Materials Science in Construction explains the science behind the properties and behaviour of construction's most fundamental materials (metals, cement and concrete, polymers, timber, bricks and blocks, glass and plaster). In particular, the critical factors affecting in situ materials are examined, such as deterioration and the behaviour and durability of materials under performance. An accessible, easy-to-follow approach makes this book ideal for all diploma and undergraduate students on construction-related courses taking a module in construction materials.
Construction Science & Materials is designed to cover topics studied at levels 2 – 5 on Construction HND courses and is also suitable for first year undergraduates on construction courses as well as Building surveying, Architectural Technology and Quantity Surveying. It is an essential text for those who have done no science since their GCSEs. Divided into 17 chapters, each with written explanations supplemented by solved examples and relevant diagrams to substantiate the text. Chapters end with numerical questions covering a range of problems and their answers are given at the end of the book and on the book’s website.
For BTEC construction students, Science, Structural Mechanics and Materials are combined into one unit. This new book focuses mainly on science and structural mechanics but also provides basic information on construction materials. The material is presented in a tried-and-tested, student-friendly format that will create an interest in science and ensure that students get all the information they need - from one book. Construction Science & Materials is divided into 17 chapters, each with written explanations supplemented by solved examples and relevant diagrams to substantiate the text. Chapters end with numerical questions covering a range of problems and their answers are given at the end of the book and on the book's website. The author takes into account the latest Edexcel specifications (August 2010) and provides information on topics included in Levels 2/3/4 Science, and Science and Materials. Brief coverage of building materials but more detail on science and structural mechanics topics will be included. Recent developments in science and building materials are covered as well as changes in the Building Regulations. The book includes assignments that can be used by teachers for setting coursework or by students to reinforce their learning. The assignment tasks will cover the latest relevant learning outcomes/grading criteria set by Edexcel. Students will find here all the information, explanations and self-test exercises they need to complete the mandatory topics on BTEC Construction Science and Mathematics (Level 2) as well as Construction Science and Materials (Levels 3/4). The book will be invaluable both to students and teachers as it: includes many diagrams, examples and detailed solutions to help students learn the basic concepts integrates science with construction technology and civil engineering has an early chapter on basic construction technology to help understand technical terminology before going through the main topics offers a detailed explanation of relevant topics in structural mechanics gives end-of-chapter exercises and practice assignments to check and reinforce students’ learning; assignments provide coverage of the grading criteria set by Edexcel. The book has a companion website with freely downloadable support material: detailed solutions to the exercises and assignment tasks details on the design of building foundations and design of timber joists PowerPoint slides for lecturers on each chapter
Construction Science & Materials is designed to cover topics studied at levels 2 – 5 on Construction HND courses and is also suitable for first year undergraduates on construction courses as well as Building surveying, Architectural Technology and Quantity Surveying. It is an essential text for those who have done no science since their GCSEs. Divided into 17 chapters, each with written explanations supplemented by solved examples and relevant diagrams to substantiate the text. Chapters end with numerical questions covering a range of problems and their answers are given at the end of the book and on the book’s website.
Sustainability of Construction Materials, Second Edition, explores an increasingly important aspect of construction. In recent years, serious consideration has been given to environmental and societal issues in the manufacturing, use, disposal, and recycling of construction materials. This book provides comprehensive and detailed analysis of the sustainability issues associated with these materials, mainly in relation to the constituent materials, processing, recycling, and lifecycle environmental impacts. The contents of each chapter reflect the individual aspects of the material that affect sustainability, such as the preservation and repair of timber, the use of cement replacements in concrete, the prevention and control of metal corrosion and the crucial role of adhesives in wood products. - Provides helpful guidance on lifecycle assessment, durability, recycling, and the engineering properties of construction materials - Fully updated to take on new developments, with an additional nineteen chapters added to include natural stone, polymers and plastics, and plaster products - Provides essential reading for individuals at all levels who are involved in the construction and selection, assessment and use, and maintenance of materials
With the improved efficiency of heating, cooling and lighting in buildings crucial to the low carbon targets of all current governments, Building Science: Concepts and Applications provides a timely and much-needed addition to the existing literature on architectural and environmental design education. Taking a logical and didactic approach, the author introduces the reader to the underlying concepts and principles of the thermal, lighting, and acoustic determinants of building design in four integrated sections. The first section explores the thermal building environment and the principles of thermal comfort, translating these principles into conceptual building design solutions. The author examines the heat flow characteristics of the building envelope and explains steady state design methods that form the basis of most building codes. He discusses the sun as a natural heat source and describes the principles of active and passive solar building design solutions. The second section introduces the scientific principles of light, color, and vision, stressing the importance of daylight in building design, presenting the Daylight Factor design concept and methodology, and discussing glare conditions and their avoidance. It also addresses artificial lighting, delving into the prominent role that electricity plays in the production of light by artificial means and comparing the efficacy and characteristics of the various commercially available light sources in terms of the energy to light conversion ratio, life span, available intensity range, color rendition properties, and cost. The third section deals with the various aspects of sound that impact the design of the built environment, discussing the nature of sound as a physical force that sets any medium through which it travels into vibration and laying the foundations for the treatment of sound as an important means of communication as well as a disruptive disturbance. The final section discusses the foundational concepts of ecological design as a basis for addressing sustainability issues in building design solutions. These issues include the embedded energy of construction materials, waste management, preservation of freshwater and management of graywater, adoption of passive solar principles, energy saving measures applicable to mechanical building services, and the end-of-lifecycle deconstruction and recycling of building materials and components. Covers the fundamental building science topics of heat, energy, light and sound Takes a logical and didactic approach, tracing the historical roots of building science Includes summaries of new technologies in solar energy and photovoltaic systems Features a section on the principles of sustainable architecture Website with answers to MC questions testing students' learning
The Frontiers in Materials Editorial Office team are delighted to present the inaugural “Women in Science: Materials” article collection, showcasing the high-quality work of women in science across the breadth of materials science and engineering. All researchers featured within this collection were individually nominated by the Topic Editors in recognition of their status as leading academics who have great potential to influence the future directions of their respective fields. The work presented here highlights the diversity of research performed across the entire breadth of the materials science and engineering field and presents advances in theory, experimentation, and methodology with applications for solving compelling problems. This Editorial features the corresponding author(s) of each paper published within this important collection, ordered by section alphabetically, highlighting them as the great researchers of the future. The Frontiers in Materials Editorial Office team would like to thank each researcher who contributed their work to this collection. We would also like to personally thank the Topic Editors for their exemplary leadership of this article collection; their strong support and passion for this important, community-driven collection has ensured its success and global impact. Emily Young Journal Development Manager
Construction science and materials deals with the designing, planning and construction of buildings, roads, canals, tunnels etc. It is important to select the right materials to be used in specific constructions as the strength and endurance of the built structure depends on it. Advancements in the field of technology have resulted in scientifically engineered materials that are used primarily for construction. The field of engineering concerned with construction science and materials is known as civil engineering. This book discusses the fundamentals as well as modern approaches of construction science. A number of latest researches have been included to keep the readers up-to-date with the global concepts in this area of study.
