
| Topic Title: |
Ultrasonic Additive Manufacturing for Naval Transducer Development |
| Proposal No.: |
N121-094-0389 |
| Firm: |
Solidica, Incorporated
5840 Interface Drive
Suite 200
Ann Arbor, Michigan 48103 |
| Contact: |
John Sheridan |
| Phone: |
(734) 222-4680 |
| Web Site: |
www.solidica.com |
| Abstract: |
The purpose of this team effort by Solidica and Navmar Applied Sciences Corporation-Advanced Acoustics Section effort is to demonstrate the feasibility of using Ultrasonic Additive Manufacturing (UAM) to build major components of an underwater sonar transducer. UAM has the ability to create new features that both aid in assembly and improve performance. Additionally, the technology has the potential to embed one material in another, opening a new and exciting design opportunity for sonar engineers.
Production of these underwater sonar transducers requires the integration and bonding of structural, piezoelectric, and conductive materials and is often labor intensive and costly. This effort seeks to reduce transducer costs while preserving reliability.
Phase I research will identify the portions of underwater slotted cylinder transducer manufacturing for which additive methods can be applied, using an UAM approach for at least 50% of the device. Phase II development will produce a tested device that approximates the form, fit and function of an equivalent device currently in use by the Navy. The device will be demonstrated and compared to the equivalent transducer manufactured by traditional methods.
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| Benefits: |
The primary market for this technology is the US Navy. To transition this SBIR into a US Navy airborne acoustic sonobuoy acquisition program, working closely with both a sonobuoy manufacturer and the potential acquisition program office (PMA-264). The techniques developed here are also applicable to ship and submarine sonar arrays and systems.
Non-military applications that could exploit the technology developed in this program include seismic, meteorological, and oceanographic applications, as well as off-shore oil exploration. Potential dual use applications are in the commercial audio industry. Techniques developed under this topic may benefit the manufacture of commercial acoustic transducers such as speakers.
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