The aim of this study is to obtain characteristics of ammonium perchlorate particle that used in Rocket Technology Center (LAPAN). Characterization begin from the determination of particle size distribution with Particle Size Analyzer. The SEM is used to obtain information about the morphology of AP, furthermore, the results are reprocessed using ImageJ software to analyze the shape of AP particle, and the Surface area was obtained by using BET. Characteristic of AP such as particle size, shape, and surface area are important parameters because those are directly related to propellant combustion energy. Ammonium perchlorate was procured from China, South Korea, and Indonesia with a particle size of 200µm From this study, the particle size of APC200, APH200 and API200 was obtained, which are 265 µm, 236 µm, and 242 µm, with particle shape aggregate value of 0,68, 0,38 and 0,33, roundness of 0,57, 0,79,0,63, and surface area of 1,104 m²/g, 5,561 m²/g, and 2,972 m²/g.

Characterization; ammonium perchlorate; propellant

Ashish, J., Swaroop, G., & Balasubramanian, K. (2019). Effect of Ammonium Perchlorate Particle Size on Flow, Ballistic, and Mechanical Properties of Composite Propellant. In Nanomaterials in Rocket Propulsion Systems (pp. 299–362). https://doi.org/10.1016/B978-0-12-813908-0.00008-3

Ferreira, T., & Rasband, W. (2012). ImageJ User Guide User Guide ImageJ. In Image J user Guide. https://doi.org/10.1038/nmeth.2019

Hutauruk, J. (2020). Analisis Karakteristik Material Padat (Ammonium Perchlorate) Propelan Komposit Terhadap Kinerja Propelan Lembaga Penerbangan Dan Antariksa Nasional (Lapan) Dalam Rangka Penguasaan Teknologi Propelan. Tesis Pascasarjana Universitas Pertahanan Indonesia. Bogor. 117hlm.

Pons, M. N., & Dodds, J. (2015). Particle Shape Characterization by Image Analysis. In Progress in Filtration and Separation. https://doi.org/10.1016/B978-0-12-384746-1.00015-X

Restasari, A., Budi, R. S., & Hartaya, K. (2017). Pengaruh Komposisi Ap Terhadap Prosesibilitas Slurry Propelan Dengan Kandungan Aluminium Tinggi (Effects of Ammonium Perchlorate Composition on High Content Aluminium Propellant Slurry). Jurnal Teknologi Dirgantara, 15(2), 105. https://doi.org/10.30536/j.jtd.2017.v0.a2509

Suresh Babu, K. V., Kanaka Raju, P., Thomas, C. R., Syed Hamed, A., & Ninan, K. N. (2017). Studies on composite solid propellant with tri-modal ammonium perchlorate containing an ultrafine fraction. Defence Technology, 13(4), 239–245. https://doi.org/10.1016/j.dt.2017.06.001

Wibowo, H. B. (2018). Current solid propellant research and development in Indonesia and its future direction. Journal of Physics: Conference Series, 1130(1). https://doi.org/10.1088/1742-6596/1130/1/012027