Advanced Cerametrics, Inc.

P.O. Box 128
Lambertville, NJ 08530
http://advancedcerametrics.com
38 Employees

SBIR Award Summary

Total Number of Awards 18
Total Value of Awards $5.21MM
First Award Date 09/20/94
Most Recent Award Date 12/20/12

Key Personnel

Last Name Name Awards Contact
Mohammadi Dr. Farhad Mohammadi 9 Message
Khan Dr. Ajmal Khan 4
French Dr. J. D. French 1
Cass Richard B. Cass 2
French Jonathon French 2
French Jonathan D. French PhD 2

18 Awards Won

Phase 2 SBIR

Agency: Army
Topic: A10-062
Budget: 12/20/12 - 12/19/14

Boron carbide (B4C) ceramic is one of the hardest materials available and, in the form of a fiber composite, it is expected to improve ballistic performance of personal armor and armored vehicles. Due to the nature of its covalent bond, it is very difficult to manufacture full density boron carbide. Commercially, boron carbide is produced by rea...

Phase 1 SBIR

Agency: Army
Topic: A10-062
Budget: 12/27/10 - 06/26/11

Boron carbide (B4C) ceramic is one of the hardest materials available and, in the form of a fiber composite, it is expected to improve ballistic performance of personal armor and armored vehicles. Due to the nature of its covalent bond, it is very difficult to manufacture full density boron carbide. Commercially, boron carbide is produced by rea...

Phase 2 SBIR

Agency: Navy
Topic: N07-094
Budget: 03/27/09 - 03/29/11

Advanced Cerametrics, Inc (ACI) has developed a new ceramic material to compete directly with the very high priced reaction bonded silicon nitride (RBSN) and obsolete Pyroceram radomes. ACI has built on earlier work done by NAVSEA to develop a repeatable and inexpensive process to produce radomes from Barium Alumino Silicate (BAS) using high tem...

Phase 2 SBIR

Agency: Army
Topic: A07-034
Budget: 08/25/08 - 08/25/10

Currently, wireless sensors have been used in variety of applications such as surveillance, real-time data sharing, in-vivo medical devices, condition-based monitoring, etc. that can revolutionize industrial efficiency, health monitoring, and data processing. MEMS technology made possible autonomous wireless sensor nodes via the use of widespre...

Phase 1 SBIR

Agency: Army
Topic: A07-034
Budget: 12/04/07 - 06/04/08

Currently, wireless sensors have been used in variety of applications such as surveillance, real-time data sharing, in-vivo medical devices, condition-based monitoring, etc. that can revolutionize industrial efficiency, health monitoring, and data processing. MEMS technology made possible autonomous wireless sensor nodes via the use of widespre...

Phase 1 SBIR

Agency: Navy
Topic: N07-094
Budget: 05/01/07 - 02/01/08

Advanced Cerametrics, Inc (ACI) has developed a technology to make nearly any ceramic into flexible fiber. ACI has also developed a material that meets the needs of hypersonic missile radomes (barium alumino silicate-BAS). ACI has developed a method to make the BAS into fiber form and to produce fibrous monoliths of BAS where the BAS fibers rein...

Phase 1 SBIR

Agency: Navy
Topic: N05-130
Budget: 11/03/05 - 05/02/06

Currently, wireless sensors have been used in variety of applications such as real-time data sharing, surveillance, in-vivo medical devices, condition-based monitoring, etc. that can revolutionize industrial efficiency, health monitoring, and data processing. Maximizing the use of wireless sensors onboard Navy ships will reduce the cost of main...

Phase 2 SBIR

Agency: Navy
Topic: N03-080
Budget: 07/27/05 - 02/28/08

For this research, Advanced Cerametrics, (ACI)will combine its patented fiber forming technology with conventional ceramic forming methods including slip casting, injection molding and isostatic pressing to develop a low cost and economically scalable method to make ceramic fiber reinforced ceramic matrix composite missile radomes for hypersonic...

Phase 1 SBIR

Agency: Navy
Topic: N03-080
Budget: 11/12/03 - 03/10/05

For this research, Advanced Cerametrics, Inc (ACI) proposes to combine its patented viscose suspension spinning process (VSSP) for manufacturing ceramic fiber, with conventional slip casting, to develop a low cost and economically scalable fiber-reinforced ceramic matrix composite (CMC) radome material. The proposed CMC is high-celsian barium a...

Phase 1 SBIR

Agency: Defense Advanced Research Projects Agency
Topic: SB031-025
Budget: 05/29/03 - 01/30/04

Advanced Cerametrics, Inc. (ACI) has developed a technology to scavenge waste energy, such as vibration or flex to power active structural control using its piezoelectric fiber composites. Commercial examples include Head Sports' Intelligence skis and tennis rackets. Similar lightweight, flexible actuators are proposed to be placed on rotorcraft...

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