Guidelines for Open Pit Slope Design in Weak Rocks
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Guidelines for Open Pit Slope Design in Weak Rocks

Derek Martin,Peter Stacey

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eBook - ePub

Guidelines for Open Pit Slope Design in Weak Rocks

Derek Martin,Peter Stacey

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Weak rocks encountered in open pit mines cover a wide variety of materials, with properties ranging between soil and rock. As such, they can provide a significant challenge for the slope designer. For these materials, the mass strength can be the primary control in the design of the pit slopes, although structures can also play an important role. Because of the typically weak nature of the materials, groundwater and surface water can also have a controlling influence on stability.

Guidelines for Open Pit Slope Design in Weak Rocks is a companion to Guidelines for Open Pit Slope Design, which was published in 2009 and dealt primarily with strong rocks. Both books were commissioned under the Large Open Pit (LOP) project, which is sponsored by major mining companies. These books provide summaries of the current state of practice for the design, implementation and assessment of slopes in open pits, with a view to meeting the requirements of safety, as well as the recovery of anticipated ore reserves.

This book, which follows the general cycle of the slope design process for open pits, contains 12 chapters. These chapters were compiled and written by industry experts and contain a large number of case histories. The initial chapters address field data collection, the critical aspects of determining the strength of weak rocks, the role of groundwater in weak rock slope stability and slope design considerations, which can differ somewhat from those applied to strong rock. The subsequent chapters address the principal weak rock types that are encountered in open pit mines, including cemented colluvial sediments, weak sedimentary mudstone rocks, soft coals and chalk, weak limestone, saprolite, soft iron ores and other leached rocks, and hydrothermally altered rocks. A final chapter deals with design implementation aspects, including mine planning, monitoring, surface water control and closure of weak rock slopes.

As with the other books in this series, Guidelines for Open Pit Slope Design in Weak Rocks provides guidance to practitioners involved in the design and implementation of open pit slopes, particularly geotechnical engineers, mining engineers, geologists and other personnel working at operating mines.

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Información

Año
2018
ISBN
9781486303496
1
INTRODUCTION
Peter Stacey and Derek Martin
1.1 Background
The publication Guidelines for Open Pit Slope Design was produced in 2009 as an outcome of the Large Open Pit (LOP) project managed by CSIRO and sponsored by major mining companies. The main focus of the LOP is international research and technology transfer focusing on the stability of rock slopes in open pit mines. The preface to the 2009 Guidelines state:
‘The purpose of the Guidelines was to link innovative mining geomechanics research with best practice. It is not intended for it to be an instruction manual for geotechnical engineering in open pit mines. Rather, it aspires to be an up-to-date compendium of knowledge that creates a road map which, from the options that are available, highlights what is needed to satisfy best practice with respect to pit slope investigation, design, implementation, and performance monitoring. The fundamental objective is to provide the slope design practitioner with the tools to help meet the mine owner’s requirements that the slopes should be stable, but if they do fail the predicted returns on the investment are achieved without loss of life, injury, equipment damage, or sustained losses of production.’
It was recognised by the LOP Sponsors’ Management Committee that the Guidelines were focused primarily on open pit slopes in strong rocks as defined by the International Society for Rock Mechanics (ISRM) strength classification (i.e. a grade of ≥R2). As such, it did not fully consider the challenges that are often associated with open pits in ‘weak rocks’ (R0 to R2). Some of the challenges faced by the mining geotechnical practitioner are:
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insufficient experience in ‘similar’ geotechnical environments
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representative sampling and testing of materials which conform to the hybrid engineering behaviour associated with both soil and rock
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identifying commercial laboratories with expertise in testing these materials
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derivation of a representative shear strength
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understanding the sensitivity of shear strength to moisture content, stress history and stress change
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poorly defined and/or researched material constitutive behaviour for large scale unloading
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the role of negative (suction) and positive (excess) pore pressures on shear strength for large slopes in weak rocks
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complex, time dependent behaviour
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managing highly anisotropic geotechnical behaviour
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understanding the role of, and identifying, remnant or paleo-structures on stability.
With the increasing efficiency of mining equipment, the possibility of mining significant thicknesses of un-mineralised overburden, particularly over large low-grade orebodies, is increasing. As a result, pit walls several hundred metres deep have been developed in weak rock and an increasing number are planned. In these pits, failures can have a major impact from both the safety and economy perspectives, as illustrated in Fig. 1.1.
Weak rocks typically require flatter excavated slope angles than are adopted in strong rocks, and these flatter slopes will have significant economic impacts. It is therefore critical that the presence of weak rocks is recognised early in the project development process, because the pit slope design process will not be the same as for strong rocks, and may require a different site characterisation and design approach. This book has therefore been prepared as an addendum to the original Guidelines with the specific purpose of providing a framework for characterising, analysing and designing pit slopes in weak rocks. For the sake of completeness, certain sections of the 2009 Guidelines have been repeated in this addendum, in an attempt to provide a stand-alone text for the practitioner, who may be working in a remote mine.
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Figure 1.1 Example of a pit slope failure in the ‘weak rock’ overburden (photo courtesy of Barrick).
1.2 General descriptions and definitions for weak rocks
The term ‘weak rocks’ in the International Society for Rock Mechanics (ISRM) classification comprises rock with intact strengths ranging from extremely weak (R0) to weak (R2), with equivalent Uniaxial Compressive Strengths (UCS) ranging from 250 kPa to 25 MPa, respectively (Fig. 1.2). The R0 class overlaps with soils that display very stiff (S5) to hard (S6) characteristics. Consequently, slope failures in pit walls excavated in weak rocks can display behaviours ranging from those associated with stiff soils to those failures partially controlled by discrete geological structures. For this Large Open Pit (LOP) project, the term ‘weak rocks’ is used to recognise both the weak rock strength and soil-like properties as defined in Fig. 1.2.
The five weak rock categories that will be dealt with in these Guidelines (which represent the most common encountered in LOP sponsors’ operations) are:
1. Cemented sediments
(a) bedded cemented sediments
(b) cemented gravels
2. Weak sedimentary rocks
(a) mudrocks and lake bed sediments
(b) chalk and limestones
(c) coals
3. Saprolites (weathered rocks and residual soils)
4. Soft iron ores and leached rocks (high void ratio leached rocks)
(a) weathered and leached iron ores and associated altered country rocks
(b) leached quartzites
5. Hydrothermally altered rocks.
These five weak rock categories, illustrated in Fig. 1.3, can be divided into two broad geographical groupings, namely:
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those formed of material that has been transported from elsewhere and deposited either underwater or sub-aerially. Cemented sediments (e.g. alluvium or colluvium) and weak sedimentary rocks fall into this group.
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those that have been derived from the in-situ alteration of a parent rock, including saprolites, leached rocks (e.g. soft iron ores) and hydrothermally altered rocks.
Within the five weak rock categories, the LOP sponsors’ case histories indicated that many of the failures occurred through the rock mass without any discrete geological structure playing a dominating role. However, when geological features were present, such as contacts, foliation, bedding and structure, these features had influence on the mode of failure, often as a secondary process. Within the LOP case histories, regardless of the mode of failure, the dominating failure kinematics were either circular or planar failure, with wedge and toppling failures playing a minor role, as shown in Fig. 1.4. The dominating modes of failure highlight an important difference between weak rocks and strong rocks. In strong rocks, geological structure is almost always ubiquitous and nearly all major failures are controlled by structure. In weak rocks, ubiquitous structures may be absent, and hence, the rock mass can play a dominating role. However, when geological structure is present, it will be weaker than the rock mass and, as with strong rocks, may control the mode of failure. Detecting random geological structure in weak rocks challenges the site investigation strategy for these materials.
In a mining context, weak rocks often form the near-surface materials that may be encountered when developing an open pit. They can range in thickness up to several hundred metres and can hence form a significant proportion of the pit slope. It is notable that many weak rocks (e.g. cemented sediments or residual soils) are relatively young in origin, most being of Tertiary age or younger, as shown in Fig. 1.5, although the protolith may be considerably older, as in the case of soft iron ores and some saprolites. In addition, most weak rocks have existed in relatively stable tectonic environments in which erosional forces have been limited.
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Figure 1.2 Range of uniaxial compressive strengths typically associated with ‘weak rock’ geology described in this report (sources: ISRM Suggested Methods; Brown 1981).
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Figure 1.3 The five geology categories classed as ‘weak rocks’ where LOP sponsors’ operations experienced slope failures.
At this time, it is not possible to provide definitive classification systems for the weak rock categories because the geological, hydrogeological and climatic conditions encountered at the various mine sites vary significantly. To supplement the general descriptions of the weak rock categories, case histories are used to illustrate the current state of local design practice when these materials are encountered in open pits. The general characteristics of each of the of weak rock types are briefly described in the following sections. The respective chapters provide details, together with case histories.
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