An essential guide to improving preliminary geotechnical analysis and design from limited data
Soil Properties and their Correlations, Second Edition provides a summary of commonly-used soil engineering properties and gives a wide range of correlations between the various properties, presented in the context of how they will be used in geotechnical design.
The book is divided into 11 chapters: Commonly-measured properties; Grading and plasticity; Density; Permeability, Consolidation and settlement; Shear strength; California bearing ratio; Shrinkage and swelling characteristics; Frost susceptibility; Susceptibility to combustion; and Soil-structure interfaces. In addition, there are two appendices: Soil classification systems; and Sampling methods.
This new, more comprehensive, edition provides material that would be of practical assistance to those faced with the problem of having to estimate soil behaviour from little or no laboratory test data.
Key features:
Soil properties explained in practical terms.
A large number of correlations between different soil properties.
A valuable aid for assessing design values of properties.
Clear statements on practical limitations and accuracy.
An invaluable source of reference for experienced professionals working on geotechnical design, itĀ will also give students and early-career engineers an in-depth appreciation of the appropriate use of each property and the pitfalls to avoid.
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The purpose of this chapter is to introduce the more commonly measured properties and give outline descriptions of how they are measured. This will allow engineers and geologists who are specifying test schedules, but who may have little or no experience of soils laboratory work, to have a clear understanding of the procedures used to carry out the tests they are scheduling, along with any problems that might occur. This, in turn, should help them to choose the most appropriate tests and to fully appreciate any problems or shortcomings related to the various test methods when appraising the results. It may also give an appreciation of the complexity of some tests to determine seemingly straightforward properties. For clarity, some details have been omitted; test descriptions are not intended to give definitive procedures or to be of sufficient detail to allow them to be used for actual testing. Such details should be obtained directly from the test standards being used, and will normally be the responsibility of the testing laboratory unless specific variations from the standards are required.
Deeper discussions of the nature and meaning of the various properties, and how they relate to other properties, are given at the beginning of subsequent chapters.
1.1 Moisture Content
Moisture content has a profound effect on many properties, and moisture content determinations are carried out as a routine part of many tests; for example, during the determination of shear strength, compressibility, plasticity and California Bearing Ratio (CBR). An especially common use is during density determinations, where it is used to calculate dry density from measurements of bulk density.
To obtain a moisture content value, a soil specimen is simply heated until dry. By weighing the specimen before and after drying, the weight of dry soil and the weight of water driven off can be obtained, and moisture content is obtained from:
(1.1)
expressed as a percentage.
Note that the definition relates moisture content to the weight of soil solids (dry soil) and not to the total weight of the wet sample. This means that for some soils, such as peat, where the weight of water may exceed the weight of soil solids, the moisture content may exceed 100%.
1.1.1Test Methods
1.1.1.1 Standard Oven Drying
The standard laboratory procedure is by oven drying a specimen of between 30 g (fineāgrained soils) and 3 kg (coarseāgrained soils) in an open tin or tray at 105ā110 Ā°C for 18ā24hours, or until a stable weight is obtained for at least 4 hours. This temperature is high enough to ensure that all free water is driven off but not so high as to break down the mineral particles within the soil. However, some variation in the method may be required for certain soils, especially those containing gypsum or anthracite (coal), which break down chemically at normal oven temperatures. For such soils, lower temperatures are used, typically 60 Ā°C.
1.1.1.2 Quick Methods
Whist the standard oven drying method is satisfactory for normal ground investigation testing, the length of time taken to dry out the specimen can be a problem for quality control of earthworks, where results are needed quickly. To overcome this problem, a number of quick methods have been developed, some of which are outlined below. In all cases, the quick methods should be calibrated against ovenādrying values for each soil type as not all methods work with all soils.
Microwave oven drying works well for most soil types provided the soil is microwaved for the appropriate times ā see, for example, Carter and Bentley (1986). Ceramic or glass dishes that do not absorb microwaves must be used, and some kind of dummy sample should be included that will continue to absorb microwaves after all the water has been driven off to avoid running the microwave with no load, which can damage it. Note that there is a risk that the dummy sample will get very hot.
The āSpeedyā moisture tester consists of a sealed cylindrical pressure flask with a pressure gauge mounted at one end. A fixed weight of soil is put into it along with calcium carbide powder, and the flask is shaken. Reaction of the powder with water in the soil produces acetylene gas, creating a pressure that is proportional to the amount of water in the specimen. The pressure gauge is calibrated directly in percentage moisture content. The tester is quick and simple to operate, requiring no specialised knowledge or equipment, and usually gives reasonably accurate results with granular soils but results can be erratic with clay soils. The method should be calibrated against ovenādrying tests for each soil type, and some soils may not give consistent results at all, precluding use of this method.
Field density meters, which measure the transmission or backscatter of radiation through the soil, may also be used to obtain moisture content values. These are an exception to the methods used by the other tests in that the soil is not dried out during testing. The operation of these devices is summarised later in this chapter in the āSoil densityā section.
Other methods include heating the specimen over a hot tray of sand placed on a gas burner, mixing the specimen with methylated spirit (a mixture of methyl and ethyl alcohol) then setting it alight. However, these are rarely used now except in remote field locations where only primitive equipment is available and they are not without risks to the tester if not carried out carefully, so are not described here.
1.2 Grading
Grading, otherwise known as particle size distribution or PSD, gives a measure of the sizes and distribution of sizes of the particles that make up a soil. Grading is arguably the most fundamental of all properties, especially for coarseāgrained soils with little or no clay particles.
Particle size distribution is used for a wide variety of assessments, especially where soil is to be used in remoulded form such as fills and embankments, and grading tests are specified in nearly all site investigation test schedules. Uses include: classifying fill materials for design purposes (Appendix A); assessment of permeability and drainage characteristics; and suitability for backfill to pipes. Grading characteristics are more important for coarseāgrained soils (sands and gravels); for fineāgrained soils (silts and clays), plasticity is more indicative of behaviour but, even for these soils, the proportion of coarser material present is important for assessing properties.
1.2.1Test Methods
There are two main methods of grading soil.
Sieve analysis: Coarseāgrained soils, with soil particles down to 63 Āµm (fine sand size, defined as ...
Table of contents
Cover
Title Page
Table of Contents
Preface
Acknowledgements
List of Symbols
List of Property Values and Correlations in the Tables and Figures
1 Commonly Measured Properties
2 Grading and Plasticity
3 Density
4 Permeability
5 Consolidation and Settlement
6 Shear Strength
7 California Bearing Ratio
8 Shrinkage and Swelling Characteristics
9 Frost Susceptibility
10 Susceptibility to Combustion
11 Soil-Structure Interfaces
Appendix A: Soil Classification Systems
Appendix B: Sampling Methods
Index
End User License Agreement
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