R. G. Sarawadekar scite author profile

To examide the possibility of improving the ignition characteristics lof the commonly used pyrotechnic ignition system based on B-KNO3-Binder (30:70: 10), B was gradually replaced Jjy Si in its composItion. The addition of Si was found to reduce the maximum pressure find increase the ignition delay. Max.imum dp/dr value was observed with the composition containing 5 per cent Si. The differentia' thermal analysis results showed single sharp peaks for ignition in the temperature range 500-570 ~C. 1ihe heat of combustion and burning rate decreased with increase in Si content. hnpact senSitivity of the compositions increased with increase in the percentage of Si, whereas no change was obse~ed in the friction sensitivity in comparison with the base composition.1 I.

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Use of Bismuth Chromate with Antimony Trisulphide in Delay Compositions

Sarawadekar

Swarge

Jayaraman

et al. 2003

Journal of Energetic Materials

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Antimony trisulphide is used with potassium perchlorate, barium chromate, and binder in delay compositions. The effect of substitution of barium chromate by bismuth chromate in the system barium chromate{antimony trisulphide{potassium perchlorate has been studied and reported here. These compositions contain 20% antimony trisulphide, 10% potassium perchlorate, and the remainder barium chromate=bismuth chromate. It is observed that the burning rate decreases from 0.43 to 0.23 cm=s with an increase in bismuth chromate content. The ignition temperature of these compositions determined by Differential Thermal Analysis (DTA) is found to be in the range 400 AE 10 C, the same for all compositions.Theoretical calculations by a chemical equilibrium program (REAL) are used to discuss the possible reaction mechanism. Thermo gravimetry (TG)=Differential Scanning Calorimetry (DSC) data are reported. It is observed that the main exothermic peak of the compositions containing bismuth chromate shows at about 462 C as compared to the basic system, where it is at 498 C. These compositions are safe to handle, as suggested by sensitivity data.

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Structural and thermal properties of alkaline earth metal phosphates

Sarawadekar

Kulkarni

1983

Thermochimica Acta

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Physico-chemical properties of metal phosphates

Sarawadekar

Kulkarni

1983

Thermochimica Acta

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R. G. Sarawadekar

Thermal, X-ray diffraction, spectral and antimicrobial activity of bivalent metal (Zn, Cd, Hg, Pb and Sn) chelates of 2-hydroxy-1, 4- naphthoquinone -1, oxime

Role of Silicon in Boron Potassium Nitrate System.

Use of Bismuth Chromate with Antimony Trisulphide in Delay Compositions

Structural and thermal properties of alkaline earth metal phosphates

Physico-chemical properties of metal phosphates

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