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Amalia Silviyanti, Nurul
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Civil Engineering, Building, Construction & Architecture Engineering Environmental Science

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PENGARUH PENAMBAHAN SERABUT KELAPA TERHADAP KUAT TEKAN PLASBUT(PLASTIK SERABUT) PAVING BLOCK Listriyana, Ani; Amalia Silviyanti, Nurul
JURNAL SIPIL SAINS Vol 13, No 2 (2023)
Publisher : Program Stud Teknik Sipil Fakultas Teknik Universitas Khairun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33387/sipilsains.v13i1.6493

Abstract

Abstrak: Pengolahan sampah plastik menjadi paving block telah banyak dijadikan solusi dalam pengolahan limbah plastik.  begitu pun dengan paving block dengan filler serabut dan matriks semen. Penelitian ini bertujuan mengetahui kuat tekan ketika plastik dan serabut di kombinasikan sebagai matriks dan filler di tambah dengan filler pasir menjadi plasbut paving block. Plastik yang digunakan berjenis polypropilen. Produksi dilakukan dengan mencampurkan pasir dan plastik dalam 1 adonan, kemudian pada proses pencetakan serabut diletakkan di tengah cetakan tidak di campur menjadi satu dengan plastik dan pasir. Hasil uji tekan menunjukkan kuat tekan tertinggi di peroleh plasbut dengan komposisi plastik : Pasir : Serabut sebesar 70%:30%:0.5% dengan kuat tekan rata rata sebesar 12 MPa. diikuti dengan plasbut dengan komposisi plastik : Pasir : Serabut sebesar 70%:30%:0.125% dengan kuat tekan rata rata sebesar 9.1 MPa. Kuat tekan pada rentang ini sesuai untuk taman dengan mutu beton D.  Kata kunci: Plasbut Paving block. Serabut kelapa. Kuat Tekan Abstract: Processing plastic waste into paving blocks has been widely used as a solution for plastic waste. They are likewise paving blocks that use fibre filler and a cement matrix. This study aims to determine the compressive strength when plastic and fibres are combined as a matrix and filler are added with sand filler to become "plans but" paving blocks. The plastic used is polypropylene. Production is done by mixing sand and plastic in one dough, and then in the production process, the fibres are placed in the middle of the mould, not mixed with plastic and sand. The results of the compressive test showed that the highest compressive strength was obtained from "plasbut" with a plastic composition: Sand: Fiber of 70%: 30%: 0.5% with an average compressive strength of 12 MPa. followed by "plasbut" with a plastic composition: Sand: Fiber of 70%:30%:0.125% with an average compressive strength of 9.1 MPa. This compressive strength in this range is suitable for gardens with concrete quality D.Keywords: Plasbut Paving block. Coconut fibre. compressive strength 
Co-Authors Ani Listriyana