Pengaruh Durasi Pemanasan Campuran terhadap Kinerja Cold Paving Hot Mix Asbuton (CPHMA) dengan Pelarut Berbasis Minyak Kemiri
Keywords:
asbuton, solvent, hazelnut oil, CPHMAAbstract
The government pays attention to the potential of asbuton as an alternative to oil asphalt, this is reinforced by the issuance of several central government regulations requiring the use of asbuton as part of the national road material. It is undeniable that the shortage of asbuton in terms of the need for solvents and the instability of the asphalt content has backfired for road construction practitioners, causing the use of asbuton to date is still not optimal. Research as part of technological advances can participate in efforts to maximize the use of buton, one of which is by seeking solutions to the obstacles encountered in asbuton technology. This study aims to find an alternative asbuton solvent material based on hazelnut oil to be applied to Cold Paving Hot Mix Asbuton (CPHMA) pavement. It is hoped that the discovery of alternative solvents will improve the quality of buton as a road pavement material and increase practitioner and consumer confidence in the use of buton. The results obtained through this study are that the three duration variations, namely 10, 30 and 60 minutes, provide Marshall parameter values that meet the CPHMA requirements
References
Anonim. (2020). Cara Membuat Minyak Kemiri.
BPPJN VIII. (2017). Uji Gelar Aspal CPHMA di Ruas Bypass Krian.
Departemen Pekerjaan Umum. (2006). Pemanfaatan Asbuton Buku 1 Umum.
Departemen Pekerjaan Umum Direktorat Jendral Bina Marga. (2006). Pemanfaatan Asbuton. Buku 1. Umum.
Djakfar. (2015). Naskah publikasi.
Djakfar, L., Bowoputro, H., Akbariawan, R., & Fadiansyah, R. (2017). The effect of limestone and reheating temperature on cold paving hot mix asphalt. International Journal of GEOMATE, 12(29), 212–219. https://doi.org/10.21660/2017.29.77503
Djakfar, L., Wisnumurti, & Khamelda, L. (2020a). Alternatif Peremaja Asbuton.
Djakfar, L., Wisnumurti, & Khamelda, L. (2020b). Methods of Making Laboratory Scale CPHMA Specimens. International Journal of Engineering Trends and Technology, Special Issue.
Djakfar, L., Wisnumurti, Santjojo, D. J. D. H., Khamelda, L., Riztya Justitia, Azis, N. H. D. U., & Hamida, N. (2019). Kajian Kinerja Campuran CPHMA Menggunakan Modifier Surfaktan Dan Asam Format.
DPU Dirjen Bina Marga. (2006). Pemanfaatan Asbuton Buku 4 Campuran Beraspal Hangat dengan Asbuton Butir.
Hermansyah, D. (2018). Pemkab Ciamis Pakai Aspal Buton untuk Jalan Lingkungan.
Kasan, M. (2009). Studi Karakteristik Volumetrik Campuran Beton Aspal Daur Ulang. SMARTEK, 7(3), 152–165.
Permen PUPR No. 18/PRT/M/2018, (2018) (testimony of Kementerian Pekerjaan Umum dan Perumahan Rakyat).
Kementerian PUPR Dirjen Bina Marga. (2016). Spesifikasi Interim CPHMA.
Kurniadji. (2014). Ekstraksi Asbuton Dengan Pelarut Berbasis Bahan ( Asbuton Extraction Using Organic Based Solvent and. 31(1), 12–23.
Laboratorium Rekayasa Jalan ITB. (2001). Buku Besar Laboratorium Rekayasa Jalan. ITB.
Ludfi Djakfar, Wisnumurti, & Lila Khamelda. (2020). Alternatif Peremaja Asbuton.
Mamangkey, R., Kaseke, O. H., Jansen, F., & Manoppo, M. R. . (2013). KAJIAN LABORATORIUM SIFAT FISIK AGREGAT YANG MEMPENGARUHI NILAI VMA PADA CAMPURAN BERASPAL panas HRS-WC. Jurnal Sipil Statik, 1(3), 196–201.
Puslitbang. (2018). Renstra Loka Asbuton.
Sandi, R. F. (2013). Kinerja Campuran Lataston (HRS-WC) Asbuton dengan Penambahan Oli Bekas Terhadap Pengujian Marshall (Issue Mm).
Sastrohamidjojo, H. (2018). Kimia Dasar. Gadjah Mada University Press.
Sulistyanto. (2021). Manfaat Kemiri untuk Membantu Menyuburkan Rambut, Melawan Serangan Ketombe dan Sembelit.
Veratamala, A. (2021). Manfaat Minyak Kemiri untuk Kulit dan Rambut.
Wicaksono, B. D. (2020). Fakta di Balik Minyak Kemiri yang Bisa Menebalkan Rambut.
Yuniarti, R. (2014). Pengaruh Minyak Biji Nyamplung pada Bio-Flux Oil Sebagai Modifier Asbuton Butiran Terhadap Kinerja Asbuton Campuran Panas. 21(3), 251–258.
