Pyrotechnic thermite composition

Explosive and thermic compositions or charges – Metal or alloy or metalloid – each in particulate form – with...

Reexamination Certificate

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C149S040000

Reexamination Certificate

active

06627013

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a thermite composition, more particularly, this invention relates to a thermite composition for pyrotechnics, and even more particularly, this invention relates to a relatively slow burning thermite composition for pyrotechnics that has an extremely high rate of heat transfer for purposes such as demilitarizing ordnance, military weapons, fuel, metal cutting, welding, brazing and operations on metal work pieces.
2. Description of the Prior Art
Thermite compositions are very well known and consist generally of a mixture of a finely divided, strongly reducible metal oxide, typically consisting of ferrous oxide, and a finely divided strong reducing agent, typically consisting of aluminum. Once ignited, the composition reacts highly exothermically as the strong reducing agent has negative free energy, typically above 90,000 calories per gram atom of oxygen at a reference of 25° C. and the strongly reducible metal oxide has a negative free energy as high as about 60,000 calories per gram atom of oxygen at a reference of 25° C. Consequently, 750 kilocalories is released thereby raising the temperature of the products to about 3000° C. under favorable conditions as it produces little or no permanent gas and yields aluminum oxide and molten iron. The heat from the molten iron and aluminum oxide is used for various purposes, such as destruction of military targets and munitions, incendiary weapons, cutting and welding torches, igniter for other reactions such as activation of air bags, plating of metals upon substrates, cutting or plugging oil well conduits, and the like.
Other types of thermite compositions containing metals and the oxides of other metals other than iron oxide are known. The metal oxides include FeO, Fe
2
O
3
, CoO, NiO, Cu
2
O, CuO, Sb
2
O
3
, MoO
2
, MoO
3
, Cr
2
O
3
, PbO
2
, WO
2
, WO
3
and others. The Oxidizable metals include Al, Si, Zr, Be, Mg, Ba, Ti, B and others.
For many of these applications, it is desirable to maximize the transfer of heat from the thermite reaction to a target or substrate or workpiece. To some of these thermite compositions were added gas producing compounds such as carbides to produce high pressure and high velocity gases such as is taught by Halcomb, et. al. in U.S. Pat. No. 4,963,203. This composition, in its preferred embodiment consist of 79.5% CuO and 17.5% Al and 3% SiC, was designed to be thermally stable to a temperature of about 500° C. While this composition may be suitable for some applications, it is not designed to optimize heat transfer when the products of the reaction contact a target or workpiece, rather it is designed for high pressure and high velocity. In another application, into a flame spray, a thermit composition is introduced containing a reducible metal oxide and a strong oxidizing agent thereby enabling the production of a one-step coating of substantial thickness.
In U.S. Pat. No. 4,202,691 issued to Yurasko, Jr. an example of an agglomerate of 50% by weight each of NiO and Al in a binder of sodium silicate was mixed and dried. This agglomerate was mixed with nickel powder and sprayed upon a steel substrate using an oxyacetylene torch. The steel substrate was thereby coated using this process. Atomizing the metal and depositing them upon a substrate is excellent for coating metals but is not designed to maximize the transfer of the heat of the reaction to the substrate.
U.S. Pat. No. 4,349,396 discloses a metal-cutting pyrotechnic composition. This composition utilizes a oxidizer selected from the group consisting of calcium sulfate hemihydrate, anhydrous calcium sulfate, magnesium monohydrate, anhydrous magnesium sulfate, anhydrous strontium sulofate, and mixtures thereof, a metal fuel, a halopolymeric binder; and sulfur. In this application an appreciable amount of heat per unit volume of composition is produced without generating an appreciable amount of gas. The patent teaches that gas generation, as an incident of oxygen reactions absorbs the heat of the reaction and removes it from the reaction system. The patent further teaches that the oxidizer reacts primarily with the metal fuel, secondarily with any carbon of hydrogen present in the composition, and with the workpiece, and consequently the best composition has an excess of oxidizer up to about 80% by weight. While this composition is effective in that it uses by conduction the heat of the reaction and supply an excess of oxygen for the workpiece after it is heated wherein the oxygen comes from the oxidizers selected. Again, this composition does not take advantage of optimum heat transfer.
SUMMARY OF THE INVENTION
These disadvantages are overcome as well as novel advantages are realized in the present invention. Applicant has found that the latent heat of vaporization and the latent heat of crystallization can be utilized from the reaction products of a thermite composition thereby transferring immediately a tremendous amount of heat instantly to a target, substrate or workpiece. It has been found the if gaseous products of a thermite reaction impinge upon a target, substrate or workpiece and fuse and crystallize upon impact, a tremendous amount of latent heat is transferred instantly. Thereby a target can be instantly demolished, a substrate can be worked upon immediately at high temperature or a workpiece can be cut or brazed or welded in an instant.
These advantages are realized by a thermite composition for pyrotechnics which comprises a strongly reducible metal oxide, a decomposable heat transfer agent consisting of Cu
2
O, and a strong reducing agent. It is desirable that the stoichiometerics and mechanics of the ignited composition is such that a substantial excess of oxygen is available. It is preferred that the strong oxidizing agent comprise CuO and the thermally decomposable heat transfer agent is Cu
2
O because copper is vaporizable at the reaction temperatures and has high thermal conductivity. Also other ingredients may be added to the composition such as gas generating compounds, binders, diluents and supplemental oxidizing agents. Certain of these compositions can be environmentally safe, can be made from readily available and relatively inexpensive materials, can be burned with simple equipment, does not produce a light harmful to the eyes and does not produce a significant amount of smoke or harmful fumes.
DETAILED DESCRIPTION OF THE INVENTION
The thermite composition for pyrotechnics of the present invention includes a strongly reducible metal oxide, a thermally decomposable heat transfer agent consisting of Cu
2
O, and a strong reducing agent where metals released in the reaction are substantially vaporizable and have high thermal conductivity. Also, other ingredients may be added to the composition such as gas generating compounds, binders, diluents and supplemental oxidizing agents.
The strongly reducible metal oxide is taken from the group consisting of FeO, Fe
2
O
3
, CoO, NiO, Cu
2
O, CuO, Sb
2
O
3
, MoO
2
, MoO
3
, Cr
2
O
3
, PbO
2
, WO
2
, and WO
3
or a combination thereof and is provided in the range of about 35-55% by weight. It is preferred that the strongly reducible metal oxide of the present invention is more reactive than the thermally decomposable heat transfer agent. Accordingly, the strongly reducible metal oxide is preferably taken from the group consisting of Fe
2
O
3
, NiO, CuO, and CoO. It is even more preferred that the strongly reducible metal oxide is CuO. The thermally decomposable heat transfer agent is Cu
2
O and is provided in an amount of about 20-55% by weight. The strong reducing agent is taken from the group consisting of Al, Si, Zr, Be, Mg, Ba, Ti, and B and is provided in an amount of about 5-20% by weight. It is preferred that the strong reducing agent is taken from the group consisting of Al, Mg, Si and Be.
Other ingredients that may be added are gas generating compounds taken from the group consisting of metal carbides and metal nitrides and nitrates provided in the range of about 0-5% by weight. Diluents ma

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