Although natural rubber has many good qualities, its commercial uses are limited by its low chemical reactivity and low heat stability. A derivative with better stability, Cyclic Natural Rubber (CNR), has to be chemically modified to increase its usefulness and broaden its range of applications. Investigating the effects of two different methods, the melt processing and solution system on the FTIR spectra of Cyclic Natural Rubber (CNR) graft copolymerization with Glycidyl Methacrylate (GMA) was the aim of this work. Additionally, an evaluation of the effect of Dicumyl Peroxide (DCP) and Benzoyl Peroxide (BPO) initiators on grafting results was carried out. According to FTIR spectrum analysis, the carbonyl ester (C=O) peak at roughly 1721 cm⁻¹, indicating effective grafting, was more pronounced in the melt processing approach than in the solution procedure. This implied that melt processing resulted in higher grafting efficiency. The absorption bands in the C-H stretching region (2860-2921 cm⁻¹) and the C=C stretching area (1672 cm⁻¹) show that the underlying structure of CNR has not degraded. The carbonyl index values for each composition showed that BPO performed better than DCP in the melt treatment method, however DCP as an initiator in the solution system produced a higher grafting efficiency than BPO.

Alfian, Z., & Nasution, N. (2021, November). Addition of divinyl benzene comonomer to glycidyl methacrylate grafting to cyclic natural rubber. In IOP Conference Series: Earth and Environmental Science (Vol. 912, No. 1, p. 012099). IOP Publishing.

Al-Malaika, S., & Eddiyanto, E. (2010). Reactive processing of polymers: Effect of bifunctional and tri-functional comonomers on melt grafting of glycidyl methacrylate onto polypropylene. Polymer degradation and stability, 95(3), 353-362.

Almond, J., Sugumaar, P., Wenzel, M., Hill, G., & Wallis, C. (2020). Determination of the carbonyl index of polyethylene and polypropylene using specified area under band methodology with ATR-FTIR spectroscopy. E-Polymers, 20, 369–381.

Departemen perindustrian. (2007). Gambaran Sekilas Industri Karet.

Dibyantini, R. E., & Simanungkalit, F. (2016). Modifikasi Cyclic Natural Rubber (Cnr) Melalui Metode Epoksidasi Dan Grafting Monomer Asam Akrilat Menggunakan Benzoil Peroksida (Bpo). Universitas Negeri Medan.

Dobrovolsky, V. N., Pacheco-Martinez, M. M., McDaniel, L. P., Pearce, M. G., & Ding, W. (2016). In vivo genotoxicity assessment of acrylamide and glycidyl methacrylate. Food and Chemical Toxicology, 87, 120–127.

Eddiyanto. (2007). Functionalisation of polymers: reactive processing, structure and performance characteristics. Aston University.

Eddiyanto, E., Nababan, A., & Sinaga, A. (2022). Modification Of Natural Rubber Sir-20 With Cyclisation and Grafting Methods with Maleic Anhydride. Indonesian Journal of Chemical Science and Technology (IJCST), 5(2), 67.

Eddiyanto, E., Nainggolan, B., & Sipayung, M. (2022). Process and Characterization of Modification of Natural Rubber (SIR-20) with Grafting Maleat Anhydride. AIP Conference Proceedings, 2659(July 2004).

Hou, X., Lv, S., Chen, Z., & Xiao, F. (2018). Applications of Fourier transform infrared spectroscopy technologies on asphalt materials. Measurement: Journal of the International Measurement Confederation, 121(March), 304–316.

Jaratrotkamjorn, R., Hayeemasae, N., Zakaria, Z., & Masa, A. (2023). In fl uence of acid concentration on thermomechanical , tensile and thermal properties of cyclized natural rubber.

Juntuek, P., Ruksakulpiwat, C., & Chumsamrong, P. (2011). Glycidyl Methacrylate Grafted Natural Rubber : Synthesis , Characterization , and Mechanical Property. Journal of Applied Polymer Science, 122, 3152–3159.

Mahendra, I. P., Wijosentono, B., Tamrin, T., & Ismail, H. (2019, January). Modifikasi Resiprene-35 Dengan Asam Metakrilat Melalui Teknik Pencangkokan Dalam Sistem Pelarut. In Talenta Conference Series: Science and Technology (ST) (Vol. 2, No. 1, pp. 52-59).

Nasruddin. (2018). Sifat Mekanik Rubber Waves Dari Komposit Karet Alam Dan Karet Sintesis Menggunakan Multi Filler. Jurnal Dinamika Penelitian Industri, 29(1), 35–45.

Siregar, M. S., Astuti, R. P., Fuadi, M., Ardilla, D., Nasution, A., D.M., M., & Eddiyanto. (2021). Pencangkokan Anhidrida Maleat Pada Karet Alam Siklis: Penambahandivinil Benzen Untuk Meningkatkan Derajat Pencangkokan (Grafting of Maleic Anhydride Onto Cyclized Natural Rubber: the Presence of Divinyl Benzeneto Increase Thegrafting Degree). Jurnal Riset Teknologi Industri, 15(2), 222–230.

Siregar, M. S., Mentari, E. C., Ardilla, D., M D, M., Nasution, A., & Eddiyanto, E. (2021). Studi Suhu Transisi Gelas Produk Pencangkokan Anhidrida Maleat Pada Karet Alam Siklis: Metode Differential Scanning Calorimetry. Jurnal Kimia Mulawarman, 19(1), 45–50.

Siregar, M. S., Thamrin, M., Basuki, W. S., & Eddiyanto. (2015). Modifikasi Kimia Karet Alam Siklis (Cyclic Natural Rubber/Cnr) Dengan Teknik Grafting: Menggunakan Monomer Metil Metakrilat Dan Inisiator Benzoil Peroksida. Agrium, 17((23). 172-175

Zainudin, Z., Baharulrazi, N., Hajjar, S., & Man, C. (2021). Natural rubber derivatives for adhesives applications: A review. Chemical Engineering Transactions, 83(September), 493–498.