Biomorphic Structures


Book Description

From leaves to liquids, caves to crystal formations, nature has always been a major source of inspiration for architects. This book examines how nature can act as a precedent for design solutions through twelve case studies. Packed with computer drawings, sketches, models, and photographs, this will be an ideal resource of ideas for students in their studio work, as well as for practicing architects.




Biomimicry in Architecture


Book Description

When searching for genuinely sustainable building design and technology - designs that go beyond conventional sustainability to be truly restorative - we often find that nature got there first. Over 3.5 billion years of natural history have evolved innumerable examples of forms, systems, and processes that can be applied to modern green design. For architects, urban designers and product designers, this new edition of Biomimicry in Architecture looks to the natural world to achieve radical increases in resource efficiency. Packed with case studies predicting future trends, this edition also contains updated and expanded chapters on structures, materials, waste, water, thermal control and energy, as well as an all-new chapter on light. An amazing sourcebook of extraordinary design solutions, Biomimicry in Architecture is a must-read for anyone preparing for the challenges of building a sustainable and restorative future.




Deployable Structures


Book Description

Deployable structures can expand and contract due to their geometrical, material and mechanical properties – offering the potential to create truly transforming environments. This book looks at the cutting edge of the subject, examining the different types of deployable structures and numerous design approaches. Filled with photographs, models, drawings and diagrams, Deployable Structures is packed with inspirational ideas for architecture students and practitioners.




Structure Systems


Book Description




Blob!


Book Description

Always received with a mix of fascination and awe, blob architecture is conquering the metropolises of the world. With their futuristic look - softly rounded at times, boldly curved at others - the buildings stand out from the bulk of urban structures. Whether a classic computer-generated blob, an experiment with new mould-breaking shapes, or in combination with de-constructive elements - the applied cutting-edge technologies and materials are fertile grounds for unlimited creativity. Blob ! Round Shapes, Fluid Forms presents the best contemporary projects from around the world, giving a comprehensive overview of current developments. The projects that were carefully selected for this book are as unique as they are versatile and vivid proof that the fascination of the blob remains as strong as ever.




Sustainable Retrofits


Book Description

Presenting the state-of-the-art in sustainable retrofits in post war residential towers, this book captures and re-informs the current intense refurbishing process that is taking place in Britain, which is part of a global phenomenon happening all over the world, as cities upgrade their building stock in an attempt to comply with governmental emission reduction targets. The authors present inspections of 20 sustainably retrofitted social housing towers, analysing their aesthetic and technical modifications, as well as the shifts occurring in their social structure. The authors use over 200 full colour plans, elevations, photographs, maps and illustrations to beautifully support the statistical and analytical information collected. Finally they include interviews with some of the architects who designed the retrofits, residents and key stakeholders to inform the conclusions.




Generative Design


Book Description

Generating form is one of the most fundamental aspects of architectural education and practice. While new computational tools are enabling ever more unpredictable forms, critics argue that this leads to a disconnection between architectural output and its context. This attractive, pocket-sized book uses 11 different architectural projects to explore how generative design processes can integrate digital as well as physical design tools and techniques to produce innovative forms that cohere with structural and material principles, performance and context. Illustrated with drawings, computer images and models, this stimulating, accessible handbook of ideas provides a guide for students as well as an inspiration for practising architects.




Cellular Materials in Nature and Medicine


Book Description

Describes the structure and mechanics of a wide range of cellular materials in botany, zoology, and medicine.




Curved Space Diamond Structure


Book Description

The Curved Space Structure, designed by Peter Jon Pearce, is derived from a comprehensive study of structure in nature, with a special interest in the geometry of atomic assemblies in crystals and patterns found in biomorphic form. This study was pursued with the aim of understanding the unity of formative principles exhibited by natural structure through spatial geometry. Nature universally manifests a principle of least energy where form can be considered a diagram of forces. In a very special way, the Curved Space Structure represents a 16 billion times enlargement of the diamond crystal, enabling children, and adults, to have an immersive experience with its spatial geometry. Not only that, the details of the construction methods of this structural assembly reveal a panoply of natural patterns including curved and minimal surfaces, tessellations, polygonal geometries, and applications of material science and technology. The name Curved Space was adopted as way of characterizing the spatial experience of engaging with these remarkable structures. There is no specific reference to Einstein's use of this term, although it certainly is implied. In June 1975 a Curved Space Structure was exhibited as part of the International Design Conference at Aspen, Colorado. This was the first public display of the Curved Space and served as a test assembly prior to the first permanent installation at the Brooklyn Children's Museum. There were three distinct structures that were installed at that museum in Brooklyn, New York, in August 1975. Unfortunately about 10 years later the museum was redesigned and the Curved Space installation was removed. One of the most important venues where a Curved Space Structure can still be found is the Hakone Open Air Museum in Japan. This amazing outdoor sculpture museum has had a Curved Space in its collection since 1978, when it was first installed. This structure was replaced and revised first in 1994 and then again in 2011. The Hakone Museum installation is largest single Curved Space Structure ever built. Although considered a work of sculpture, known as Peter Pearce's Diamond Sculpture, it has always been the intention of the Museum that children be able to access the structure. This structure has been extremely popular with the visitors to the Museum. The origins of the Curved Space system originated with Peter Jon Pearce's morphological research in 1965-66. This research explored natural structures as a theoretical basis for building system design. The emphasis of the this work involved the study of repeating geometric structures of the type characterized by the internal structure of crystals, as well as patterns of least energy exhibited by biomorphic structures in nature. Combining the study of minimal surfaces and repeating three-dimensional structures led to the Curved Space Structures. This work is comprehensively described in Pearce's book, Structure in Nature is a Strategy for Design, The MIT Press, 1978, 1990. Although out of print, the book is still available from some sources.




Physics and Mechanics of New Materials and Their Applications


Book Description

This book presents 50 selected peer-reviewed contributions from the 10th Anniversary International Conference on “Physics and Mechanics of New Materials and Their Applications”, PHENMA 2021-2022 (23-27 May, 2022, Divnomorsk, Russia), focusing on processing techniques, physics, mechanics, and applications of advanced materials. The book describes a broad spectrum of promising nanostructures, crystal structures, materials, and composites with unique properties. It presents nanotechnological design approaches, environmental-friendly processing techniques, and physicochemical as well as mechanical studies of advanced materials. The selected contributions describe recent progress in computational materials science methods and algorithms (in particular, finite-element and finite-difference modelling) applied to various technological, mechanical, and physical problems. The presented results are important for ongoing efforts concerning the theory, modelling, and testing of advanced materials. Other results are devoted to promising devices with higher accuracy, increased longevity, and greater potential to work effectively under critical temperatures, high pressure, and in aggressive environments.