R. Anandavally Ammal scite author profile

R. Anandavally Ammal

2Publications

4Citation Statements Received

6Citation Statements Given

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Affiliations

Vikram Sarabhai Space Centre

Publications

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Addition of RDX/HMX on the Ignition Behaviour of Boron-Potassium Nitrate Pyrotechnic Charge

Krishnan

Ammal

Hariharanath

et al. 2006

DSJ

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Boron-potassium nitrate (B-KNO 3 ) (25/75) is a well-known pyrotechnic composition which finds application as energy-release system for small-calibre rockets and pyrogen igniters for larger motors. The decomposition of the oxidiser in this composition is endothermic which can be activated by the addition of high explosives, which decompose exothermically. This paper describes the influence of two nitramine explosives, RDX and HMX, on the ignition characteristics of B-KNO 3 composition using thermogravimetry, differential scanning calorimetry, heat and pressure output measurements. Different compositions were prepared by varying the amount of RDX/HMX from 10 per cent to 50 per cent. Thermal studies on the B-KNO 3 /high explosive mixtures reveal that these undergo two-stage decomposition. The first stage corresponds to the decomposition of high explosive and the second stage corresponds to that of the reaction between B and KNO 3 . Kinetic parameters were calculated for both the stages of TG curves using CoatsRedfern and Mac Callum-Tanner methods. Ignition temperature of B-KNO 3 decreases on the addition of RDX/HMX while the onset of RDX or HMX decomposition is not significantly affected by B-KNO 3 . The pressure output of B-KNO 3 increases on adding RDX/HMX. The heat output of B-KNO 3 is not much affected by the addition of RDX or HMX, even though the heat of explosion of RDX and HMX are low. This is due to the reaction between the combustion products of RDX/HMX and reaction products of B-KNO 3 to form more exothermic products like B 2 O 3 , releasing extra heat. The flame temperature of the charge increases while the average molecular weight of the products of combustion decreases as the RDX/HMX content increases. Thus, the charge, on addition of RDX or HMX, produces higher pressure output, maintaining the heat output at comparable levels.

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Thermal Studies on Boron-Based Initiator Formulation.

Rajendran

Ammal

Kartha

et al. 1996

DSJ

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