Affiliation:
1. Universiti Malaysia Sarawak (UNIMAS)
Abstract
The strength comparison of fibre reinforced peat and clayey-silt for the compacted sub-grade by using the fibre reinforcement technique from the scrap tire is presented. The scrap tires are extracted and shredded into a standard size, i.e., rubber-chip, rubber-crumb, rubber-powder and fibre-polyester for the consistency and homogeneity of the design mix. In this study, two types of fibres are used, which are fibre polyester and rubber crumb. The fibres at various designated percentage are mixed with the clayey-silt and peat with the addition of a minimum 5% cement content as a binder to achieve the targeted strength. The specimens were prepared by compacting at the optimum moisture content and maximum dry density. The compacted treated specimens were prepared and air cured for 7 and 28 days in room temperature (23C to 26C). In evaluating the strength and durability effect of fibres between the untreated (no fibres) and treated specimens (with fibres and cement), the Unconfined Compression Strength (UCS) and California Bearing Ratio (CBR) tests are executed. The findings indicate that the shear strength increases with the curing period. The addition of fibre-polyester and shredded rubber-crumb exhibits an increment in the contact area and bonding between the fibre reinforced materials and soil particles, which then significantly improved the compressive strength of the design mix.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference25 articles.
1. Sa'don, N.M, Abdul Karim, A.R. Taib, S.N.L, and Yusof, M. (2018). Strength properties of reinforced peat using fiber-polyester and shredded rubber-crumb as reinforcement material. International Journal of Engineering & Technology. 7 (3.18) pp.26-30.
2. Saberian, M. and Rahgozar, M.A. (2016). Geotechnical properties of peat soil stabilized with shredded waste tyre chips in combination with gypsum, lime or cement. Mires and Peat. Vol.18 (16); pp.1-16.
3. Yixian W., Panpan, G., Shengbiao, S., Haiping, Y., and Binxiang, Y. (2016). Study of strength influence mechanism of fiber reinforced expansive soil using jute. Geotechnical Geology Engineering, 34, pp.1079-1088.
4. Daud, N.N., Yusof, Z. M. and Muhammed, A.S. (2015). Ground improvement of problematic soft soil using shredded waste tyre. 6th International Conference on Case History in Geotechnical Engineering. pp.1-5.
5. Sariosseiri, F. and Muhunthan, B. (2009). Effect of cement treatment on geotechnical properties of some Washington State soil. Engineering Geology. 104, pp.119-125.