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This publication provides introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in soil stabilization with portland cement. Here is what is discussed: 1. STABILIZATION WITH PORTLAND CEMENT, 2. STABILIZATION WITH LIME, 3. STABILIZATION WITH LIME-FLY ASH (LF) AND LIME-CEMENT-FLY ASH (LCF, 4. STABILIZATION WITH BITUMEN, 5. STABILIZATION WITH LIME-CEMENT AND LIME- BITUMEN, 6. LIME TREATMENT OF EXPANSIVE SOILS.
Introductory technical guidance for civil and geotechnical engineers interested in soil stabilization with portland cement. Here is what is discussed: 1. STABILIZATION WITH PORTLAND CEMENT 2. STABILIZATION WITH LIME 3. STABILIZATION WITH LIME-FLY ASH (LF) AND LIME-CEMENT-FLY ASH (LCF) 4. STABILIZATION WITH BITUMEN 5. STABILIZATION WITH LIME-CEMENT AND LIME- BITUMEN 6. LIME TREATMENT OF EXPANSIVE SOILS.
This publication provides introductory technical guidance for civil engineers and other professional engineers and construction managers interested in stabilization of soil for pavements. Here is what is discussed: 1. INTRODUCTION, 1.1 PUPOSE, 1.2 SCOPE, 1.3 DEFINITIONS, 1.4 USES OF STABILIZATION, 2. SELECTION OF ADDITIVE, 2.1 SOIL TYPES AND ADDITIVES, 2.2 USE OF STABILIZED SOILS IN FROST AREAS, 2.3 THICKNESS REDUCTION FOR BASE AND SUBBASE COURSES, 3. DETERMINATION OF STABILIZER CONTENT, 3.1 STABILIZATION WITH PORTLAND CEMENT, 3.2 STABILIZATION WITH LIME, 3.3 STABILIZATION WITH LIME-FLY ASH (LF) AND LIME-CEMENT-FLY ASH (LCF), 3.4 STABILIZATION WITH BITUMEN, 3.5 STABILIZATION WITH LIME-CEMENT AND LIME-BITUMEN
This report surveys the available information on mixtures of soil and cement. Included are data on (1) properties of cement-treated soil, (2) factors influencing properties of cement-treated soil, (3) uses of cement-treated soil and bituminous surfacing requirements, (4) preliminary surveying, sampling, testing and mix design for cement- treated soil construction, (5) structural design of soil- cement bases, (6) cement-treated soil construction, (7) engineering control of construction, and (8) field performance of soil-cement base courses.
Introductory technical guidance for civil engineers interested in design of stabilized soil for pavements. Here is what is discussed: 1. INTRODUCTION 2. SELECTION OF ADDITIVE 3. DETERMINATION OF STABILIZER CONTENT.
This publication provides introductory technical guidance for civil engineers and other professional engineers and construction managers interested in soil stabilization for pavements. Here is what is discussed: 1. INTRODUCTION, 1.1 PUPOSE, 1.2 SCOPE, 1.3 DEFINITIONS, 1.4 USES OF STABILIZATION, 2. SELECTION OF ADDITIVE, 2.1 SOIL TYPES AND ADDITIVES, 2.2 USE OF STABILIZED SOILS IN FROST AREAS, 2.3 THICKNESS REDUCTION FOR BASE AND SUBBASE COURSES, 3. DETERMINATION OF STABILIZER CONTENT, 3.1 STABILIZATION WITH PORTLAND CEMENT, 3.2 STABILIZATION WITH LIME, 3.3 STABILIZATION WITH LIME-FLY ASH (LF) AND LIME-CEMENT-FLY ASH (LCF), 3.4 STABILIZATION WITH BITUMEN, 3.5 STABILIZATION WITH LIME-CEMENT AND LIME-BITUMEN.
Introductory technical guidance for construction managers interested in construction of pavements for streets and highways. Here is what is discussed: 1. INTRODUCTION, 2. SELECTION OF ADDITIVE, 3. DETERMINATION OF STABILIZER CONTENT.
Soil stabilization is the process whereby soils and related materials are made stronger and more durable by mixing with a stabilizing agent. These techniques are used for road construction in most parts of the world, although the circumstances and reasons for resorting to stabilization vary considerably.