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Retooling Design discusses a design discourse in which the superiority of materials is key. These materials will be developed in products with an increasingly layered functionality. The study outlines a starting position in which smart materials (shape memory polymers) can fulfil an expanding range of tasks in the future. A horizon in which reaction mechanisms can develop, which can also adapt to the relentless pace of the public and its environment, resulting in flexible patterns of use and management. An ars combinatoria, which encourages us to reflect and admire.
Academic collection --- 373.67 --- FAK (Faculteit Architectuur en Kunsten) --- LUCA School of Arts --- OPAK (Onderzoeksplatform voor Onderzoek in de Architectuur en de Kunsten) --- De Smet, Carl --- 691 --- 691.9 --- 691.8 --- 749.01 --- 749.039 --- 749.02 --- Product Design --- Productontwikkeling --- Industrieel design ; 21ste eeuw ; nieuwe materialen --- Onderzoek in de architectuur --- OPAK ; Onderzoeksplatform voor onderzoek in de architectuur en de kunsten --- LUCA ; School of Arts --- Polymeren --- FAK ; Faculteit Architectuur en Kunsten --- Ontwerpanalyse --- kunst --- onderzoek in de kunsten --- OPAK --- Onderzoeksplatform voor onderzoek in de architectuur en de kunsten --- design --- materiaal --- smart materials --- De Smet Carl --- polymeren --- shape memory polymers --- LUCA --- 770.6 --- Onderzoek (kunst) --- Bouwmaterialen (architectuur) --- Smart materials --- Smart materials (design) --- Synthetische materialen --- Kunststof --- Meubelkunst en design ; theorie, filosofie, esthetica --- Meubelkunst en design ; 2000 - 2050 --- Meubelkunst en design ; technieken, materialen --- productdesign, filosofie, esthetiek en kritiek --- MAD-faculty 14 --- designconcept
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Smart materials are architectural innovations that merge research, development, and function. With their reversible characteristics and amazing ability to respond to stimuli such as light and temperature, they have become a popular resource for architects. One of the most fascinating developments is the advent of Phase Change Materials. These materials make it possible, for example, to develop self-acting, kinetic facades and wallpaper that changes its color and pattern based on temperature, light, or touch. Smart Materials presents the development of these materials and describes their use in the contexts of architecture, design, and art. It offers a systematic overview with a detailed discussion of properties, technologies, products, and projects.
691 --- 691.8 --- 691.9 --- 691(035) --- 749.02 --- Architectuur industrieel design 21ste eeuw nieuwe materialen --- Smart materials --- 745.02 --- Axel Ritter --- architectuur --- bouwmaterialen --- design --- interieurvormgeving --- kunststoffen --- materiaalkunde --- materialen --- meubelkunst --- polymeren --- slimme materialen --- 688 --- 772.9 --- composieten --- glas --- metaal --- plastiek --- productdesign --- thermoharders --- thermoplasten --- titanium --- zonne --- zonneënergie --- Bouwmaterialen (architectuur) --- Kunststof --- Synthetische materialen --- Smart materials (design) --- Bouwmaterialen handboeken --- Meubelkunst en design technieken, materialen --- productdesign, afzonderlijke voorwerpen --- materials [matter] --- Innovation technologique --- Materiau intelligent --- Building materials. Building technology --- Architectuur ; industrieel design ; 21ste eeuw ; nieuwe materialen --- Bouwmaterialen ; handboeken --- Meubelkunst en design ; technieken, materialen --- Smart materials. --- Building materials. --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Adaptive materials --- Intelligent materials --- Sense-able materials --- Building materials --- Architecture intérieure --- Design --- Bouwmaterialen ; smart materials --- materials [substances]
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The current material customer of translucent building materials Translucent materials give architects far more possibilities to exploit the sensual interplay of light and the fascination of interior-exterior interaction than plain glass, a fact proved by their increasing application. Traditionally, stretched paper, finely-cut stone, or stained glass were used to create mood and atmosphere. These are now giving way to a new generation of innovative materials - composite glass, synthetic panels, membranes and perforated metals.
building materials --- plastic [organic material] --- metal --- Plastics --- Chemistry --- Building materials. Building technology --- glassworking --- transparency [optical property] --- Architecture --- Glass --- Materials processing --- glass [material] --- glas --- plastiek --- metaal --- bouwmaterialen --- Building materials. --- Glass construction. --- Composite materials. --- Light in architecture. --- Architecture, Modern --- Construction --- Construction en verre --- Composites --- Lumière en architecture --- Matériaux --- 691 --- 691.6/8 --- 691.6 --- 691.7 --- 691.8 --- 691.27 --- Bouwmaterialen ; glas ; plastiek ; metaal --- Plastic --- Architectuur ; details ; translucente materialen ; 21ste eeuw --- Membrane architectuur ; tentstructuren --- Ruimtelijke constructies ; overspanningen ; kapconstructies --- ed. Frank Kaltenbach ; authors Andrea Compagno, Joachim Achenbach, Werner Sobek [et al.] --- architectuur --- glasarchitectuur --- transparatie --- plastic --- ETFE --- membranen --- doorschijnende bouwmaterialen --- Bouwmaterialen (architectuur) --- Transparante materialen --- Translucide materialen --- Glas --- Metaal --- Glass. Window glass. Plate glass. Enamel etc. --- Fibrous and foliate silicates --- Metallic building materials --- Bouwmaterialen ; glas, vensterglas, spiegelglas --- bouwmaterialen : glas, vensterglas, spiegelglas --- 691.7 Metallic building materials --- 691.27 Fibrous and foliate silicates --- 691.6 Glass. Window glass. Plate glass. Enamel etc. --- Matières plastiques --- Revêtement métallique --- Verre --- Building materials --- Architectural materials --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Glass. Window glass. Plate glass. Enamel etc --- Construction métallique --- Détail de construction --- Métal --- Plastique --- Structure plastique --- Lumière en architecture --- Matériaux --- Matières plastiques. --- Revêtement métallique. --- Verre. --- Matériaux. --- bouwmaterialen - glas(soorten), email --- Matière plastique --- Matières plastiques. --- Revêtement métallique. --- plastic [material]
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La construction de bâtiments réalisée en plastic reçoit aujourd'hui un attrait de plus en plus grand auprès des constructeurs et du public. Suite aux premières expériences des années 1940, le plastic est devenu courrant, principalement en raison de son côté transparent ou translucide. De grands architectes issus de l'actuelle avant-garde en ont un usage fréquent. Le présent ouvragde tente de démontrer que ce matériau "éphémère" est entré dans les habitudes constructives et fait partie de la liste des matériaux proposés actuellement en raison des possibilités esthétiques et techniques qu'il offre.
Architecture mobile --- Construction modulaire --- Informatique appliquée --- Matériau --- Matière plastique --- P.v.c. --- Technologie de la construction --- Transparence --- Plastics in building --- Transparency in architecture --- Buildings, Plastic --- Ban, Shigeru --- Behnisch, Günter --- Bruckner, Anton --- Cucinella, Mario --- De Meuron, Pierre --- Franken, Bernhard --- Giencke, Volker --- Grimshaw, Nicholas --- Herzog, Jacques --- Kempe, André --- Kuhn, Christoph --- Lacaton, Anne --- Pfeifer, Günter --- Sakula, Ash --- Siegert, D. J. --- Thill, Oliver --- Vassal, Jean-Philippe --- Abb architects --- Arconiko --- B & k+ --- Herzog & de meuron --- Jaschek & partners --- Staib architects --- Tekuto architecture studio --- Construction --- Matières plastiques dans la construction --- Matériaux --- 691.6/8 --- 691.8 --- 691 --- 691.17 --- 749.02 --- 72.039 --- Bouwmaterialen ; plastic ; transparant ; translucent --- Lichte constructies ; lichtgewicht constructies --- Architectuur ; verplaatsbare ; mobiele ; tijdelijke --- Membrane architectuur ; tentstructuren --- Architectuur ; interieurarchitectuur ; materialen ; plastic --- Onderdelen en constructie-elementen van gebouwen --- Wanden ; muren ; vloeren ; plafonds ; daken ; gevels --- Ruimtelijke constructies ; overspanningen ; kapconstructies --- Herzog & de Meuron --- Lacaton & Vassal --- Transparante materialen --- Translucide materialen --- Plastic --- Kunststof --- Synthetische materialen --- Bouwmaterialen (architectuur) --- Bouwmaterialen ; kunststoffen --- Meubelkunst en design ; technieken, materialen --- Architectuurgeschiedenis ; 2000 - 2050 --- Transparent architecture --- Architecture --- Plastic building materials --- Building materials --- Plastics --- Building plastics industry --- Air-supported structures --- Matières plastiques dans la construction. --- Matériaux. --- Lacaton, Anne, --- Vassal, Jean-Philippe, --- Herzog, Jacques, --- Herzog, Jacques, 1950 --- -Kempe, André --- Lacaton, Anne, 1955 --- -Pfeifer, Günter --- Vassal, Jean-Philippe, 1954 --- -Architecture mobile --- -Construction --- -Buildings, Plastic
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Nanotechnologie gilt als eine der Schlüsseltechnologien des 21. Jahrhunderts mit stark wachsender wirtschaftlicher Bedeutung. In Architektur und Bauwesen liegen ihre heute nutzbaren Potenziale besonders in der Beschichtung von Oberflächen, die diesen funktionale Eigenschaften wie erhöhte Bruchfestigkeit, Fähigkeit zur Selbstreinigung, Feuerresistenz etc. verleiht. Auf Nanomaterialien basierende Zusatzstoffe machen gängige Materialien leichter, durchlässiger oder verschleißfester. Nicht nur für Fassaden und Dächer sind Nanomaterialien von großem Interesse, sondern sie bereichern auch die Gestaltungsmöglichkeiten von Innen- und Außenräumen. Nano-Dämmmaterialien eröffnen ökologisch ausgerichteten Architekten neue Potenziale.Architekten, Innenarchitekten und Designer finden in diesem Buch eine auf ihre Belange zugeschnittene Einführung in den naturwissenschaftlichen Hintergrund, eine kritische Diskussion der Vorzüge und Grenzen dieser Technologie und vor allem eine umfassende, mit zahlreichen internationalen Projektbeispielen belegte Darstellung von 16 bau- und designrelevanten Eigenschaften und Funktionen von Nanomaterialien. Nobelpreisträger Harold Kroto trug ein Vorwort bei.Dipl.-Ing. Innenarchitektin BDIA Sylvia Leydecker ist praktizierende Innenarchitektin mit dem eigenen Büro "100% interior" in Köln. Sie vertritt den BDIA in der Architektenkammer NRW, ist Dozentin bei mehreren Architektenkammer-Akademien, Mitglied im Kompetenzzentrum Nanotechnologie CC-NanoChem und im Institute of Nantechnology IoN, Schottland. Zahlreiche Vorträge und Zeitschriftenpublikationen über das Thema Nanotechnologie in Architektur, Innenarchitektur und Design. Nanotechnology is widely regarded as one of the twenty-first century's key technologies, and its economic importance is sharply on the rise. In architecture and the construction industry it has potentials that are already usable today, especially the coating of surfaces to lend them functional characteristics such as increased tensile strength, self-cleaning capacity, fire resistance, and others. Additives based on nanomaterials make common materials lighter, more permeable, and more resistant to wear. Nanomaterials are not only extremely useful for roofs and facades; they also expand design possibilities for interior and exterior rooms and spaces. Nano-insulating materials open up new possibilities for ecologically oriented architects.In this book, with a foreword by nobel prize winner Harold Kroto, architects, interior designers and designers will find an introduction to the scientific background specifically tailored to their needs, a critical discussion of the advantages and limits of the technology, and above all a comprehensive presentation of sixteen characteristics and functions of nanomaterials that are specially relevant for building and design, illustrated by numerous international project examples.Dipl.-Ing. interior designer BDIA Sylvia Leydecker is a practicing interior designer with her own firm in Cologne, 100% Interior. She represents the BDIA (Bund Deutscher Innenarchitekten, or Union of German Interior Architects/Designers) on the Architektenkammer Nordrhein-Westfalen (Chamber of Architects of North Rhine-Westphalia), serves as an instructor for a number of Architektenkammer academies, and is a member of the Kompetenzzentrum Nanotechnologie CC-NanoChem (Competence Center for Chemical Nanotechnology, or CC-NanoChem) and the Institute of Nanotechnology, or IoN, in Scotland. Numerous lectures and journal publications on the subject of nanotechnology in architecture, interior design, and design.
691 --- 691.9 --- 691.8 --- Nanotechnologie --- nanotechnologie --- bouwmaterialen --- interieurmaterialen --- designmaterialen --- 69.059.1 --- 691.175 --- 691.27 --- 699.81 --- 699.86 --- 72.039 --- 747 --- Bouwmaterialen (architectuur) --- Smart materials --- Synthetische materialen --- Kunststof --- smart materials --- Maintenance in general. Inspection. Cleaning --- Plastics --- Fibrous and foliate silicates --- Fire protection. Fireproofing of buildings. Firefighting installations and equipment --- Thermal insulation of buildings. Cold-resistant and heat-resistant construction. Expansion joints --- Hedendaagse architectuur. Bouwkunst sinds 1960 --- Interieurkunst. Binnenhuisarchitectuur --- Architecture and technology. --- Design and technology. --- Nanostructured materials. --- 747 Interieurkunst. Binnenhuisarchitectuur --- 72.039 Hedendaagse architectuur. Bouwkunst sinds 1960 --- 699.86 Thermal insulation of buildings. Cold-resistant and heat-resistant construction. Expansion joints --- 699.81 Fire protection. Fireproofing of buildings. Firefighting installations and equipment --- 691.27 Fibrous and foliate silicates --- 691.175 Plastics --- 69.059.1 Maintenance in general. Inspection. Cleaning --- Nanostructured materials --- Architecture and technology --- Design and technology --- Innovation --- Matériau --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Technology and design --- Technology --- Technology and architecture
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ETFE foil has recently become an important material for the cladding of technologically sophisticated and innovative buildings. This material is very thin and lightweight and, when used in air-filled cushion assemblies, has enormous strength and a range of adaptive environmental attributes. ETFE cushion enclosures became known primarily through Grimshaw Architects' Eden Project and Herzog + de Meuron's Allianz Arena, and they are being used on the spectacular swimming stadium for the 2008 Olympic Games in Beijing, the largest ETFE building envelope in the world so far. This book is conceived as an in-depth introduction to the characteristics of ETFE and its applications in construction. Project examples explore in detail the specific characteristics of ETFE building skins in the areas of structural behavior, light transmission, insulation, acoustics, fire engineering and environmental modification. In funktional und technologisch anspruchsvollen und innovativen Gebäudeentwürfen hat die Verwendung von ETFE-Folien in jüngster Zeit große Bedeutung erlangt. Dieses Folienmaterial ist von erstaunlicher Dünnheit bei enormer Reißfestigkeit und ist zum Teil leichter als die Luft, die es umschließt. Bekannt geworden ist das Material vor allem durch das Eden Project von Nicholas Grimshaw und die Allianz Arena von Herzog & de Meuron. Derzeit im Bau ist das spektakuläre Schwimmstadion für die Olympischen Spiele 2008 in Beijing - die bislang weltweit größte ETFE-Struktur.Das Buch ist als fundiertes Grundlagenwerk konzipiert, das sowohl Materialeigenschaften wie technologische und konstruktive Verwendungsmöglichkeiten grundsätzlich und umfassend vermittelt. Ausführlich geht die Autorin auf die Spezifika von ETFE in Bezug auf Lichtdurchlässigkeit, Dämmeigenschaften, Akustik, Brandschutz und ökologische Verträglichkeit ein. Ebenso stellt sie anhand von zahlreichen Projektbeispielen Entwurfslösungen vor.
69 --- 691 --- 691.8 --- EFTE --- 691.17 --- 72.039 --- 692(03) --- 692.232 --- 693.8 --- Architectuur materialen alternatieve --- Onderdelen en constructie-elementen van gebouwen --- Architectuur industrieel design 21ste eeuw nieuwe materialen --- Gevelconstructies buitenmuren details --- Lichte constructies lichtgewicht constructies --- Gevelbekledingen 21ste eeuw EFTE --- Wanden muren vloeren plafonds daken gevels --- Ruimtelijke constructies overspanningen kapconstructies --- Bouwmaterialen milieubewuste --- Bouwmaterialen kunststoffen --- Bouwtechniek --- Bouwmaterialen (architectuur) --- Synthetische materialen --- Kunststof --- Macromolecular materials. Rubbers, plastics etc. --- Hedendaagse architectuur. Bouwkunst sinds 1960 --- Constructie-elementen van gebouwen naslagwerken --- Constructie-elementen van gebouwen buitenmuren bekleding --- Architectuurgeschiedenis 2000 - 2050 --- Staalconstructies. Metaalconstructies --- Building materials. --- Fluoropolymers. --- 72.039 Hedendaagse architectuur. Bouwkunst sinds 1960 --- 691.17 Macromolecular materials. Rubbers, plastics etc. --- Fluoropolymers --- Polyethylene terephthalate. --- Plastics in building. --- Building materials --- Architectuur ; industrieel design ; 21ste eeuw ; nieuwe materialen --- Architectuur ; materialen ; alternatieve --- Bouwmaterialen ; kunststoffen --- Bouwmaterialen ; milieubewuste --- Gevelbekledingen ; 21ste eeuw ; EFTE --- Gevelconstructies ; buitenmuren ; details --- Lichte constructies ; lichtgewicht constructies --- Ruimtelijke constructies ; overspanningen ; kapconstructies --- Wanden ; muren ; vloeren ; plafonds ; daken ; gevels --- Fluorinated polymers --- Fluorine plastics --- Fluorocarbon polymers --- Fluoroplastics --- Organofluorine compounds --- Polymers --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Constructie-elementen van gebouwen ; naslagwerken --- Constructie-elementen van gebouwen ; buitenmuren ; bekleding --- Architectuurgeschiedenis ; 2000 - 2050 --- Macromolecular materials. Rubbers, plastics etc --- Plastic building materials --- Plastics --- Building plastics industry --- Ethylene terephthalate polymer --- Mylar (Trademark) --- PET (Chemical) --- Terephthalic acid-ethylene glycol polymer --- Phthalate esters --- Polyesters --- Thermoplastics
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