Ordnance – Shields – Shape or composition
Reexamination Certificate
2002-01-18
2004-01-20
Tudor, Harold J. (Department: 3641)
Ordnance
Shields
Shape or composition
C428S539500, C428S548000
Reexamination Certificate
active
06679157
ABSTRACT:
FIELD OF INVENTION
The present invention relates to armor systems in general and more specifically to a light weight armor system having a functionally graded cermet interlayer.
BACKGROUND
Many different kinds of lightweight armor systems are known and are currently being used in a wide range of applications, including, for example, aircraft, light armored vehicles, and body armor systems, wherein it is desirable to provide protection against bullets and other projectiles. While early armor systems tended to rely on a single layer of a hard and brittle material, such as a ceramic material, it was soon realized that the effectiveness of the armor system could be improved considerably if the ceramic material were affixed to or “backed up” with an energy absorbing material, such as fiberglass. The presence of the energy absorbing backup layer tends to reduce the spallation caused by impact of the projectile with the ceramic material or “impact layer” of the armor system, thereby reducing the damage caused by the projectile impact. Testing has demonstrated that such multi-layer armor systems tend to stop projectiles at higher velocities than do the ceramic materials when utilized without the backup layer.
While such multi-layer armoring systems are being used with some degree of success, they are not without their problems. For example, difficulties are often encountered in creating a multi-layer structure having both sufficient mechanical strength as well as sufficient bond strength.
Partly in an effort to solve the foregoing problems, armor systems have been developed in which a “graded” ceramic material having a gradually increasing dynamic tensile strength and energy absorbing capacity is sandwiched between the impact layer and the backup material. An example of such an armor system is disclosed in U.S. Pat. No. 3,633,520 issued to Stiglich and entitled “Gradient Armor System,” which is incorporated herein by reference for all that it discloses. The armor system disclosed in the foregoing patent comprises a ceramic impact layer that is backed by an energy absorbing ceramic matrix having a gradient of fine metallic particles dispersed therein in an amount from about 0% commencing at the front or impact surface of the armor system to about 0.5 to 50% by volume at the backup material. The armor system may be fabricated by positioning successive layers of powder mixtures comprising the appropriate volume ratios of ceramic and metallic materials in a graphite die and onto a graphite bottom plunger. A top plunger is placed in the die in contact with the powder layers and the entire assembly is thereafter placed within an induction coil. Power is applied to the induction coil to heat the powder and die. Substantial pressure (e.g., about 8,000 psi) is then applied to the die to sinter the powder material and form the gradient armor system.
While the foregoing type of armor system was promising in terms of performance, the powder metallurgy process used to form the graded composite layers proved difficult to implement in practice. Consequently, such armor systems have never been produced on a large scale basis.
SUMMARY OF THE INVENTION
A lightweight armor system according to the present invention may comprise a substrate having a graded metal matrix composite layer formed thereon by thermal spray deposition. The graded metal matrix composite layer comprises an increasing volume fraction of ceramic particles imbedded in a decreasing volume fraction of a metal matrix as a function of a thickness of the graded metal matrix composite layer. A ceramic impact layer is affixed to the graded metal matrix composite layer.
A process for producing a lightweight armor system may comprise the steps of: Depositing by thermal spray deposition a graded metal matrix composite layer on a substrate, the graded metal matrix composite layer comprising an increasing volume fraction of ceramic particles imbedded in a decreasing volume fraction of a metal matrix with increasing thickness of the graded metal matrix composite layer; and affixing a ceramic impact layer to the graded metal matrix composite layer.
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Bruck H. Alan
Chu Henry S.
Strempek Gary C.
Varacalle, Jr. Dominic J.
Bechtel BWXT Idaho LLC
Chambers Troy
Dahl & Osterloth LLP
Tudor Harold J.
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