THE USE OF ION BEAMS AS A MEANS OF ENHANCING THE PROPERTIES OF DEPOSITED THIN FILMS HAS ATTRACTED CONSIDERABLE INTEREST IN THE LAST FEW YEARS.

Award Information

Agency: National Science Foundation

Branch: N/A

Contract: N/A

Agency Tracking Number: 2698

Amount: $40,000.00

Phase: Phase I

Program: SBIR

Solicitation Topic Code: N/A

Solicitation Number: N/A

Timeline

Solicitation Year: N/A

Award Year: 1985

Award Start Date (Proposal Award Date): N/A

Award End Date (Contract End Date): N/A

Small Business Information

Spire Corporation

Patriots Pk

Bedford, MA 01730

United States

DUNS: N/A

HUBZone Owned: No

Woman Owned: No

Socially and Economically Disadvantaged: No

Principal Investigator

Name: JAMES K HIRVONEN
Title: SENIOR SCIENTIST
Phone: (617) 275-6000

Business Contact

Phone: () -

Research Institution

N/A

Abstract

THE USE OF ION BEAMS AS A MEANS OF ENHANCING THE PROPERTIES OF DEPOSITED THIN FILMS HAS ATTRACTED CONSIDERABLE INTEREST IN THE LAST FEW YEARS. THE FURTHER DEVELOPMENT OF ENERGETICALLY-ENHANCED ION DEPOSITION TECHNIQUES IS EXPECTEDTO RESULT IN A NEW GENERATION OF EXOTIC COATINGS WITH SUPERIOR ADHESION, NEAR-THEORETICAL DENSITIES, VERY HIGH HARDNESS, AND, AT THE SAME TIME, CAPABLE OF BEING DEPOSITED AT LOW TEMPERATURE. SPIRE CORPORATION PROSES TO DEVELOP A ION BEAM ENHANCED DEPOSITION TECHNIQUE FOR CREATION OF A SUPER ADHERENT HARD COATING OF TIN AND HFN. IN THIS APPROACH A THIN LAYER OF MATERIAL (E.G., TI OR HF) IS SPUTTERED ONTO A SURFACE AND CONCURENTLY BOMBARDED WITH A STEADY BEAM OF IONS (E.G. NITROGEN). COATINGS PRODUCED BY THIS NOVEL TECHNIQUE PROMISE SUPERIOR WEAR RESISTANCE AND ADHESION AT LOW PROCESSING TEMPERATURES THUS AVOIDING DISTORTION OF PRECISION OR INTRICATE COMPONENTS.

* Information listed above is at the time of submission. *

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THE USE OF ION BEAMS AS A MEANS OF ENHANCING THE PROPERTIES OF DEPOSITED THIN FILMS HAS ATTRACTED CONSIDERABLE INTEREST IN THE LAST FEW YEARS.