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Whether it be as translucent sheets, broadly stretched membranes, and inflated foil cushions or in graceful, organic curves, architecture today is utilizing plastics in the most disparate forms and for a wide variety of purposes. Innovative technical developments are constantly improving its material properties; at the same time, there is a growing new awareness of its potential as a construction material. While plastics used to be employed primarily as an inexpensive variant on traditional building materials, they are increasingly regarded in the construction world today as a serious and viable alternative, be it as supporting structures, roofs, facades, or elements of interior design and decoration. Thanks in large part to this inherent self-sufficiency, plastics are currently enjoying an unprecedented surge in popularity, even among the international architectural avant-garde – as multiwall sheets or corrugated, fiber-reinforced panels, or as filling between glass panes. And the new generation of ecological bioplastics also pays tribute to the debate on sustainability, ridding plastics of their lingering reputation as environmental offenders. From the history of plastics and membranes in architecture to their material properties and requirements in construction and design, the Plastics and Membranes Construction Manual cuts to the chase, providing the kind of solid and comprehensive overview of the subject that readers have come to expect from the Im DETAIL series. Selected project examples round off the reference work and make it indispensable for the day-to-day life of the professional planner and for every architecture library.
Concrete as a building material -- Concrete mix compounds -- Proportioning concrete mix -- Excavation -- Laying out the building -- Design of concrete forms -- Form materials and how to use them -- Construction of pier and footing forms -- Construction of foundation wall forms -- Formwork for openings in concrete walls -- Formwork for steps -- Formwork for floors and sidewalk slabs -- How to make beam and girder forms -- Forms for arched openings -- Handling and placing concrete -- Finishing concrete -- Curing and patching concrete -- Effects of temperature -- Reinforced concrete construction -- Precast concrete -- Cleaning concrete and masonry methods -- Appendix A : Method of making slump test for consistency of Portland cement concrete -- Appendix B : Estimating quantities and labor hours for concrete, forms and reinforcing.
An essential introductory reference manual for anyone specifying, maintaining or manufacturing geotextiles and geomembranes.
This design manual is intended to assist the practicing engineer in the evaluation and use of plastics as structural materials. Consequently, it emphasizes those technological aspects of the broad class of materials which affect structural behavior and outlines the various categories of plain and modified plastics, noting their basic behavior under the conditions of stress, strain, time, and temperature that control design. It reviews fabrication processes and their effects on materials usage and characteristics, and considers influences of the environment that result in degradation of structural properties. Above all, it examines the design principles and practices applicable to plastics and composites when employed structurally.
Facades - they are the first feature of a building to be noticed, they determine its distinctive appearance and are often the subject of controversial debate. This new first edition of the Facade Construction Manual provides a systematic survey of contemporary expertise in the application of new materials and energy- efficient technologies in facade design, and represents an invaluable addition to our series of Construction Manuals. It surveys the facade design requirements made by various types of buildings, as well as the most important materials, from natural stone through to synthetics, and documents a diversity of construction forms for a wide range of building types. Over 100 international case-studies in large-scale, detailed drawings are presented in the comprehensive project section.
the Roof Construction Manual is a comprehensive reference work on the construction of pitched roofs, containing over 1800 plans and 220 photographs. Thirteen fundamental roof types and the relevant materials including thatch, wood, slate, tile, concrete, fibrous cement, bitumen, glass, metal, membranes, and synthetic materials are documented in detail. Essential topics such as ventilation, vapour and wind seals, insulation and drainage, renovation and energy conservation are examined. As with all the Construction Manuals, some 38 built examples illustrate the theoretical details, paying particular attention to important features such as the ridge, hip, eaves, roof valley, verge, and penetration. A compact presentation of the load-bearing physics and structures as well as current norms and standards make this volume an indispensable standard work for all architects and engineers.
Both professionals and students are increasingly committed to achieving high-performance metrics in the design, construction and operation of residential buildings. This book responds to this demand by offering a comprehensive guide which features: architectural innovations in building skin technologies which make lighter more transparent buildings high performing; energy-free architectural design principles and advances in building-integrated photovoltaics; essential engineering principles, controls and approaches to simulation for achieving net zero; the advantages of integrated design in residential construction and the challenges and opportunities it engenders; detailed case studies of innovative homes which have incorporated low-energy design solutions, new materials, alternative building assemblies, digital fabrication, integrated engineering systems and operational controls. Divided into four parts, the book discusses the requisite AEC (Architecture, Engineering and Construction) knowledge needed when building a high-performance home. It also communicates this information across four case studies, which provide the reader with a thorough overview of all aspects to be considered in the design and construction of sustainable homes. With contributions from experts in the field, the book provides a well-rounded and multi-faceted approach. This book is essential reading for students and professionals in design, architecture, engineering (civil, mechanical and electrical), construction and energy management.