Compressive and Flexural Strength of Cement-treated Sand Reinforced with Palm Fiber

Journal article

Authors/Editors

PHERMPHORN BUATHONGSOMPOTE YOUWAI

Strategic Research Themes

Innovative Materials, Manufacturing and Construction (Strategic Research Themes)

Publication Details

Author list: Phermphorn Buathong;Sompote Youwai;Chutkamon Dachrueang

Publication year: 2020

Journal: Technical Education Journal King Mongkut’s University of Technology North Bangkok (1905-3819)

Volume number: 11

Issue number: 1

Start page: 78

End page: 90

Number of pages: 13

ISSN: 1905-3819

URL: http://journal.fte.kmutnb.ac.th/upload/2020-11-1/journalFTE-Fulltext-2020-11-1-9.pdf

Abstract

Cement is commonly used as a stabilizing agent to improve engineering properties of soils. However, the cement-treated soil exhibits more brittle behavior than non-treated soil. To overcome such a brittle nature of cement-treated soil, either natural or synthetic fiber have been included in cement-treated soil. In this research, the influence of palm fiber on the mechanical properties of cement-treated sand was investigated. A series of unconfined compression (UC) and flexural tests (FX) were conducted for different cement content (5 and 7%), fiber content (0.5, 1.0 and 2.0%) and fiber length (10, 20 and 40 mm). The results from the UC and FX tests indicated that the inclusion of fiber changed the brittle behaviour of cement-treated sand to a ductile behaviour and decreased the loss of post-peak strength. The compressive strength of cement-treated sand reinforced with fiber presented an initial increase followed by a decrease with increasing fiber content. The optimum fiber content was found to be 1.0%. The addition of fiber content slightly increased the flexural strength of cement-treated sand. However, the residual strength and toughness significantly increased with the increase in the fiber content. The equivalent flexural strength ratio (,150) indicating the performance of fiber after cracking showed increase as the fiber increases. It was observed that the change of cement content slightly influenced on the value of ,150. This indicated that the flexural performance of the cement-treated sand reinforced with fiber is controlled by the amount of fiber rather than the matrix strength.

Keywords

กำลังดัด, ความเหนียว, ทรายซีเมนต์, เส้นใยปาล์ม, อัตราส่วนกำลังดัดเทียบเท่า