Strength of Cement Treated Base Courses in the Flexible Pavement Design for Pathlaiya- Nijgadh Section of East-West Highway of Nepal

Himalayan Journal of Applied Science and Engineering Pub Date : 2023-07-23 DOI:10.3126/hijase.v4i1.56870

N. Kc, R. Aryal, B. R. Joshi, P. B. Shahi

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Abstract

Rutting and fatigue are the most common pavement distresses that are caused due to overloading, subgrade strength, and poor construction quality. The strength of the pavement layer can be improved by the construction of cement-treated layers. This study suggested that the cement-treated base is the effective modification technique for a granular base course by evaluating the unconfined compressive strength, and modulus of rupture. The unconfined compressive strength revealed that a cement-treated base is an effective treatment for the improvement of strength. Similarly, flexural strength indicated that a cement-treated base is an effective method to reduce the fatigue damage of the base course, and 5% cement content is sufficient to resist crack formation on the base course. 5.34% cement content in CTB developed a stiff mix with a stronger ability towards applied load dispersion that can resists deformation. In the meantime, unconfined compressive strength, modulus of rupture, and modulus of elasticity obtained at 5.34% cement content on a cement-treated base satisfied the minimum requirement as set by the Department of Roads, Government of Nepal.

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尼泊尔东西高速公路Pathlaiya- Nijgadh段柔性路面设计中水泥处理基层的强度

车辙和疲劳是由于超载、路基强度和施工质量差而引起的最常见的路面病害。水泥处理层的施工可以提高路面层的强度。通过对无侧限抗压强度和断裂模量的评价，表明水泥处理基层是对颗粒基层有效的改性技术。无侧限抗压强度表明水泥处理是一种有效的提高强度的处理方法。同样，抗弯强度表明水泥处理基层是减少基层疲劳损伤的有效方法，5%的水泥含量足以抵抗基层裂缝的形成。水泥掺量为5.34%的CTB形成了较硬的混合料，具有较强的抗载荷分散能力和抗变形能力。同时，水泥掺量为5.34%时得到的无侧限抗压强度、断裂模量和弹性模量均满足尼泊尔政府道路部规定的最低要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Himalayan Journal of Applied Science and Engineering

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