1. Concrete Technology
|1."Chemistry of Cement and Concrete" by F M Lea|
“Chemistry of Cement and Concrete” Book Review: The fully revised and updated book covers a range of topics related to cement and concrete. The initial chapters provide detailed information on calcareous and Portland cement, cement components, resistance of concrete against destructive agents, and the production of low energy cements. The later sections delve into pozzolana and pozzolanic cement, blast furnace slag, microsilica, calcium aluminate cements, special cements, cement admixtures, and concrete aggregates. The book also discusses the physical properties of concrete such as shrinkage, creep, bonding action, setting and hardening mechanisms, and durability. This book will be helpful for scientists and engineers involved in research, design, and manufacturing of cement and concrete products.
|2."Properties of Concrete" by A M Neville|
Book Review: The book is a valuable reference for engineers and professionals involved in concrete properties. It encompasses the latest advancements in concrete technology and provides comprehensive and practical information on its properties and usage. The author’s experience and scientific observations are used to determine the mix proportions. The book emphasizes concrete behavior, as well as the physical and chemical phenomena associated with it.
|3."Concrete Technology" by D F Orchard|
“Concrete Technology Theory and Practice” Book Review: The book provides detailed discussions on various topics related to concrete and would be a useful resource for students, practicing engineers, consulting engineers, and architects working in this field. It covers subjects such as cement, cement testing, water and mixtures, construction chemicals and admixtures, elasticity, creep and shrinkage, concrete durability, and concrete mix design. The book also offers insights into mass concreting processes and how to apply this knowledge to various construction projects such as high-rise buildings, metro railways, flyovers, bridges, and transportation projects that involve the pumping and transporting of concrete. The theory presented in the book is supported by numerous illustrations and practical examples.
|4."Concrete Technology Theory and Practice" by M S Shetty|
|5."CONCRETE TECHNOLOGY" by M L Gambhir|
“Concrete Technology” Book Review: This book has been comprehensively updated and revised to provide complete coverage of cement and concrete technology, encompassing all the essential aspects. The early chapters are devoted to topics such as concrete-making materials, mineral additives, chemical admixtures, quality control, proportioning, and the production of concrete. The properties of fresh and hardened concrete are clearly discussed, along with various concreting techniques and repair technologies. The later part of the book covers the rheology of concrete, environmental factors, inspection and testing, prevention of deterioration, and applications of concrete technology for enhancing product performance.
|6."High-Performance Concrete" by P C Aitcin|
“High-Performance Concrete” Book Review: The goal of this book is to provide a comprehensive introduction to the major topics of high-performance concrete (HPC). Each chapter delves into the concepts, methodologies, and terminology associated with HPC, including its materials, properties, technology, construction, and testing. To facilitate better understanding, the book features several examples and case studies. The material properties discussed in this book have broad applicability across many fields. As such, it will be an invaluable asset for concrete technologists and construction engineers, as well as students, researchers, and professionals involved in the production, use, and testing of high-performance concrete.
|7."Laboratory Manual on Concrete Technology" by Hemant Sood|
“Laboratory Manual on Concrete Technology” Book Review: The laboratory results of the examination of various ingredients and concrete according to BIS specifications are presented in the book. The content strictly follows BIS codes and guidelines, with a focus on properties and testing procedures that are responsible for the strength and quality of concrete. Non-destructive testing techniques are also featured. This book is recommended for practicing engineers, technical teachers, and students undergoing educational training programs related to polytechnics.
|8."Concrete Technology" by Neville|
“Concrete Technology” Book Review: This book provides an introduction to the fundamental concepts, principles, and techniques of concrete design and technology. Each chapter thoroughly covers the major topics of concrete design and technology, utilizing various examples and problems to aid understanding. The book is ideal for students and professionals of civil engineering and structural engineering, and will serve as a valuable resource for practicing engineers in these fields.
|9."Concrete Technology" by A R SANTHAKUMAR|
“Concrete Technology” Book Review: This book offers a comprehensive overview of both the theoretical and practical aspects of concrete technology, incorporating recent developments and research in the field. It provides detailed insights into the properties and constituent materials of concrete, with in-depth explanations of topics such as mixed concrete, reinforcement, disaster-resistant construction, concrete machinery, high-performance concrete, polymer concrete, and fiber-reinforced concrete. The book also covers the durability, maintenance, and quality control of concrete structures, as well as a chapter devoted to concrete structures in special environmental conditions. Concepts are illustrated through numerous examples, making it a valuable resource for both students and professionals of civil and structural engineering.
|10."Concrete Technology and Good Construction Practices" by Y P Gupta|
“Concrete Technology and Good Construction Practices” Book Review: This book primarily targets undergraduate and postgraduate students of civil engineering, but it also holds significant value for professionals and workers responsible for supervising quality control and repair work in concrete constructions. The reader-friendly and relatable content of this book is well-structured, and the chapters are presented in a way that is easy to comprehend.
|11."Fibre Cement: Technology and Design" by Jan R Krause|
“Fibre Cement: Technology and Design” Book Review: This book primarily focuses on the applications of fiber cement, including its technology, material, and architectural history. It highlights the principal uses of fiber cement in facade, roof, interior architecture, and object design. Additionally, it explores the characteristics of the new generation of fiber cement slabs, which feature air and water permeability. The book also explains how fiber cement is used in the construction of interior house walls, exhibition architecture, as well as functional and industrial structures.
|12."Abstract and Concrete Categories" by J Adamek and G E Streeker|
“Abstract and Concrete Categories” Book Review: This book provides a comprehensive overview of fundamental theory, particular categories, closed categories of Cartesian and quasitopoi. It also covers the basic knowledge of set theory. With seven chapters and chapter end problems that come with solutions, it serves as a valuable guide for advanced undergraduate and graduate students.
2. Advance Concrete Technology
|1."Prestressed Concrete and Advance Design of Structure" by Asheesh Kumar|
“Prestressed Concrete and Advance Design of Structure” Book Review: This book provides an in-depth understanding of prestressed concrete and its advanced design methods. The book covers topics such as prestressing materials, anchorage zones, flexural analysis of prestressed beams, shear and torsional resistance of prestressed concrete members, and design of prestressed concrete bridges. It is a valuable resource for civil engineering students, researchers, and professionals seeking to enhance their knowledge in prestressed concrete design.
|2."Advances in Concrete Construction Technology" by D F H Bennett|
“Advances in Concrete Construction Technology” Book Review: This book provides an introduction to new theories, testing techniques, and latest developments in concrete technology. It covers a range of topics, including non-Portland cement concrete and information on geopolymer concrete and magnesium-bonded concrete. Additionally, the book explores various non-destructive testing methods.
|3."Advances in Concrete Slab Technology" by Ravindra K. Dhir OBE and John G L Munday|
“Advances in Concrete Slab Technology” Book Review: This book presents the proceedings related to concrete slabs, covering topics such as steel fiber reinforcement, slab-column connections, and sulfur concrete slabs. The book also includes an explanation of the line analysis of orthotropics, slab panels, and edge column joints. It discusses the behavior of floor slabs in shear buildings, cracking, and HAB system model constructions. Additionally, the book provides information on grinding techniques, vacuum dewatering, and in-situ slab production. It serves as a helpful guide for students and researchers interested in the field of slab technology.
|4."Seismic Design Aids for Nonlinear Pushover Analysis of Reinforced Concrete and Steel Bridges (Advances in Earthquake Engineering)" by Jeffrey Ger and Franklin Y Cheng|
“Seismic Design Aids for Nonlinear Pushover Analysis of Reinforced Concrete and Steel Bridges (Advances in Earthquake Engineering)” Book Review: The primary aim of this book is to guide practicing engineers on pushover analysis. It extensively describes the analysis of concrete and steel bridges with concrete column members, along with illustrations of rectangular cross-sections. The procedures of pushover analysis, stiffness formation, and finite segment are covered in detail. The book also highlights important topics such as moment curvature, axial load interaction, constant moment ratio, and plastic hinge length, which are critical for understanding the subject matter.
|5."Fly Ash in Concrete: Production, Properties and Uses (Advances in Concrete Technology)" by R C Joshi and R P Lohita|
“Fly Ash in Concrete: Production, Properties and Uses (Advances in Concrete Technology)” Book Review: The focus of this book is on the mineralogical and chemical attributes of fly ash and how it impacts the performance of concrete. The book provides detailed information on strength development, chemical resistance, and durability of concrete that incorporates fly ash. It also covers international standards related to fly ash, along with surveys of fly ash products and waste management. This book will serve as a comprehensive guide for professionals in the concrete industry as well as students studying civil engineering.
|6."Concrete Technology" by M N Bajad|
“Concrete Technology” Book Review: This book serves as an introduction to concrete production and its application in construction. It covers the properties of concrete, techniques for its placement, and testing of concrete structures. The book also delves into important topics such as concrete mix design, special types of concrete, and methods for mitigating deterioration.
|7."Pozzolanic and Cementitious Materials (Advances in Concrete Technology)" by V M Malhotra and P K Mehta|
“Pozzolanic and Cementitious Materials (Advances in Concrete Technology)” Book Review: This book provides an in-depth understanding of pozzolanic and cementitious materials, as well as mineral admixtures. It covers important information on blast furnaces, slag, fly ash, silica fume, and rice husk ash. The book also discusses the compositions of admixtures and their chemical reactions with cement.
|8."Computational Fracture Mechanics in Concrete Technology" by A Carpinteri and M H Aliabadi|
“Computational Fracture Mechanics in Concrete Technology” Book Review: This book provides a comprehensive insight into the computational techniques used in fracture mechanics applied to concrete. The book covers topics such as continuum mechanics, fracture mechanics, concrete fracture, numerical methods, and advanced topics like size effects, multi-scale and multi-physics modeling. The book is a valuable resource for engineers, researchers, and postgraduate students interested in computational fracture mechanics and concrete technology.
|9."Advances in Ready Mixed Concrete Technology: Proceedings of the First International Conference on Ready-Mixed Concrete Held at Dundee University" by Ravindra K Dhir OBE|
“Advances in Ready Mixed Concrete Technology: Proceedings of the First International Conference on Ready-Mixed Concrete Held at Dundee University” Book Review: The book discusses the proceedings of the First International Conference on Ready-Mixed Concrete held at Dundee University. It provides insights into the latest developments in batching plants, production methods, and equipment used in the concrete industry. The book covers the usage of materials for concrete, its hardened state, mixed design, and quality control. It also explains the transportation and placing of concrete. The book includes information on concrete economics and the cost of concrete pumping. This text is an ideal resource for concrete producers, customers, and suppliers who are interested in the field of concrete materials.
|10."Performance-Based Seismic Design of Concrete Structures and Infrastructures" by Vagelis Plevris and Georgia Kremmyda|
“Performance-Based Seismic Design of Concrete Structures and Infrastructures” Book Review: The primary focus of this book is to discuss the recent developments and emerging trends in the field of structural design. The book covers several important topics, including seismic assessments, infrastructure resilience, and shear wall structures. It serves as an informative guide for students, professionals, and researchers who are interested in developing robust and reliable structural designs.
|11."Textile Reinforced Concrete (Modern Concrete Technology)" by Alva Peled and Arnon Bentur|
“Textile Reinforced Concrete (Modern Concrete Technology)” Book Review: This book is dedicated to high efficiency cement-based composites, covering their mechanical behavior such as tensile strength, toughness, and energy absorption. Additionally, it explores the flexibility of fabric production and the ability to incorporate a range of fabrics into unique designs. The book provides a descriptive treatment of textile reinforced concrete (TRC) and the basic concepts of composite materials. It includes an in-depth analysis of the fabric and the role of bonding and microstructure, which is useful for students seeking a better understanding of the topic.
|12."Radionuclide and Metal Sorption on Cement and Concrete (Topics in Safety, Risk, Reliability and Quality)" by Michael Ochs and Dirk Mallants|
“Radionuclide and Metal Sorption on Cement and Concrete (Topics in Safety, Risk, Reliability and Quality)” Book Review: This book provides an explanation of the different processes involved in sorption and incorporation in hydrated cement systems. It discusses the management of radioactive and industrial waste and provides a detailed explanation of the effects of cement evolution. It also covers the use of cementitious materials as barriers for various chemical and radioactive waste. The book includes data and experimental information on the disposal of radioactive waste in Belgium and describes radioactive elements, toxic stable elements, and heavy metals.
|13."Design of Concrete Structures with Stress Fields" by Aurello Muttoni and Joseph Schwartz|
“Design of Concrete Structures with Stress Fields” by Aurello Muttoni and Joseph Schwartz Book Review: This textbook thoroughly covers stress fields for simple structures made of reinforced or prestressed concrete. It discusses topics such as the investigation of beams, walls, brackets, bracing beams, and joints of frames. The book covers a majority of design cases, including two-dimensional plate elements and plane stress conditions. Additionally, it emphasizes material strength and properties, as well as additional considerations for developing stress fields. It is a valuable resource for engineers and students studying reinforced concrete structures.