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Almost every industry in the world has benefited from the invention of plastics, but it is only in the recent past that they have begun to be appreciated as architectural materials in their own right. Plastics are quickly becoming one of the most ubiquitous materials in construction and have the potential to reshape the roles of architects and engineers, as well as the construction industry at large. As a building material, plastic allows for easily molded and formed shapes, leading to increasingly malleable design processes. Despite being the most deeply engineered building materials today, plastics are still in the nascent stages of understanding in terms of their potential applications and uses. In Permanent Change an interdisciplinary group of architects, historians, theorists, and engineers collectively explore the past, present, and future possibilities of this innovative building material.
Materials for Architects and Builders provides a clear and concise introduction to the broad range of materials used within the construction industry and covers the essential details of their manufacture, key physical properties, specification and uses. Understanding the basics of materials is a crucial part of undergraduate and diploma construction or architecture-related courses, and this established textbook helps the reader to do just that with the help of colour photographs and clear diagrams throughout. This new edition has been completely revised and updated to include the latest developments in materials research, new images, appropriate technologies and relevant legislation. The ecological effects of building construction and lifetime use remain an important focus, and this new edition includes a wide range of energy saving building components.
Materials for Architects and Builders provides a clear and concise introduction to the broad range of materials used within the construction industry and covers the essential details of their manufacture, key physical properties, specification and uses. Understanding the basics of materials is a crucial part of undergraduate and diploma construction or architecture-related courses, and this established textbook helps the reader to do just that with the help of colour photographs and clear diagrams throughout. This new sixth edition has been completely revised and updated to include the latest developments in materials research, new images, appropriate technologies and relevant legislation. The ecological effects of building construction and lifetime use remain an important focus, and this new edition includes a wide range of energy-saving building components.
A fascinating guide to building with transparent plastics. Prominent international avant-garde architects such as Shigeru Ban and Herzog & de Meuron frequently use transparent plastic for their structures. Transparent plastic seems ephemeral and thus captures the spirit of the times.
Bricks and brickwork -- Blocks and blockwork -- Lime, cement and concrete -- Timber and timber products -- Ferrous and non-ferrous metals -- Bitumen and flat roofing materials -- Glass -- Ceramic materials -- Stone and cast stone -- Plastics -- Glass-fibre reinforced plastics, cement and gypsum -- Plaster and board materials -- Insulating materials -- Energy-saving materials and components -- Recycled and ecological materials -- Sealants, gaskets and adhesives -- Paints, wood stains, varnishes and colour.
”Reduce, Reuse, Recycle, and Recover“ is the sustainable guideline that has replaced the ”Take, Make, Waste“ attitude of the industrial age. Based on their background at the ETH Zurich and the Future Cities Laboratory in Singapore, the authors provide both a conceptual and practical look into materials and products which use waste as a renewable resource. This book introduces an inventory of current projects and building elements, ranging from marketed products, among them façade panels made of straw and self-healing concrete, to advanced research and development like newspaper, wood or jeans denim used as isolating fibres. Going beyond the mere recycling aspect of reused materials, it looks into innovative concepts of how materials usually regarded as waste can be processed into new construction elements. The products are organized along the manufacturing processes: densified, reconfigured, transformed, designed and cultivated materials. A product directory presents all materials and projects in this book according to their functional uses in construction: load-bearing, self-supporting, insulating, waterproofing and finishing products.
Plastics are high-performance materials of wide use in the built environment. Their versatile technical properties are particularly fascinating. A broad range of form-giving and finishing processes makes plastic especially interesting for complex geometries in combination with digital planning processes. Following the pioneering plastic structures of the 1970s, a number of spectacular buildings have in recent years highlighted the outstanding technical and aesthetic potential of the material. Until now, however, there has been no systematic treatment of the use of plastic in architecture. This book seeks to fill that gap by providing an introduction to the structural and design possibilities of plastic. It introduces the material and its specific characteristics, describes various types of plastic in terms of their relevance for building, explains processing technologies and presents typical products and components. A concise presentation of twenty-five international built projects – organized by the type of application and the plastic involved – documents the broad range of plastic in architecture. Finally, a look ahead at the future describes the current state of the art in materials research.
Soak up carbon into beautiful, healthy buildings that heal the climate "Green buildings" that slash energy use and carbon emissions are all the rage, but they aren't enough. The hidden culprit is embodied carbon — the carbon emitted when materials are mined, manufactured, and transported — comprising some 10% of global emissions. With the built environment doubling by 2030, buildings are a carbon juggernaut threatening to overwhelm the climate. It doesn't have to be this way. Like never before in history, buildings can become part of the climate solution. With biomimicry and innovation, we can pull huge amounts of carbon out of the atmosphere and lock it up as walls, roofs, foundations, and insulation. We can literally make buildings out of the sky with a massive positive impact. The New Carbon Architecture is a paradigm-shifting tour of the innovations in architecture and construction that are making this happen. Office towers built from advanced wood products; affordable, low-carbon concrete alternatives; plastic cleaned from the oceans and turned into building blocks. We can even grow insulation from mycelium. A tour de force by the leaders in the field, The New Carbon Architecture will fire the imagination of architects, engineers, builders, policy makers, and everyone else captivated by the possibility of architecture to heal the climate and produce safer, healthier, and more beautiful buildings.
A necessary purchase for level 1 and 2 undergraduates studying building/ construction materials modules, Materials for Architects and Builders provides an introduction to the broad range of materials used within the construction industry and contains information pertaining to their manufacture, key physical properties, specification and uses. Construction Materials is a core module on all undergraduate and diploma construction-related courses and this established textbook is illustrated in colour throughout with many photographs and diagrams to help students understand the key principles. This new edition has been completely revised and updated to include the latest developments in materials, appropriate technologies and relevant legislation. The current concern for the ecological effects of building construction and lifetime use are reflected in the emphasis given to sustainability and recycling. An additional chapter on sustainability and governmental carbon targets reinforces this issue.