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Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in construction of hydraulic barriers in soil by grouting. Here is what is discussed: 1. INTRODUCTION, 2. NEW EARTH DAMS, 3. NEW CONCRETE DAMS, 4. REMEDIAL GROUTING AT DAMS, 5. GROUTING IN CONNECTION WITH CUTOFF WALLS AT DAMS, 6. ENVIRONMENTAL APPLICATIONS, 7. DEWATERING FLOW CONTROL, 8. OTHER FACTORS CONSIDERED IN THE BASIS FOR DESIGN, 9. HYDRAULIC BARRIERS: FIELD PROCEDURES.
Introductory technical guidance for civil engineers, geotechnical engineers and construction managers interested in dewatering systems for groundwater control. Here is what is discussed: 1. PURPOSES OF DEWATERING SYSTEMS, 2. METHODS OF DEWATERING AND SOIL STABILIZATION, 3. FIELD INVESTIGATION FOR DEWATERING SYSTEMS, 4. DESIGN OF DEWATERING SYSTEM, 5. DESIGN OF WELL POINTS AND SIMILAR DEWATERING SYSTEMS, 6. MONITORING, 7. INSTALLATION OF DEWATERING WELLS AND WELL POINTS, 8. PUMPS FOR DEWATERING SYSTEMS, 9. ARTIFICIAL GROUND-WATER BARRIERS.
GSP 228 contains contains 189 peer-reviewed papers focusing on the science and technology of grouting that were presented at the Fourth International Conference on Grouting and Deep Mixing, held in New Orleans, Louisiana, February 15-18, 2012.
Introductory technical guidance for civil engineers, geotechnical engineers and construction managers interested in rock foundations. Here is what is discussed: 1. EXCAVATION, 2. EFFECTS OF DISCONTINUITIES ON EXCAVATION, 3. DEWATERING AND GROUND WATER CONTROL, 4. GROUND CONTROL, 5. PROTECTION OF SENSITIVE FOUNDATION MATERIALS, 6. EXCAVATION MAPPING AND MONITORING.
Unlike similar titles providing general information on ground improvement, Jet Grouting: Technology, Design and Control is entirely devoted to the role of jet grouting – its methods and equipment, as well as its applications. It discusses the possible effects of jet grouting on different soils and examines common drawbacks, failures and disadvantages, recent advances, critical reviews, and the range of applications, illustrated with relevant case studies. The book addresses several topics involving this popular worldwide practice including technology issues, the interpretation of the mechanisms taking place during the grouting, the quantitative prediction of their effects, the design of jet-grouted structures, and procedures for controlling jet grouting results. Discusses the design criteria for jet grouting projects and reviews existing design rules and codes of practice of different countries Provides practical methods for design calculations of the most important jet-grouted structures such as foundations, earth retaining walls, water cut-offs, bottom plugs, and provisional tunnel supports Includes the current standard control methods and most innovative techniques reported for the implementation of quality control and quality assurance procedures Jet Grouting: Technology, Design and Control analyzes the typical jet-grouted structures, such as foundations, earth retaining walls, water cut-offs, bottom plugs and tunnel supports, and serves as a practical manual for the correct use of jet grouting technology.
Ground improvement has been one of the most dynamic and rapidly evolving areas of geotechnical engineering and construction over the past 40 years. The need to develop sites with marginal soils has made ground improvement an increasingly important core component of geotechnical engineering curricula. Fundamentals of Ground Improvement Engineering addresses the most effective and latest cutting-edge techniques for ground improvement. Key ground improvement methods are introduced that provide readers with a thorough understanding of the theory, design principles, and construction approaches that underpin each method. Major topics are compaction, permeation grouting, vibratory methods, soil mixing, stabilization and solidification, cutoff walls, dewatering, consolidation, geosynthetics, jet grouting, ground freezing, compaction grouting, and earth retention. The book is ideal for undergraduate and graduate-level university students, as well as practitioners seeking fundamental background in these techniques. The numerous problems, with worked examples, photographs, schematics, charts and graphs make it an excellent reference and teaching tool.
When finding another location, redesigning a structure, or removing troublesome ground at a project site are not practical options, prevailing ground conditions must be addressed. Improving the ground—modifying its existing physical properties to enable effective, economic, and safe construction—to achieve appropriate engineering performance is an increasingly successful approach. This third edition of Ground Improvement provides a comprehensive overview of the major ground improvement techniques in use worldwide today. Written by recognized experts who bring a wealth of knowledge and experience to bear on their contributions, the chapters are fully updated with recent developments including advancements in equipment and methods since the last edition. The text provides an overview of the processes and the key geotechnical and design considerations as well as equipment needed for successful execution. The methods described are well illustrated with relevant case histories and include the following approaches: Densification using deep vibro techniques or dynamic compaction Consolidation employing deep fabricated drains and associated methods Injection techniques, such as permeation and jet grouting, soil fracture grouting, and compaction grouting New in-situ soil mixing processes, including trench-mixing TRD and panel-mixing CSM approaches The introductory chapter touches on the historical development, health and safety, greenhouse gas emissions, and two less common techniques: blasting and the only reversible process, ground freezing. This practical and established guide provides readers with a solid basis for understanding and further study of the most widely used processes for ground improvement. It is particularly relevant for civil and geotechnical engineers as well as contractors involved in piling and ground engineering of any kind. It would also be useful for advanced graduate and postgraduate civil engineering and geotechnical students.
Provides exhaustive coverage of cement grouting in rock foundations, outlining all types of cement grout, comparing their suitabilities and describing various ways cement grouting is used in engineering construction. Written and arranged in an easy-to-read manner, the book is arranged as a reference manual with numerous cross-references. Step-by-step explanations on grouting techniques are given in considerable detail and written with both the novice and experienced practitioner in mind. Also covers advanced technology, including the current state of computer use in grouting operations; the latest grouting materials such as microfine; and the use of superplasticizers in cement grout. Chapters are arranged from elementary to advanced technology.
The Deep Mixing Method (DMM), a deep in-situ soil stabilization technique using cement and/or lime as a stabilizing agent, was developed in Japan and in the Nordic countries independently in the 1970s. Numerous research efforts have been made in these areas investigating properties of treated soil, behavior of DMM improved ground under static and d