One alternative for processing PET (polyethylene terephthalate) plastic waste is to convert it into a basic material for making 3D printer filaments with the addition of shrimp shell chitosan. The addition of shrimp shell chitosan to the filament can increase its mechanical strength. The aim of this research is to determine the best formulation and effectiveness of the combination of PET plastic with chitosan as 3D printer filament on the mechanical properties and microstructure of the surface. Making 3D printer filament from a combination of PET and shrimp shell chitosan using a double screw extruder with varying ratios between PET and shrimp shell chitosan (99 : 1, 97.5 : 2.5 and 95 : 5) with temperature variations at 175° C (Hopper Zone ), 195°C, 225°C, 245°C (Die zone) using a screw rotation speed of 50 rpm, with the testing process including a tensile test, to determine the mechanical properties of the material by analysis using the SEM (Scanning Electron Microscope) test ) to identify the surface morphology and size of the filament material. The test results for composition 99:1 (sample 1) had the lowest tensile strength value of 35.79 MPa, breaking 0.10 mm with an elongation value of 0.32%. Composition 97.5:2.5 (sample 2) with a tensile strength value of 96.20 Mpa, longest breaking length of 0.13 mm and highest elongation value of 0.42%. Composition 95:5 (sample 3) only has the highest tensile value of 98.95 MPa, with a breaking length of 0.06 mm and the lowest elongation of 0.18%.

Agustin, Y.E., Padmawijaya, K.S., Sintesis bioplastik dari kitosan-pati kulit pisang kepok dengan penambahan zat aditif, Jurnal Teknik Kimia, 10(2), 43-51, 2016.

Ahmed, W., Alabdouli, H., Alqaydi, H., Mansour, A., Khawaja, H.A., Open source 3D printer: a case study. In Proceedings of the International Conference on Industrial Engineering and Operations Management, 10th Annual International IEOM Conference. Maret 2020, Dubai, UAE. pp, 10-12, 2020.

Al Hoqani, H.A.S., al-Shaqsi, N., Hossain, M.A., Al Sibani, M.A., Isolation and optimalization of the method for industrial production of chitin and chitosan from Omani shrimp shell, Carbohydrate research, 492 (2020), 1-6, 2020.

Almahri, G., Madi, K., Alkaabi, F., Badran, Y., Shehadeh, K., ElHassan, A., Ahmed, W., Alzahmi, S., Characterization of hybrid FRP composite produced from recycled PET and CFRP, Polymers,15(13), 2-24, 2023.

Aprianti. E., Runtulalo. D., Zaifullah. M., The volumetric analysis of porous mixture containing modified plastic waste, Earth and Environmental Science. 1-7, 2020.

Bergaliyeva, S., Sales, D.L., Delgado, F.J., Bolegenova, S., Molina, S.I., Manufacture and characterization of polylactic acid filaments recycled from real waste for 3D printing, Polymers, 15(9), 1-1, 2023.

Bustos, M.S., Andres, G.M., Gruber, M., Volk, W., Osswald, T.A., Manaufacturing of a PET filament from recycled material formaterial extrusion (MEX), Recycling, 69 (2022):1-20, 2022.

Fitriyano, G., Rahim, D.A., Tinjauan singkat potensi pemanfaatan botol bekas berbahan polyethylene terephtalate (PET) di Indonesia, Eksergi, 16(1), 18-24, 2019.

Hartatik, Y.D., Nuriyah, L., Iswarin, S.J., Pengaruh komposisi kitosan terhadap sifat mekanik dan biodegradable bioplastik, Doctoral dissertation, Universitas Brawijaya, 2014.

Hasaya, H., Potensi pemanfaatan ulang sampah plastik menjadi eco-paving block, Jurnal Jaring SainTek 3(1), 25-31, 2021.

Hoqani, H.A.S., Noura. A., Mohammed. A.H., Mohammed, A.A.S., Isolation and optiminization of the method for industri producttion of chitin and chitosan from Omani shrimp shell, homepage, 1-6, 2020.

Nafis, Z.A.S., Nuzaimah, M., Kudus, S.A., Yusuf, Y., Ilyas, R.A., Knight, V.F., dan Norrrahim, M.N.F., Effect of wood dust fibre treatments reinforcement on the properties of recycled polypropylene composite (r-WoPPC) filament for fused deposition modelling (FDM), Materials, 16(2), 1-23, 2023.

Oktavian, D., Mahardika, M., Arifvianto, B., Ekstruksi dan karakterisasi filamen komposit polylactid acid (PLA)/carbon nano tube (CNT), Jurnal Material Teknologi Proses: Warta Kemajuan Bidang Material Teknik Teknologi ProsesProses, 2(2), 12-16, 2021.

Omar, B.A., Elmasry, R., Eita, A., Soliman, M.M., El Tahan, A.M., Sitohy, M., Upgrading the preparation of high-quality chitosan from Procambarus clarkii wastes over the traditional of shrimp chitosan, Saudi journal of Biological Sciences, 29(2022), 911-919, 2022.

Pristiansyah, Hadiansah, Sugiyarto, Optimasi parameter 3D printing FDM terhadap akurasi dimensi menggunakan filamen elfex, Jurnal Teknologi Manufaktur, 11 (1), 33-40, 2019.

Putra, K.S., Sari, U.S., Pemanfaatan teknologi 3D printing dalam proses desain produk gaya hidup, Seminar Nasional Sistem Informsi dan Teknologi Informasi. 12 Juli 2018, Surabaya, pp, 1-6, 2018.

Saputro, A.N.C., Ovita, A.L., Sintesis dan karakterisasi bioplastik dari kitosan-pati ganyong (Canna edulis), Jurnal Kimia dan Pendidikan Kimia (JKPK), 2(1), 13-21, 2017.

Setyawan. B.A., Yatin., N., Analisis pengaruh tingkat kelembaban filamen PLA terhadap nilai kekuatan mekanik hasil cetak 3D printing, 7(1), 1-11, 2022.

Sumardiyanto, D., Putra, S., Alat pengolahan limbah filamen 3D print dengan material polylactic acid (PLA), Jurnal Kajian Teknik Mesin, 6(2), 13-23, 2021.

Torres-Huerta, A.M., Palma-Ramírez, D., Dominguez-Crespo, M.A., Del Angel-López, D., De La Fuente, D., Comparative assessment of miscibility and degradability on PET/PLA and PET/chitosan blends, European Polymer Journal, 61(2014), 285-299, 2014.

Varun, T.K., Senani, S., Jayapal, N., Chikkerur, J., Roy, S., Tekulapally, V.B., Gautam, M., Kumar, N., Extraction of chitosan and its oligomers from shrimp shell waste, their characterization and antimicrobial effect, Veterinary world, 10(2), 170-175, 2017.

Wahyudi, J., Prayitno, H.T., Astuti, A.D., Pemanfaatan limbah plastik sebagai bahan baku pembuatan bahan bakar alternatif, Jurnal Litbang, 17(1), 58-67, 2018.