Uniqueness of the Normal Consolidation Line for Gold Tailings

IF 1.3 4区 工程技术 Q3 ENGINEERING, GEOLOGICAL Geotechnical Testing Journal Pub Date : 2023-10-06 DOI:10.1520/gtj20230325
Yashay Narainsamy, Schalk Willem Jacobsz, Ruan Andrew Murison, Nicolaas Johannes Vermeulen
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引用次数: 1

Abstract

Depending on the stress state, mine tailings are generally accepted to be susceptible to static liquefaction. A common method to assess the in situ stress state of tailings in relation to static liquefaction susceptibility involves the use of the state parameter. Because most tailings materials are normally consolidated (NC), this type of assessment requires knowledge about the normal consolidation line (NCL). It has been shown experimentally that the uniqueness of the NCL is vastly different for fine-grained and coarse-grained soils, with clays usually exhibiting a unique NCL and clean sands exhibiting an infinite number of parallel NCLs. Gold tailings, a sandy silt, fall between clays and clean sands, and there are limited experimental data regarding their compression behavior over a range of initial void ratios. This lack of data results in inconsistent interpretation of the uniqueness of the NCL for gold tailings in the industry. This can influence the results of designs and safety evaluations of tailings dams. In this study, a number of oedometer tests were conducted on gold tailings sourced from an active tailings dam in South Africa. Several specimens were prepared at various initial densities and were consolidated in small increments to a high effective stress. The oedometer tests were supplemented with triaxial compression tests, from which a unique critical state line was identified. Across the oedometer and triaxial tests, it was found that the behavior of the NC and overconsolidated samples was consistent with that typically observed for fine-grained soils. Therefore, for practical purposes, it appears that the gold tailings tested can be viewed in a framework with a unique NCL. No significant influence of particle crushing was noted.
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金尾矿法向固结线的独特性
根据应力状态的不同,人们普遍认为尾矿易发生静态液化。评估尾矿的原位应力状态与静态液化敏感性的一种常用方法是使用状态参数。由于大多数尾矿材料都是正常固结(NC),因此这种类型的评估需要了解正常固结线(NCL)。实验表明,细粒和粗粒土壤的NCL的独特性有很大不同,粘土通常表现出独特的NCL,而干净的沙子则表现出无限数量的平行NCL。金尾矿是一种砂质淤泥,介于粘土和净砂之间,在一定的初始空隙比范围内,其压缩行为的实验数据有限。这种数据的缺乏导致对行业中金尾矿NCL独特性的解释不一致。这将影响尾矿坝的设计和安全评价结果。在本研究中,对来自南非一个活性尾矿坝的金尾矿进行了多项测径试验。几个试样在不同的初始密度下制备,并以小增量固结到高有效应力。里程表试验补充了三轴压缩试验,从中确定了一个独特的临界状态线。通过测径仪和三轴试验,发现NC和超固结样品的行为与细粒土的典型观察结果一致。因此,就实际目的而言,似乎可以在具有独特NCL的框架中看待所测试的金尾矿。没有注意到颗粒破碎的显著影响。
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来源期刊
Geotechnical Testing Journal
Geotechnical Testing Journal 工程技术-地球科学综合
CiteScore
3.10
自引率
12.50%
发文量
53
审稿时长
3.6 months
期刊介绍: The purpose of the Geotechnical Testing Journal is (1) to provide a high-quality publication that informs the profession of new developments in soil and rock testing and related fields; (2) to provide a forum for the exchange of information, particularly that which leads to the development of new test procedures; and (3) to stimulate active participation of the profession in the work of ASTM International Committee D18 on Soil and Rock and related information. The editorial scope of this journal covers test methods for soil and rock, sampling, nomenclature, and practices relating to the determination of properties and behavior of soil and rock for engineering purposes, and for soil as a medium for plant growth.
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