Physical Acoustics Corp.

195 Clarksville Road
Princeton Jct., NJ 08550
http://www.pacndt.com
483 Employees

SBIR Award Summary

Total Number of Awards 16
Total Value of Awards $5.03MM
First Award Date 01/01/83
Most Recent Award Date 05/18/04

Key Personnel

Last Name Name Awards Contact
Godinez Dr. Valery Godinez 7 Message
Jon Dr. Min-Chung Jon 1 Message
Carlyle John M. Carlyle PhD 5
Ji Yuyin Ji PhD 2
Pointer Donald J. Pointer 1
Vahavi S. Vahavi 1

16 Awards Won

Phase 2 SBIR

Agency: Navy
Topic: N03-029
Budget: 05/18/04 - 05/18/06

The objective of this Phase II program is to develop a prototype system to detect and evaluate cracking signals in real time under operational conditions from diaphragm couplings in aircraft, in particular those found in the V-22 helicopter. The Phase II project includes extensive data acquisition runs concentrated on the large 9 diaphragms cou...

Phase 2 SBIR

Agency: Army
Topic: A02-223
Budget: 12/05/03 - 12/05/05

The objective of this Phase II program is to develop a prototype system to nondestructively detect and assess the presence of porosity in Al/SiC wear inserts in cast Al Tank Track Shoes using eddy current technique. This prototype system should also be capable of detecting the presence of debonds between the Al/SiC wear inserts and the cast Al b...

Phase 2 SBIR

Agency: Army
Topic: A01-191
Budget: 11/10/03 - 05/09/05

The objective of this Phase II program is to develop a prototype system to nondestructively assess the condition, as per ballistic performance, of the ceramic/FRP Small Arms Protective Inserts (SAPI). Based on the findings and success of Phase I, PAC proposes to design, fabricate and demonstrate a prototype system, to be used for field inspectio...

Phase 1 SBIR

Agency: Navy
Topic: N03-029
Budget: 06/25/03 - 12/25/03

The objective of this Phase I proposal is to present Physical Acoustics Corporation's (PAC) ability to design and develop a reliable, "near" real time monitoring methodology for early detection of cracks in diaphragm-type couplings used in aircraft and engine drive systems. The "near" real time Acoustic Emission (AE) crack detection system is in...

Phase 1 SBIR

Agency: Army
Topic: A02-223
Budget: 12/31/02 - 11/10/03

The objective of this proposal is to develop a Non-Destructive Inspection (NDI) system for detection of porosity and debonds in the Metal Matrix Composite (MMC) wear surfaces of Tank Track Shoes (TTS). TTS quality must be such that no further inspection is necessary after it has passed an initial production acceptance test. The part is placed in...

Phase 1 SBIR

Agency: Army
Topic: A01-191
Budget: 02/05/02 - 08/04/02

Primary ballistic protection offered against small arms rounds is mostly based on ceramic with fiber reinforced backing. Due to its complex structure and, in general, anisotropic material properties, ballistic personnel armor is very difficult to inspect using conventional Non Destructive Evaluation/Inspection (NDE/I) methods and instruments, su...

Phase 2 SBIR

Agency: Army
Topic: A00-142
Budget: 01/29/02 - 01/28/03

Recently, significant attention has been paid to the country's dilapidated infrastructure; buildings, bridges, and concrete water and sewer pipes need to be retrofitted to sustain the increasing loads. A common solution is to increase the capacity of these structures to carry loads by the introduction of additional tension-carrying materials su...

Phase 1 SBIR

Agency: Army
Topic: A00-142
Budget: 12/27/00 - 12/26/01

Recently, significant attention has been paid to the country's dilapidated infrastructure; buildings, bridges, and concrete water and sewer pipes need to be retrofitted to sustain the increasing loads. A common solution is increase the capacity of these structures to carry loads by the introduction of additional tension-carrying materials as Fi...

Phase 2 SBIR

Agency: Army
Topic: A97-089
Budget: 02/19/99 - 02/19/01

Advanced armor composites offer lightweight designs using unique materials, laminated together, to provide the same protection as its metal counterpart. Using these different material designs also means dealing with different types of defects. Delaminations between the different layers of materials are the most commonly encountered defects which...

Phase 1 SBIR

Agency: Army
Topic: A97-089
Budget: 11/13/97 - 05/13/98

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