巴基斯坦伊斯兰堡部分洛克哈特石灰岩的物理力学和岩石学见解

IF 1.6 Q3 ENGINEERING, GEOLOGICAL

Geotechnical Research Pub Date : 2023-01-06 DOI:10.1680/jgere.22.00007

Wazir Zada, Jabir Hussain, Masood Anwar, Wajeeh Ullah, Zeeshan Ali

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引用次数: 3

摘要

本文研究了从伊斯兰堡Rumli（RUM）和Shah Allah Ditta（SAD）剖面测量、采样和描述的古新世洛克哈特石灰岩的物理力学和岩相特征。岩石学分析表明，灰岩主要分为泥岩和杂砂岩微相，泥晶岩基质的主要存在有利于岩石的强度；矿脉、微裂缝和孔隙会对岩石的稳定性产生不利影响。根据无侧限抗压强度和PLT分析，结合最低孔隙率和生物碎屑的石灰石样品包含最高的无侧限抗拉强度和PLT值，反之亦然。物理力学分析表明，石灰石骨料在耐磨性、涂层和水泥混凝土中的使用在各自标准（ASTM、AASHTO、BS和NHA）的范围内。两个部分的石灰石可用于岩土工程目的，如破碎材料和骨料来源。采用简单的回归分析，并基于这些相关性；研究地层的石灰岩被指定为中等强度，建议用于道路或桥梁建设。

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Physico-mechanical and petrographic insights of Lockhart Limestone, sections of Islamabad, Pakistan

This paper investigates physico-mechanical and petrographic attributes of Paleocene Lockhart Limestone which is measured, sampled and described from Rumli (RUM) and Shah Allah Ditta (SAD) sections of Islamabad. Petrographic analysis delineates that the limestone is categorized mainly into mudstone and wackestone microfacies and dominant presence of the micrite matrix favors the strength of the rock, whereas; veins, microfractures and porosities adversely affect the stability of the rock. Based on the UCS and PLT analyses, limestone samples incorporating the lowest porosities partnered with bioclasts encompass the highest UCS and PLT values and vice versa. The physico-mechanical analyses reveal that the limestone aggregates are within limits of the respective standards (ASTM, AASHTO, BS and NHA) for utilization in wearing, coating, cement concrete. The limestone of both sections can be utilized for geotechnical purposes like crushed material and aggregate source. Simple regression analysis was employed and based on these correlations; the limestone of the studied formation is designated as moderately strong and recommended for road or bridge construction purposes.

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来源期刊

Geotechnical Research ENGINEERING, GEOLOGICAL-

CiteScore

4.50

自引率

26.30%

发文量

审稿时长

12 weeks

期刊介绍： Geotechnical Research covers the full scope of geotechnics and its related disciplines including: Soil, rock and fluid mechanics; geoenvironmental engineering; geothermal engineering; geotechnical design and construction issues; analytical and numerical methods; physical modelling; micromechanics; transportation geotechnics; engineering geology; environmental geotechnology; geochemistry; geohydrology and water management.