Where to Find Fundamentals of Soil Behavior Mitchell Pdf Free Download39 Online: Tips and Tricks
Fundamentals Of Soil Behavior Mitchell Pdf Free Download39
Soil is one of the most common and important materials in engineering and construction. It supports buildings, roads, bridges, dams, and other structures. It also affects groundwater, landslides, erosion, and environmental quality. Therefore, understanding how soil behaves under different conditions is essential for engineers, geologists, architects, and planners.
Fundamentals Of Soil Behavior Mitchell Pdf Free Download39
In this article, we will introduce you to a classic book on soil behavior: Fundamentals of Soil Behavior by James K. Mitchell and Kenichi Soga. We will explain what soil behavior is, why it is important to study it, and who are the authors of the book. We will also describe the main features of the book, such as its contents, concepts, examples, advantages, and limitations. Finally, we will show you how to download the book for free from the internet.
What is soil behavior?
Soil behavior is the study of how soil responds to external forces and changes in its physical and chemical properties. Soil behavior depends on many factors, such as soil type, composition, structure, moisture content, temperature, stress history, loading rate, drainage conditions, and environmental factors.
Soil behavior can be classified into two main categories: mechanical behavior and hydraulic behavior. Mechanical behavior refers to how soil deforms, fails, or consolidates under applied loads or stresses. Hydraulic behavior refers to how water flows through soil pores or cracks under hydraulic gradients or pressures.
Why is it important to study soil behavior?
Studying soil behavior is important for several reasons. First, it helps us to design safe and efficient foundations, slopes, retaining walls, tunnels, embankments, landfills, and other geotechnical structures. By knowing how soil behaves under different loading scenarios and environmental conditions, we can select the appropriate soil parameters, methods of analysis, and design criteria.
Second, it helps us to prevent or mitigate geotechnical hazards and problems, such as settlement, bearing capacity failure, slope instability, liquefaction, erosion, seepage, contamination, and subsidence. By understanding the causes and mechanisms of these phenomena, we can adopt suitable measures to avoid or reduce their occurrence or impact.
Third, it helps us to improve the performance and durability of soil materials and structures. By applying various techniques of soil improvement or stabilization, such as compaction, drainage, reinforcement, grouting, mixing, or heating, we can enhance the strength, stiffness, permeability, or resistance of soil.
Who is Mitchell and what is his contribution to soil mechanics?
Mitchell is James K. Mitchell (1930-2020), a renowned American geotechnical engineer and professor emeritus at Virginia Tech. He was a pioneer and leader in the field of soil mechanics and geoenvironmental engineering. He made significant contributions to the understanding of soil behavior at different scales: from microstructure to macrostructure; from laboratory testing to field observation; from theoretical modeling to practical application.
Mitchell authored or co-authored over 400 publications on various topics related to soil mechanics, such as clay mineralogy; physicochemical phenomena; stress-strain-strength relationships; consolidation; unsaturated soils; expansive soils; frozen soils; soil dynamics; soil liquefaction; soil improvement; soil erosion; and soil contamination. He also wrote several textbooks and monographs, including Fundamentals of Soil Behavior, which is widely regarded as a masterpiece and a reference in the field.
Main features of the book
Contents and structure
Fundamentals of Soil Behavior is a comprehensive and in-depth book on soil behavior. It covers both the basic and advanced aspects of the subject, from the nature and origin of soils to the latest developments and applications. The book consists of 15 chapters, organized into four parts:
Part I: Introduction and Background (Chapters 1-3). This part provides an overview of the scope and objectives of the book, the historical development of soil mechanics, and the classification and identification of soils.
Part II: Soil Structure and Fabric (Chapters 4-7). This part discusses the microstructure and macrostructure of soils, the physicochemical phenomena affecting soil behavior, the measurement and characterization of soil fabric, and the influence of fabric on mechanical and hydraulic properties.
Part III: Mechanical Behavior of Soils (Chapters 8-12). This part deals with the stress-strain-strength behavior of soils under various loading conditions, such as monotonic, cyclic, dynamic, thermal, or unsaturated loading. It also covers the topics of consolidation, creep, swelling, shrinkage, and cracking.
Part IV: Hydraulic Behavior of Soils (Chapters 13-15). This part focuses on the flow of water and contaminants through soils under hydraulic gradients or pressures. It also covers the topics of seepage, drainage, filtration, retention, dispersion, adsorption, and degradation.
The book is well-illustrated with figures, tables, graphs, charts, diagrams, photographs, and equations. It also includes numerous examples, problems, references, and appendices to enhance the understanding and application of the concepts and principles.
Key concepts and principles
Fundamentals of Soil Behavior introduces and explains many key concepts and principles that are essential for understanding soil behavior. Some of these are:
The concept of effective stress: the difference between total stress and pore water pressure that governs the mechanical behavior of saturated soils.
The concept of critical state: a state at which soil reaches a constant volume and shear strength under continuous shearing.
The concept of fabric: the spatial arrangement and orientation of soil particles and pores that affects the mechanical and hydraulic properties of soils.
The principle of superposition: the assumption that the total response of a soil element to multiple loads or stresses is equal to the sum of the individual responses to each load or stress.
The principle of compatibility: the requirement that the strains or displacements in a soil mass must be compatible with each other and with the boundary conditions.
The principle of continuity: the requirement that the mass or energy in a soil system must be conserved during any process or change.
Examples and applications
Fundamentals of Soil Behavior provides many examples and applications that demonstrate how soil behavior can be analyzed and applied in engineering practice. Some of these are:
The example of Terzaghi's consolidation theory: a classical theory that describes how excess pore water pressure dissipates over time under a constant load, resulting in settlement and increase in effective stress.
The example of Casagrande's method: a graphical method that determines the preconsolidation pressure or the maximum past effective stress experienced by a soil sample from its consolidation test data.
The example of Mohr-Coulomb failure criterion: an empirical criterion that defines the shear strength or failure envelope of a soil as a function of its cohesion and friction angle.
The example of Cam-clay model: a constitutive model that relates the stress, strain, volume change, and pore pressure of a soil using the concepts of critical state, yield surface, plastic potential, hardening rule, and loading-unloading conditions.
The example of Darcy's law: a fundamental law that describes how water flows through porous media under a hydraulic gradient or pressure difference.
The example of Terzaghi's bearing capacity equation: an analytical equation that estimates the ultimate bearing capacity or load-carrying capacity of shallow foundations on cohesive or cohesionless soils.
Advantages and limitations
Fundamentals of Soil Behavior has many advantages as a book on soil behavior. Some of these are:
soil behavior, from the nature and origin of soils to the latest developments and applications.
It is in-depth: it explains the concepts and principles of soil behavior in detail, using rigorous mathematical and physical reasoning.
It is practical: it provides many examples, problems, references, and appendices that illustrate how soil behavior can be applied in engineering practice.
It is updated: it reflects the current state of knowledge and research in soil mechanics and geoenvironmental engineering.
However, Fundamentals of Soil Behavior also has some limitations as a book on soil behavior. Some of these are:
It is complex: it requires a high level of mathematical and physical background to understand and apply the concepts and principles of soil behavior.
It is lengthy: it contains a lot of information and material that may not be relevant or necessary for some readers or purposes.
It is expensive: it costs a lot of money to buy or access the book from online sources.
How to download the book for free?
Legal and ethical issues
Before we show you how to download the book for free, we need to address some legal and ethical issues. Downloading the book for free may violate the intellectual property rights of the authors and publishers. It may also deprive them of their deserved income and recognition. Therefore, we do not encourage or endorse downloading the book for free without their permission or consent. We only provide this information for educational and research purposes only. We also advise you to use the book responsibly and respectfully, and to cite it properly when you use it.
Sources and methods
There are several sources and methods that you can use to download the book for free from the internet. Some of these are:
Library Genesis: a website that provides free access to millions of books, articles, papers, and other documents in various formats, such as PDF, EPUB, MOBI, DJVU, etc. You can search for the book by its title, author, ISBN, or DOI. You can also browse through its categories or collections. Once you find the book, you can download it by clicking on one of the links or mirrors provided.
Sci-Hub: a website that bypasses the paywalls of academic journals and publishers and provides free access to their articles and papers. You can search for the book by its DOI or URL. You can also paste the DOI or URL of any article or paper that cites or references the book. Once you find the book, you can download it by clicking on the PDF icon or link provided.
Torrent: a peer-to-peer file-sharing protocol that allows users to download files from each other using a torrent client software. You can search for the book by its title or author on various torrent websites or trackers, such as The Pirate Bay, 1337x, RARBG, etc. You can also use a torrent search engine, such as Torrentz2, to find multiple sources for the book. Once you find the book, you can download it by clicking on the magnet link or torrent file provided.
Tips and precautions
When you download the book for free from the internet, you should follow some tips and precautions to ensure a safe and successful experience. Some of these are:
Use a VPN: a virtual private network that encrypts your internet traffic and hides your IP address and location from prying eyes. This can help you avoid legal troubles, censorship, surveillance, or hacking when you access or download files from online sources.
Use an antivirus: a software that protects your computer or device from viruses, malware, spyware, ransomware, or other threats that may infect or damage your files or system when you download or open them.
Use an adblocker: a browser extension that blocks or removes ads, pop-ups, banners, or other annoying or malicious elements that may interfere with your browsing or downloading experience.
Check the file size and format: make sure that the file size and format match with the book description and specifications. Avoid downloading files that are too large or too small, or have unknown or suspicious formats.
Check the file quality and content: make sure that the file quality and content are satisfactory and accurate. Avoid downloading files that are corrupted, incomplete, outdated, or fake.
Summary of the main points
In this article, we have introduced you to a classic book on soil behavior: Fundamentals of Soil Behavior by James K. Mitchell and Kenichi Soga. We have explained what soil behavior is, why it is important to study it, and who are the authors of the book. We have also described the main features of the book, such as its contents, concepts, examples, advantages, and limitations. Finally, we have shown you how to download the book for free from the internet.
Recommendations and suggestions
We hope that this article has been helpful and informative for you. We recommend that you read the book if you are interested in learning more about soil behavior and its applications in engineering and environmental fields. We also suggest that you use the book as a reference or a supplement to other sources of information and knowledge on soil behavior. However, we also remind you to respect the intellectual property rights of the authors and publishers, and to use the book responsibly and ethically.
Here are some frequently asked questions and answers about the book and the topic:
Q: How can I buy or access the book legally and ethically?
A: You can buy or access the book legally and ethically from various online or offline sources, such as Amazon, Google Books, Wiley Online Library, WorldCat, etc. You can also borrow the book from your local or university library, or request it through interlibrary loan.
Q: What are some other books on soil behavior that I can read?
A: Some other books on soil behavior that you can read are: Soil Mechanics in Engineering Practice by Karl Terzaghi, Ralph B. Peck, and Gholamreza Mesri; Advanced Soil Mechanics by Braja M. Das; Soil Behaviour and Critical State Soil Mechanics by David Muir Wood; Unsaturated Soil Mechanics by Ning Lu and William J. Likos; Soil Physics with Python by Marco Bittelli, Gaylon S. Campbell, and Fausto Tomei.
Q: How can I learn more about soil behavior online?
A: You can learn more about soil behavior online from various websites, blogs, podcasts, videos, courses, or MOOCs that provide information, tutorials, lectures, demonstrations, exercises, quizzes, or projects on soil behavior. Some examples are: Geotechpedia; Geoengineer.org; Geotechnical Engineering Podcast; MIT OpenCourseWare; Coursera; edX; Udemy; Khan Academy; YouTube.
Q: How can I test or measure soil behavior in the laboratory or in the field?
A: You can test or measure soil behavior in the laboratory or in the field using various instruments, devices, apparatuses, or methods that apply loads or stresses to soil samples or masses and record their responses or properties. Some examples are: oedometer; triaxial test; direct shear test; unconfined compression test; vane shear test; standard penetration test; cone penetration test; pressuremeter test; dilatometer test; permeameter test; hydrometer test; Atterberg limits test; specific gravity test; proctor test.
Q: How can I model or simulate soil behavior using software or computer programs?
A: You can model or simulate soil behavior using software or computer programs that implement various numerical methods, algorithms, models, or codes that solve the governing equations of soil behavior under different boundary conditions and parameters. Some examples are: PLAXIS; ABAQUS; FLAC; ANSYS; COMSOL Multiphysics; GeoStudio; MATLAB; Python.