TITLE: Non nitroglycerin-containing composite-modified double-base propellant United States Patent 4707199 ABSTRACT: The glycidyl azide polymer produced by hydrolysis of glycidyl chloride fowed by reaction with sodium azide is employed in a crosslinked composite-modified double-base propellant composition both in the casting powder portion and casting solvent portion as a superior replacement for nitroglycerin in each portion specified. The crosslinked composite-modified double-base propellant composition is characterized by having a greater safety in handling, reduced sensitivity to detonation, higher burning rate, higher specific impulse, and improved mechanical properties as compared with a like composition containing nitroglycerin in the casting powder and the casting solvent portions. INVENTORS: Sayles, David C. (Huntsville, AL) APPLICATION NUMBER: 06/543397 PUBLICATION DATE: 11/17/1987 FILING DATE: 10/17/1983 ASSIGNEE: The United States of America as represented by the Secretary of the Army (Washington, DC) PRIMARY CLASS: 149/19.2 OTHER CLASSES: 149/19.4, 149/19.6, 149/19.8, 149/20 INTERNATIONAL CLASSES: C06B45/10; (IPC1-7): C06B45/10 FIELD OF SEARCH: 149/19.2, 149/19.4, 149/19.6, 149/19.8, 149/20 US PATENT REFERENCES: 4379903 Propellant binders cure catalyst April, 1983 Reed, Jr. et al. 149/19.92 4379894 Aqueous process for the quantitative conversion of polyepichlorohydrin to glycidyl azide polymer April, 1983 Frankel et al. 525/403 4288262 Gun propellants containing polyglycidyl azide polymer September, 1981 Flanagan et al. 149/19.6 4269637 High-performance MHD solid gas generator May, 1981 Flanagan 149/19.4 PRIMARY EXAMINER: Miller, Edward A. Attorney, Agent or Firm: Raubitschek, John H. Bellamy, Werten F. W. Bush, Freddie M. CLAIMS: I claim: 1. A crosslinked composite-modified double-base propellant composition comprising a casting powder portion and a casting solvent portion, said casting powder portion comprising about 72.0 weight percent of said propellant composition and said casting solvent portion comprising about 28.0 weight percent of said propellant composition, said casting powder portion comprised in part by weight of ingredients as follows: ______________________________________ nitrocellulose (12.5% nitrogen) 16.6 carboranylmethyl propionate 4.7 triacetin 17.5 2-nitrodiphenylamine 1.1 resorcinol 0.7 ammonium perchlorate (1 μm) 32.8 aluminum (20 μm) 7.2 aluminum staple (whiskers) 2.7 glycidyl azide polymer formed from hydrolysis 16.0 of glycidyl chloride followed by reaction with sodium azide ______________________________________ , and said casting solvent portion comprised in parts by weight of ingredients as follows: ______________________________________ glycidyl azide 45.8 triacetin 52.7 hexane diisocyanate 0.50 triphenylbismuthine 0.07 ______________________________________ , said crosslinked composite-modified double-base propellant composition characterized by having greater safety in handling, reduced sensitivity to detonation, higher burning rate, higher specific impulse, and improved mechanical properties as compared with a like composition containing nitroglycerin in said casting powder portion and in said casting solvent portion in equivalent molar weight amounts to said glycidyl azide polymer. . DESCRIPTION: BACKGROUND OF THE INVENTION Solid propellant compositions have employed nitroglycerin as an explosive plasticizer which is a highly energetic plasticizer. Although much success has been achieved with the use of nitroglycerin or its related derivatives in solid propellant compositions, a greater degree of safety in handling and a reduced sensitivity to detonation have been desired. A replacement for nitroglycerin in solid propellants which yields the improved safety advantages would be of particular interest in either crosslinked or uncrosslinked composite-modified double-base propellants. Even of further particular interest would be such a replacement for nitroglycerin which results in a higher burning rate, a higher specific impulse, and improved mechanical properties of the propellant composition. The handling sensitivity of nitroglycerin has always been a matter of extreme concern, and especially, more recently of the detonation which occurred in a nitroglycerin processing facility which resulted in the loss of several lives. An object of this invention is to provide a replacement for nitroglycerin in crosslinked or uncrosslinked composite-modified double-base propellants. A further object of this invention is to provide a replacement for nitroglycerin in crosslinked or uncrosslinked composite-modified double-base propellants which results in a propellant composition having a greater safety in handling, reduced sensitivity to detonation, higher burning rate, higher specific impulse, and improved mechanical properties. SUMMARY OF THE INVENTION The glycidyl azide polymer produced by hydrolysis of glycidyl chloride followed by reaction with sodium azide is a superior replacement for nitroglycerin of the casting powder portion of an ultrahigh-burning rate propellant for application in an interceptor system, such as the Endoatmospheric Nonnuclear Kill interceptor system. The above described propellant is comprised of a casting powder portion which comprises about 71.7 weight percent of the propellant composition and a casting solvent portion which comprises about 28.3 weight percent of the propellant composition. An equivalent molar weight percent of glycidyl azide polymer formed from hydrolysis of glycidyl chloride followed by reaction with sodium azide is substituted for the nitroglycerin of the casting powder portion. The casting powder portion of the propellant composition is comprised in parts by weight of ingredients whose functions, ingredients, and amounts are set forth as follows: ______________________________________ Parts by Function Ingredient Weight ______________________________________ binder nitrocellulose (12.5% nitrogen) 16.6 catalyst carboranylmethyl propionate 4.7 curative triacetin 17.5 stabilizer 2-nitrodiphenylamine 1.1 stabilizer resorcinol 0.7 oxidizer ammonium perchlorate (1 μm) 32.8 metal fuel aluminum (20 μm) 7.2 fuel and aluminum whiskers 2.9 mechanical burning rate accelerator energetic glycidyl azide polymer 16.0 binder ______________________________________ The casting solvent portion is comprised of glycidyl azide 45.8 parts, triacetin 52.7 parts, triphenylbismuthine 0.07 part, and hexane diisocyanate 0.50 part. DESCRIPTION OF THE PREFERRED EMBODIMENT A glycidyl azide polymer is a superior replacement to nitroglycerin in either crosslinked or uncrosslinked composite-modified double-base propellants. The glycidyl azide polymer of specific reference is produced by hydrolysis of glycidyl chloride followed by reaction with sodium azide, as illustratd in the reaction titled: "Synthesis of Glycidyl Azide Polymer", set forth below. SYNTHESIS OF GLYCIDYL AZIDE POLYMER ##STR1## Table I provides a data sheet on glycidyl azide polymer (GAP) TABLE 1 ______________________________________ Glycidyl Azide Polymer (GAP) ______________________________________ Chemical Structural Formula: ##STR2## wherein n is from about 17 to about 26. Molecular Weight: 2000-3000 Functionality: 2.0-3.0 Density: 1.30 g/cc Glass Transition Temperature: -20° C. Impact Sensitivity: 173 in-lb Thermal Stability: 0.1 ml N[2] after 600 hrs at 60° C. Heat of Formation: +33 Kcal/mole (Experimental) Burn Rate: 0.77 in/sec at 1000 psi (Self Extinguishes at Ambient Pressure) ______________________________________ Table 2, below, sets forth a preferred embodiment of the experimental composition B containing GAP. The properties of an endoatmospheric nonnuclear kill propellant and the improvement achieved with the use of GAP as a replacement for the nitroglycerin in an equivalent molar weight percent are compared with composition A, the nitroglycerin propellant, in Table 2. TABLE 2 _______________________________________________________________________ ___ Composition and Properties of a typical Endoatmospheric Nonnuclear Kill Candidate Propellant PROPELLANT COMPOSITION A B (Parts by Wt.) Propellant Propellant Based on Based on Glycidyl INGREDIENT Nitroglycerin Azide _______________________________________________________________________ ___ CASTING POWDER Nitrocellulose (12.5% N) 16.6 16.6 Nitroglycerin 31.1 0.0 Carboranylmethyl propionate 4.7 4.7 Triacetin 2.5 17.5 2-Nitrodiphenylamine 1.1 1.1 Resorcinol 0.7 0.7 Ammonium perchlorate (1 μm) 32.8 32.8 Aluminum (20 μm) 7.2 7.2 Aluminum whiskers 2.9 2.9 Glycidyl azide 0.0 16.0 CASTING SOLVENT Glycidyl azide 0.0 45.8 Nitroglycerin 89.5 0.0 Triacetin 8.95 52.7 Hexane Diisocyanate 0.50 0.50 Triphenylbismuthine 0.07 0.07 (catalyst for reaction resulting in urethane formation) RATIO OF CASTING POWDER TO CASTING 72/28 72/28 SOLVENT MECHANICAL PROPERTIES (77° F.) (0.74-in-min^-1) Tensile Strength 365 psi 440 Strain at Maximum Stress 54% 60% Modulus 1,050 1,200 CURE TIME AT 145° F. 3 to 4 days 3 to 4 days EXPLOSIVE SENSITIVITY Impact Test (Kg/cm) 200 300 Explosive Classification 1.1 1.3 (expected) DOT Class A Class B Uncured strand burning rate -- 7.4 10-lb CHARGE MOTOR FIRINGS Burning Rate (at 2,000 psi) 6.7 10.2 Pressure Exponent (500-3,000 psi) 0.68 0.55 Ispd (Delivered Specific Impulse) (lbf-s/lbm) 251.6 255.1 (KN-s/kg) 2.467 2.501 End-of-mix viscosity (kP) 10.5 14.1 _______________________________________________________________________ ___ The incorporation of GAP into the propellant composition results in a greater safety in handling, reduced sensitivity to detonation, higher burning rate, higher specific impulse, and improved mechanical properties.