Indonesian Journal of Chemical Studies (Indones. J. Chem. Stud.)
Vol. 5 No. 1 (2026): Indones. J. Chem. Stud. June 2026

The Performance of Red Flares Mg/Sr(NO₃)₂/PVC Compositions Modified with KIO₄ Additives

Elda Pratita (Department of Chemistry, The Republic of Indonesia Defense University, IPSC Sentul, Bogor 16810, Indonesia)
Gunaryo (Department of Chemistry, The Republic of Indonesia Defense University, IPSC Sentul, Bogor 16810, Indonesia)
Minandre Wiratama (Department of Chemistry, The Republic of Indonesia Defense University, IPSC Sentul, Bogor 16810, Indonesia)
Anggaria Maharani (Department of Energetic Material Center, PT. Dahana, Subang 41285, Indonesia)
Astrid Blandina (Department of Chemistry, The Republic of Indonesia Defense University, IPSC Sentul, Bogor 16810, Indonesia)
Shella Athaya Miwazuki (Department of Chemistry, The Republic of Indonesia Defense University, IPSC Sentul, Bogor 16810, Indonesia)
Satria Aqilla Widyatama (Department of Chemistry, The Republic of Indonesia Defense University, IPSC Sentul, Bogor 16810, Indonesia)



Article Info

Publish Date
27 May 2026

Abstract

This study analyzes the enhancement of red signal flare efficacy for defense applications by formulating Mg/Sr(NO₃)₂/PVC-based pyrotechnics, utilizing various quantities of potassium periodate (KIO₄) as a secondary oxidizer. The addition of KIO₄ is significant as it provides extra oxygen, modifies combus6tion kinetics, raises flame temperature, and enhances the stimulating effect of red-emitting species—mechanisms that together may increase luminous output and stabilize the emitted spectrum band. Performance was assessed by measuring light intensity, dominant wavelength, burn rate, and color purity; spectral and image-based color analyses were performed using ImageJ. Results indicate that formulations containing up to 10% KIO₄ achieve a peak light intensity of 3,173.33 lux, a dominant wavelength of 638.16 nm, a burn rate of 2.01 g/s, and an estimated photon-energy efficiency of 3.54 × 10⁻¹⁹ J, with red emission reaching optimal purity at this composition. Compared to the baseline formulation without KIO₄, KIO₄-containing compositions showed markedly higher intensity and improved spectral stability, faster and more consistent burn behavior, and enhanced color purity—whereas the formulation without KIO₄ exhibited lower luminous output, broader or shifted spectral features, and reduced color stability. The novelty of this work lies in applying potassium periodate as a secondary oxidizer in the Mg/Sr(NO₃)₂/PVC system—an approach that, to our knowledge, has been little explored—and demonstrating its dual benefit for optical performance and combustion behavior. The findings support the recommendation of the 10% KIO₄ formulation as the most effective balance of visual and combustion performance for red signal flares.

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Journal Info

Abbrev

ijcs

Publisher

Subject

Chemistry

Description

Indonesian Journal of Chemical Studies (IJCS) is a peer-reviewed, open-access journal that publishes original research articles, review articles, as well as short communication in all areas of basic and applied chemistry. IJCS was managed & published by the Indonesian Scholar Society. This journal ...