Design of Experiment (DOE) of Compessive Strength Test For Block Paving Prototype Using Thermoplastic Waste

UNIVERSITAS BINA DARMA, UNIVERSITAS BINA DARMA (2022) Design of Experiment (DOE) of Compessive Strength Test For Block Paving Prototype Using Thermoplastic Waste. Design of Experiment (DOE) of Compessive Strength Test For Block Paving Prototype Using Thermoplastic Waste.

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9. 32EA_Janari_UII [DESIGN OF EXPERIMENT (DOE) OF COMPESSIVE STRENGTH TEST FOR BLOCK PAVING PROTOTYPE USING THERMOPLASTIC WASTE].pdf
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Abstract

Waste is considered as consequences on humans activities, infrastructure develop�ments, the raise of population and life style. Those are the determination factor for waste volume enlargement. Based on data of environmental status in 2012 that released by Environmental Board Yogyakarta province, industrial waste B3 in Yo�gyakarta province are accumulated as 200 ton/year and 15% of them in industrial plastic waste. Recycling process is important to be performed to reduce the wastes volume. Recycling is presumed as a process to turn waste into new product. One of the plastic wastes utilization is by using it as one of the mixture materials of block paving. The quality of block paving is determined by its compressive strength. Factors that influence the quality of its compressive strength are; type of cement, drying period, composition of water, cement, coarse aggregate, fine aggregate and plastic waste. Based on data analysis, several conclusions can be resumed. The Normality test resulted p=0,2515 (p > 0, 05), it can be concluded as normal. Ho�mogeneity test resulted p of 1,365 on significance level of 0,05, it can be concluded as homogenous. Best formulation for combination of optimum factor level, which is based on analysis of signal to noise ratio (SNR) and effect value on each factor isA2,B2,C1,D2,E1,F2,G1. The composition is explained as the mixture of Portland cement with 35 days drying duration, 0,5 litres water, 0,6 kg cement, 1,6 kg coarse aggregate, 1,1 kg fine aggregate and 300 gr plastic waste.

Item Type: Article
Subjects: H Social Sciences > H Social Sciences (General)
Divisions: Faculty of Engineering, Science and Mathematics > School of Civil Engineering and the Environment
Depositing User: Mr Edi Surya Negara
Date Deposited: 05 Jul 2022 05:56
Last Modified: 05 Jul 2022 05:56
URI: http://eprints.binadarma.ac.id/id/eprint/17244

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