Geotechnical EARTH

Ming Xiao - 410 pages - Language: ‎English - Publisher: Wiley-Blackwell; (April, 2015).

This accessible, clear, concise and contemporary text in geotechnical engineering design covers the major design topics, making it the one stop shop for students. Packed with self-test problems and projects, and with a detailed online solution manual, it presents the state of the art in engineering practice, including soil nail walls, liquefaction, earthquake foundation design and erosion controls.

Geotechnical Engineering Design explains fundamental design principles and approaches in geotechnical engineering, offering an introduction to engineering geology, subsurface explorations, shallow and deep foundations, slope stability analyses and remediation, filters and drains, earth retaining structures, geosynthetics, and basic seismic evaluations of slope stability, lateral earth pressures, and liquefaction. Readers are expected to have taken a soil mechanics course and already understand the principles of engineering properties of soils. The he book applies these principles and focuses on the design methodologies in geotechnical engineering. Individual chapters present particular design approaches, followed by a detailed sample problem demonstrating it. The chapters begin by explaining why that design topic is important in engineering practice. Hundreds of illustrations on field applications and design approaches are provided throughout the text. Wherever designs are presented, sample problems and solutions are included and homework problems at the end of each chapter test students’ basic understanding of the concepts and design approaches as well as challenging them to solve real-world design issues. 

A unique aspect of the book is the inclusion of Eurocode 7: Geotechnical design, the European Standard for the design of geotechnical structures. The design approaches of many topics in this book use both limit state design (in Europe) and allowable stress design (in the USA) so two sets of solutions in many sample problems are provided to show both design methodologies. Both British Standards and America Society for Testing and Materials (ASTM) standards are referred to. This allows an international audience to understand the commonalities and differences in geotechnical engineering designs worldwide.

Yung Ming Cheng, Chi Wai Law, Leilei Liu - 713 pages - Language: ‎English - Publisher: CRC Press; 2nd Edition (May, 2024).

Analysis, Design and Construction of Foundations covers the key concepts in the analysis and design of foundation systems, balancing theory with engineering practice.

The book examines in depth the methods used for the analysis, design and construction of shallow foundations, deep foundations, excavation and lateral support systems, slope stability and stabilization and ground monitoring for proper site management. Some new and innovative foundation construction methods are also introduced. It is illustrated with case studies of failures and defects from actual construction projects.

This second edition is extensively revised and developed to include a new chapter on numerical methods in geotechnical engineering, as well as a large number of new construction drawings, project photos and construction method statements from existing projects to give the book a stronger professional application and connection to engineering practice. It also covers some new advanced theoretical concepts not covered in other texts, making it useful in both the theoretical and practical aspects. It is ideal for senior undergraduates and graduate students, academics and consulting geotechnical engineers.

Peter I. Kattan - 290 pages - Language: ‎English - Publisher: PetraBooks; (December, 2013).

This book is written for beginners and students who wish to learn MATLAB. One of the objectives of writing this book is to introduce MATLAB to students in high schools. The material presented is very easy and simple to understand -- written in a gentle manner. The topics covered in the book include arithmetic operations, variables, mathematical functions, complex numbers, vectors, matrices, programming, graphs, solving equations, and an introduction to calculus. In addition, the MATLAB Symbolic Math Toolbox is emphasized in this book. There are also over 230 exercises at the ends of chapters for students to practice. Detailed solutions to all the exercises are provided in the second half of the book. The author has been using MATLAB for the past fifteen years and is the author of the best selling book "MATLAB Guide to Finite Elements". This description applies to the Revised Edition.

Bujang B.K. Huat, Arun Prasad, Sina Kazemian, Vivi Anggraini - 316 pages - Language: ‎English - Publisher: CRC Press; (November, 2019).

This book provides a review of problems during design and construction on problematic soils. Design methods, site investigation, construction and analysis of the various improvement methods available are explained and discussed. Various regions may have different soils with geotechnical problems that differ from those faced in other regions. For example, in Southeast Asia, the common geotechnical problems are those associated with construction on soft clays and organic soils, while in the arid region of the Middle East, problems are generally associated with the desert soils. In the US, the problems are associated with organic soils, expansive and collapsing soils, and shale. Laterite and lateritic soils are especially problematic in Mexico. Similarly, in Europe, for example, the geotechnical problems are associated with loess (France), and organic soil (Germany). 

Tharwat M. Baban - 743 pages - Language:‎ English - Publisher: ‎Wiley-Blackwell; (April, 2016).

Shallow Foundations: Discussions and Problem Solving is written for civil engineers and all civil engineering students taking courses in soil mechanics and geotechnical engineering. It covers the analysis, design and application of shallow foundations, with a primary focus on the interface between the structural elements and underlying soil. 

Roger Frank, Fahd Cuira, Sébastien Burlon - 214 pages - Language: English - Publisher: ‎CRC Press; (August, 2021).

Design of Shallow and Deep Foundations introduces the concept of limit state calculations, before focusing on shallow and deep foundations. The limit state combinations of actions are examined, and practical calculation models of the bearing capacity and of the settlement are presented, particularly from the results of Ménard pressuremeter tests and cone penetration tests. Attention is also given to the use of numerical methods, which has been developed over the past twenty years. It provides an overview of various elements of ground-structure interaction that are pertinent for a refined design of both shallow and deep foundations, such as allowable displacements of structures, and ground-structure couplings.

This guide will be useful to practising engineers and experts in design offices, contracting companies and administrations, as well as students and researchers in civil engineering. Though its focus is generally on the French practice, it is more widely applicable to design based on, or generally in line with, Eurocode 7, with references to BS ENs.

Braja M. Das - 401 pages - Language: English - Publisher: ‎CRC Press; 3rd Edition (February, 2017).

Following the popularity of the previous edition, Shallow Foundations: Bearing Capacity and Settlement, Third Edition, covers all the latest developments and approaches to shallow foundation engineering. In response to the high demand, it provides updated data and revised theories on the ultimate and allowable bearing capacities of shallow foundations. Additionally, it features the most recent developments regarding eccentric and inclined loading, the use of stone columns, settlement computations, and more. Example cases have been provided throughout each chapter to illustrate the theories presented.

Graham Barnes - 584 pages - Language: English - Publisher: ‎Bloomsbury Academic; 4th edition (June, 2016).

Now in its fourth edition, this popular textbook provides students with a clear understanding of the nature of soil and its behaviour, offering an insight into the application of principles to engineering solutions. It clearly relates theory to practice using a wide-range of case studies, and dozens of worked examples to show students how to tackle specific problems. A comprehensive companion website offers worked solutions to the exercises in the book, video interviews with practising engineers and a lecturer testbank.With its comprehensive coverage and accessible writing style, this book is ideal for students of all levels on courses in geotechnical engineering, civil engineering, highway engineering, environmental engineering and environmental management, and is also a handy guide for practitioners.

New to this Edition: - Brand-new case studies from around the world, demonstrating real-life situations and solutions - Over 100 worked examples, giving an insight into how engineers tackle specific problems - A companion website providing an integrated series of video interviews with practising engineers - An extensive online testbank of questions for lecturers to use alongside the book.

Braja M. Das, Khaled Sobhan - 819 pages - Publisher: CL Engineering; 9th edition (January, 2017) - Language: English.

Provide a valuable overview of soil properties and mechanics together with coverage of field practices and basic engineering procedures with Das and Sobhan, Principles of Geotechnical Engineering 9th Edition. This market-leading introduction to geotechnical engineering is ideal for the foundational course taken by most civil engineering students. This book provides the important background knowledge students need to support study in later design-oriented courses and in professional practice. The authors ensure a practical and application-oriented approach to the subject by incorporating a wealth of comprehensive discussions and detailed explanations. Find more figures and worked-out problems than any other book for the course to help ensure student understanding.

B.C. Punmia, Er. Ashok Kumar Jain, Arun Kumar Jain - 940 pages - Language: ‎English - Publisher: Laxmi; 17th Edition (December, 2005).

This book first published in 1970 and running into its Sixteenth Edition, has been thoroughly revised, updated and enlarged. The book, divided into Eight Parts, contains Thirty Four Chapters.

This book is intended to present currently accepted theories, design principles and practices of soil mechanics and foundation engineering. The book provides sufficient material ranging from simple to very complex for undergraduate and postgraduate courses. At the end of each chapter, latest problems from various central competitive examinations has been solved to enable the student to test his reading at different stages of his studies.

Kamal I. M. Al-Malah - 592 pages - Language: ‎English - Publisher: ‎Wiley; (October, 2023).

Machine and Deep Learning Using MATLAB introduces early career professionals to the power of MATLAB to explore machine and deep learning applications by explaining the relevant MATLAB tool or app and how it is used for a given method or a collection of methods. Its properties, in terms of input and output arguments, are explained, the limitations or applicability is indicated via an accompanied text or a table, and a complete running example is shown with all needed MATLAB command prompt code. The text also presents the results, in the form of figures or tables, in parallel with the given MATLAB code, and the MATLAB written code can be later used as a template for trying to solve new cases or datasets. Throughout, the text features worked examples in each chapter for self-study with an accompanying website providing solutions and coding samples. Highlighted notes draw the attention of the user to critical points or issues.

Readers will also find information on: Numeric data acquisition and analysis in the form of applying computational algorithms to predict the numeric data patterns (clustering or unsupervised learning) + Relationships between predictors and response variable (supervised), categorically sub-divided into classification (discrete response) and regression (continuous response) + Image acquisition and analysis in the form of applying one of neural networks, and estimating net accuracy, net loss, and/or RMSE for the successive training, validation, and testing steps + Retraining and creation for image labeling, object identification, regression classification, and text recognition. Machine and Deep Learning Using MATLAB is a useful and highly comprehensive resource on the subject for professionals, advanced students, and researchers who have some familiarity with MATLAB and are situated in engineering and scientific fields, who wish to gain mastery over the software and its numerous applications.