Advances in road technology have encouraged efforts to improve the quality of environmentally friendly and sustainable pavement materials. One potential local material is Asbuton (Buton Asphalt), which is used in Cold Paving Hot Mix Asbuton (CPHMA) products. However, the application of CPHMA is still limited due to its relatively low stability value. This study aims to analyze the effect of adding Unplasticized Polyvinyl Chloride (UPVC) waste on the characteristics of the CPHMA mixture and determine the optimum content that can improve its performance. The research method used was an experimental method with testing at the NTB Provincial DPU-PR Testing Center. The variation in UPVC waste addition was 0%, 1%, 2%, 3%, 4%, and 5% of the weight of asphalt, using the wet process mixing method. The tests included Marshall stability, flow, Void In Mixture (VIM), Void In Mineral Aggregate (VMA), and Void Filled with Bitumen (VFB) tests, referring to the 2018 Revised General Specifications for Highways. The results showed that adding 1% UPVC waste produced the highest stability value of 968 kg with flow and volumetric parameters that still met the standards. Adding more than 2% caused a decrease in stability due to increased air voids and decreased mixture homogeneity. Based on these results, the optimum level of UPVC waste in the CPHMA mixture was found to be 1%, which provided the best balance between the stability and durability of the mixture. This study indicates that the use of UPVC waste has the potential to improve the performance of CPHMA while supporting sustainable plastic waste management.

Asbuton (Buton Asphalt); CPHMA (Cold Paving Hot Mix Asbuton); UPVC Waste; Marshall Stability; Road Pavement Performance.

Akhyar, M., Zakki, A. F., & Santosa, A. W. B. 2021. Perancangan Kapal Katamaran Dengan Material Unplasticized Poly Vinyl Chloride (UPVC) Untuk Menunjanng Pariwisata Di Danau Toba. Jurnal Teknik Perkapalan, 9(4), 343–344. https://ejournal3.undip.ac.id/index.php/naval/article/view/31549

Anggara, M. A. R., & Syarma, D. P. 2025. Studi Perilaku Material Aspal Modifikasi Untuk Konstruksi Jalan Tol Di Daerah Tropis. Jurnal Studi Dan Aplikasi Teknik Sipil (JSATS), 1(1), 2. https://doi.org/10.64123/jsats.v1.i1.1

Anzari, D. A. Al, Nurdin, A. R., & Yunianti, N. 2023. Pemanfaatan Limbah Styrofoam Sebagai Bahan Tambah Terhadap Karakteristik Campuran Aspal Buton Tipe CPHMA Dengan Perendaman Berulang. Jurnal Penelitian Teknik Sipil Konsolidasi, 1(1), 31. https://doi.org/10.56326/jptsk.v1i1.1552

Djakfar, L., Wiyanta, Y. K., Bowoputro, H., & Baisa, H. L. 2018. Pengaruh Kadar Kapur Padam Sebagai Bahan Pengisi Campuran Cold Paving Hot Mix Asbuton. Jurnal Transportasi, 18(1), 22. https://doi.org/10.26593/jtrans.v18i1.2970.21-28

I.D.M.A. Karyawan, N. N. K., Hariyadi, Hasyim, & Rohani. 2023. Karakteristik Aspal Buton Ekstrasi yang Dimodifikasi Dengan Oli Bekas dan Plastik HDPE. Rekonstruksi Tadulako, 4(2), 85. https://doi.org/10.22487/renstra.v4i2.596

Linggo, J. S. nie, & Kurniawan, J. Y. 2015. Penggunaan PVC Sebagai Bahan Tambah Pada Beton Aspal. Jurnal Teknik Sipil, 12(3), 192. https://doi.org/10.24002/jts.v13i3.875

Ma’ulva, A. A., Ridwan, A., & Damara, B. 2025. Penggunaan Semen Portland Sebagai Bahan Pengganti Abu Batu/Filler terhadap Karakteristik Aspal AC-WC. Jurnal Talenta Sipil, 8(2). http://dx.doi.org/10.33087/talentasipil.v8i2.968

Muttaqin, A., Isfanari, Wahyuningsih, T., Efendy, A., & Anam, H. 2020. Karakteristik Campuran Beraspal (Hrs-Wc) Dengan Bahan Tambahan Serbuk Limbah UPVC (ADDITIVE). Jurnal Sipil Sains, 10(2), 128–131.

Qubro, K. Al, Fauzi, M., Nisumanti, S., & Febryandi, S. H. 2025. Kinerja Campuran Stone Matrix Asphalt (SMA) Menggunakan Aspal Modifikasi Asbuton Murni Lawele. Jurnal Talenta Sipil, 8(2), 885–886. http://dx.doi.org/10.33087/talentasipil.v8i2.1014

Rahman, H., Harnedi, R. A., Siregar, F. T. N., Yongjoo Kim, K. L., & Kang, I. 2024. Laboratory Performance of Asphalt Concrete containing Foamed Bitumen from extraction of Buton Natural Asphalt. Jurnal Teknik Sipil: Jurnal Teoretis Dan Terapan Bidang Rekayasa Sipil, 31(3), 249–252. https://doi.org/10.5614/jts.2024.31.3.2

Rahmawati, A. N., Widhiastuti, Y., & Prasetyo, B. H. 2023. Pengaruh Penambahan Limbah Plastik Pet (Polythylene Terepthalate) Untuk Aspal Penetrasi 60/70 Terhadap Karakteristik Campuran Aspal (AC-BC). Jurnal Ekonomi Teknologi Dan Bisnis, 2(2), 204. https://doi.org/10.57185/jetbis.v2i2.30

Sa’dillah, M., Yurnalisdel, Oktaviastuti, B., & Nenabu, C. C. C. 2024. Karakteristik Penggunaan Plastik Pvc (Polyvinyl Chloride) Bahan Tambahan Campuran Aspal Porus. Inersia: Jurnal Teknik Sipil, 16(1), 14–18. https://doi.org//10.33369/ijts.16.1.8-20

Sumiati, & Mahmuda, A. S. 2019. Perkerasan Aspal Beton (AC-BC) Limbah HDPE Yang Tahan Terhadap Cuaca Ekstrem. Construction and Material Journal, 1(1), 2. https://doi.org/10.32722/cmj.v1i1.1322

Sumiati, Mahmuda, & Puryanto. 2019. Keunggulan Asbuton Pracampuran dan Aspal Shell Pada Campuran Aspal Beton (AC-BC). POLITEKNOLOGI, 18(1), 54. https://doi.org/10.32722/pt.v18i1.1289

Toad, W., Kabo, D., Manginsihi, B., Hosang, M., & Marshall. 2024. Characteristics Test on Asphalt Concrete Mixtures –Wearing Course Using Modified Asbuton. Jurnal Multidisiplin Madani (MUDIMA), 4(6), 887. https://journal.formosapublisher.org/index.php/mudima/article/view/10026

Utomo, L. W., & Arfiana, S. 2023. Pemanfaatan Limbah Plastik Daur Ulang Dari Polietilen Tereftalat (PET) Sebagai Bahan Tambahan Dalam Pembuatan Nanokomposit, Semen Mortar, dan Aspal. Jurnal Teknologi Lingkungan Lahan Basah, 11(1), 165. https://jurnal.untan.ac.id/index.php/jmtluntan/article/view/60812