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Constructions en bois -- Innovations technologiques |
Ajouter le résultat dans votre panier Affiner la recherche Interroger des sources externes11.2023 - 2023-11-09 - Naturbaustoffe (Bulletin de Detail : Zeitschrift für Architecktur + Baudetail)
Titre : 11.2023 - 2023-11-09 - Naturbaustoffe Titre original : Natural Building Materials Type de document : texte imprimé Année de publication : 2023 Langues : Allemand (ger) Anglais (eng) Catégories : Architecture -- 21e siècle -- Dessins et plans
Construction -- Matériaux -- Aspect environnemental
Construction -- Matériaux -- Innovations technologiques
Construction durable -- 21e siècle
Constructions -- Isolation acoustique
Constructions en argile
Constructions en ballots de paille
Constructions en bois -- Innovations technologiques
Éco-matériaux -- 21e siècle
Économie régionale -- ArchitectureIndex. décimale : 72 Architecture Résumé : From the editorial DETAIL 11.2023
Straw, Clay, and Other Natural Building Materials
In the last decade, timber construction has rapidly gained ground in the building industry, becoming common even in metropolitan areas. As building with wood becomes more popular, interest is growing in other eco-friendly natural materials, like straw, cork, and clay. These resources are often locally available and can be composted and reintegrated into the material cycle once their lifecycle ends.
Although building with natural materials may not always be the cheapest option, their low grey energy consumption, ease of deconstruction, and minimal environmental footprint make a compelling argument in their favour.
In this issue, we present exemplary projects that highlight the extensive use of natural building materials. Using timber sourced from local forests, clay from regional clay pits, and cork acoustic panels, FAZ architectes prioritized the creation of a healthy indoor environment at a primary school in Riaz near Geneva.
Meanwhile, in Nänikon near Zurich, Atelier Schmidt adopted straw bale architecture for a housing estate consisting of 28 units distributed across three rows, all in timber frame construction. The 75 cm thick straw insulation layer is concealed beneath the plaster surfaces, and is comparable to the thermal conductivity of rock wool, despite being an agricultural by product. An in-depth exploration of the diversity and properties of plant-based insulating materials, such as hemp, reed, jute, and cellulose, is provided in our Technology feature by Bettina Rühm (page 78).
Ever more bold developers are embracing the use of natural and health-conscious materials in their projects, like the Auenweide housing estate by Einzueins Architektur in Lower Austria.
Perhaps this marks the start of a trend that will shape the future.En ligne : https://www.detail.de/de_en/detail-11-23 [n° ou bulletin] 11.2023 - 2023-11-09 - Naturbaustoffe = Natural Building Materials [texte imprimé] . - 2023.
Langues : Allemand (ger) Anglais (eng)
Catégories : Architecture -- 21e siècle -- Dessins et plans
Construction -- Matériaux -- Aspect environnemental
Construction -- Matériaux -- Innovations technologiques
Construction durable -- 21e siècle
Constructions -- Isolation acoustique
Constructions en argile
Constructions en ballots de paille
Constructions en bois -- Innovations technologiques
Éco-matériaux -- 21e siècle
Économie régionale -- ArchitectureIndex. décimale : 72 Architecture Résumé : From the editorial DETAIL 11.2023
Straw, Clay, and Other Natural Building Materials
In the last decade, timber construction has rapidly gained ground in the building industry, becoming common even in metropolitan areas. As building with wood becomes more popular, interest is growing in other eco-friendly natural materials, like straw, cork, and clay. These resources are often locally available and can be composted and reintegrated into the material cycle once their lifecycle ends.
Although building with natural materials may not always be the cheapest option, their low grey energy consumption, ease of deconstruction, and minimal environmental footprint make a compelling argument in their favour.
In this issue, we present exemplary projects that highlight the extensive use of natural building materials. Using timber sourced from local forests, clay from regional clay pits, and cork acoustic panels, FAZ architectes prioritized the creation of a healthy indoor environment at a primary school in Riaz near Geneva.
Meanwhile, in Nänikon near Zurich, Atelier Schmidt adopted straw bale architecture for a housing estate consisting of 28 units distributed across three rows, all in timber frame construction. The 75 cm thick straw insulation layer is concealed beneath the plaster surfaces, and is comparable to the thermal conductivity of rock wool, despite being an agricultural by product. An in-depth exploration of the diversity and properties of plant-based insulating materials, such as hemp, reed, jute, and cellulose, is provided in our Technology feature by Bettina Rühm (page 78).
Ever more bold developers are embracing the use of natural and health-conscious materials in their projects, like the Auenweide housing estate by Einzueins Architektur in Lower Austria.
Perhaps this marks the start of a trend that will shape the future.En ligne : https://www.detail.de/de_en/detail-11-23 Réservation
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Code-barres Cote Support Localisation Section Disponibilité SL 27889 DETAIL Fascicule ESA Saint-Luc Beaux-Arts - Biblio Disponible
Titre : 6.2023 - 2023-06-09 - Architektur und Klimaschutz Titre original : Architecture and Climate Protection Type de document : texte imprimé Année de publication : 2023 Langues : Allemand (ger) Anglais (eng) Catégories : Aéroports -- Hangars -- Reconversion (architecture) -- France
Architecture -- Aspect environnemental -- Dessins et plans
Architecture et climat -- 21e siècle
Balcons -- Dessins et plans -- 21e siècle
Campus -- 20e siècle -- Réfection -- Anvers (Belgique)
Construction -- Industrie -- Aspect environnemental -- Certification
Construction durable -- 21e siècle
Construction métallique -- Reconversion (architecture) -- France
Constructions -- Extensions -- Anvers (Belgique)
Constructions circulaires -- Danemark -- 21e siècle
Constructions en bois -- Innovations technologiques
Constructions préfabriquées -- Aspect environnemental
Constructions solaires -- Munich (Allemagne) -- 21e siècle
Éco-matériaux
Énergie grise
Garages -- Haute-Bavière (Allemagne) -- 21e siècle
Grandes surfaces (commerce) -- Tyrol (Autriche) -- 21e siècle
Habitations -- Économies d'énergie
Immeubles d'habitation -- Munich (Allemagne) -- 21e siècle
Murs végétalisés
Ports de plaisance -- Danemark -- 21e siècle
Remplois (architecture) -- Bâle (Suisse)
Systèmes photovoltaïquesIndex. décimale : 72 Architecture Résumé : Anyone who asks the inevitable question about climate protection in architecture today will receive not one, but many answers. They concern the energy consumption of buildings, their gray energy and the use of materials that reduce the CO2 footprint. In addition, building in the existing fabric is finally being valued, and the single-variety design of demountable structures is coming into focus, as are, fundamentally, the principles of the circular economy. Barbara Zettel and Jakob Schoof asked Michael Braungart, the inventor of the principle, about the current status of cradle-to-cradle in the construction industry for the interview in this issue.
in this issue. The project documentations show the most diverse concepts and solutions with which architecture faces up to its climate responsibility. Among them are pioneering buildings made of used materials, daring photovoltaic applications and a school project in which building on existing structures has been masterfully perfected. There is no one-size-fits-all recipe for climate issues in architecture, and there is still much to be done. So let's stay tuned.En ligne : https://issuu.com/detail-magazine/docs/bk-det-2023-6_architektur_u_klimaschutz_i [...] [n° ou bulletin] 6.2023 - 2023-06-09 - Architektur und Klimaschutz = Architecture and Climate Protection [texte imprimé] . - 2023.
Langues : Allemand (ger) Anglais (eng)
Catégories : Aéroports -- Hangars -- Reconversion (architecture) -- France
Architecture -- Aspect environnemental -- Dessins et plans
Architecture et climat -- 21e siècle
Balcons -- Dessins et plans -- 21e siècle
Campus -- 20e siècle -- Réfection -- Anvers (Belgique)
Construction -- Industrie -- Aspect environnemental -- Certification
Construction durable -- 21e siècle
Construction métallique -- Reconversion (architecture) -- France
Constructions -- Extensions -- Anvers (Belgique)
Constructions circulaires -- Danemark -- 21e siècle
Constructions en bois -- Innovations technologiques
Constructions préfabriquées -- Aspect environnemental
Constructions solaires -- Munich (Allemagne) -- 21e siècle
Éco-matériaux
Énergie grise
Garages -- Haute-Bavière (Allemagne) -- 21e siècle
Grandes surfaces (commerce) -- Tyrol (Autriche) -- 21e siècle
Habitations -- Économies d'énergie
Immeubles d'habitation -- Munich (Allemagne) -- 21e siècle
Murs végétalisés
Ports de plaisance -- Danemark -- 21e siècle
Remplois (architecture) -- Bâle (Suisse)
Systèmes photovoltaïquesIndex. décimale : 72 Architecture Résumé : Anyone who asks the inevitable question about climate protection in architecture today will receive not one, but many answers. They concern the energy consumption of buildings, their gray energy and the use of materials that reduce the CO2 footprint. In addition, building in the existing fabric is finally being valued, and the single-variety design of demountable structures is coming into focus, as are, fundamentally, the principles of the circular economy. Barbara Zettel and Jakob Schoof asked Michael Braungart, the inventor of the principle, about the current status of cradle-to-cradle in the construction industry for the interview in this issue.
in this issue. The project documentations show the most diverse concepts and solutions with which architecture faces up to its climate responsibility. Among them are pioneering buildings made of used materials, daring photovoltaic applications and a school project in which building on existing structures has been masterfully perfected. There is no one-size-fits-all recipe for climate issues in architecture, and there is still much to be done. So let's stay tuned.En ligne : https://issuu.com/detail-magazine/docs/bk-det-2023-6_architektur_u_klimaschutz_i [...] Réservation
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Code-barres Cote Support Localisation Section Disponibilité SL 27791 DETAIL Fascicule ESA Saint-Luc Beaux-Arts - Biblio Disponible 
Titre : Vol.2019:N°10 - 2019-10-01 - Hybride Konstruktionen = Hybrid Forms of Construction Type de document : texte imprimé Année de publication : 2019 Langues : Allemand (ger) Anglais (eng) Catégories : Architecture -- Dessins et plans
Constructions en bois -- Innovations technologiques
Immeubles de grande hauteur -- Innovations technologiquesIndex. décimale : 72 Architecture Résumé : The new Blox building in Copenhagen is a hybrid in more ways than one. With its fully glazed facade, OMA’s multipurpose facility accommodates a lively mix that combines exhibition spaces for the Danish Architecture Center with housing units, co-working spaces, a fitness studio and a café with a terrace, to name a few. In addition to its unusually hybrid use, the striking harbourside building was built as a hybrid: in order to meet the design requirements and their respective material properties, a combination of steel and concrete was used for its load-bearing structure.
For our October issue, Frank Kaltenbach has compiled this and other outstanding examples of hybrid forms of construction. The range of possible structural combinations – be it prefabricated wooden elements with reinforced concrete, steel frames infilled with bricks, or timber frame construction with load-bearing reinforced concrete panels – are as varied as the architectural expression of the individual projects.
Our documentations show to what extent these two aspects go hand in hand, for example, at the new residential complex in Stockholm by BIG, in the renovation of a former locksmith’s shop in Bordeaux by RCR Artotec, or at the primary school in Flanders by Compagnie-O. This issue’s essay considers hybrid timber high-rise buildings and examines how construction types, building owners, architects and structural planners are setting new height records. Our Technology feature highlights one such example – namely the highest timber-hybrid construction in Switzerland; Primin Jung explains the project’s structural design challenges.Note de contenu : 1 Editorial
26 Impressum = Imprint
90 Projektbeteiligte / HerstellerProject Teams / Suppliers
136 Contributors
MagazinReports
6 12 500 Tonnen Leichtigkeit = 12,500 Tonnes of Lightness
10 Wie groß ist BIG genug? = How Big is Enough for BIG?
14 Bauhaus 100: Zu Architektur und Architektur-geschichtsschreibung = On the Political Legacy of the Bauhaus
18 Bücher = Books
20 DETAIL researchStütze aus Beton und Edelstahl = Support Made of Concrete and Stainless Stee
l24 DETAIL Kongress 2019 = DETAIL Congress 2019
Produkte = Products
96 Gebäudehülle = Building Envelopes
122 System- und Leichtbauweisen = Prefabricated and Lightweight Construction
Hybride Konstruktionen = Hybrid Forms of Construction
Essay
28 Holz Höher Hybrid = Timber High-Rise Hybrid Frank Kaltenbach
Dokumentation = Documentation
34 Meditationshaus bei Garmisch-Partenkirchen (DE )= Meditation House near Garmisch-Partenkirchen (DE)Kengo Kuma and Associates und Studio Lois
40 Grundschule in Lebbeke (BE)= Primary School in Lebbeke (BE)Compagnie-O
46 Wohnblock in Stockholm (SE)= Housing Development in Stockholm (SE)BIG
54 Einfamilienhaus in Tuttlingen (DE)= Single-Family House in Tuttlingen (DE)Yonder – Architektur und Design
60 Wohn- und Bürohaus in Bordeaux (FR)= Residential and Office Building in Bordeaux (FR) RCR Artotec
66 Wohnhochhaus in Heilbronn (DE)= Housing High-Rise in Heilbronn (DE)Kaden + Lager
74 Kulturzentrum Blox in Kopenhagen (DK)= Blox Cultural Centre in Copenhagen (DK)OMA/Ellen van Loon
Technik = Technology
82 60 Meter: Das höchste Holzhybridhaus der Schweiz = 60 Metres: The Tallest Hybrid Timber High-Rise in Switzerland Primin Jung
En ligne : https://www.detail-online.com/en/magazine/hybrid-forms-of-construction-34705/ [n° ou bulletin] Vol.2019:N°10 - 2019-10-01 - Hybride Konstruktionen = Hybrid Forms of Construction [texte imprimé] . - 2019.
Langues : Allemand (ger) Anglais (eng)
Catégories : Architecture -- Dessins et plans
Constructions en bois -- Innovations technologiques
Immeubles de grande hauteur -- Innovations technologiquesIndex. décimale : 72 Architecture Résumé : The new Blox building in Copenhagen is a hybrid in more ways than one. With its fully glazed facade, OMA’s multipurpose facility accommodates a lively mix that combines exhibition spaces for the Danish Architecture Center with housing units, co-working spaces, a fitness studio and a café with a terrace, to name a few. In addition to its unusually hybrid use, the striking harbourside building was built as a hybrid: in order to meet the design requirements and their respective material properties, a combination of steel and concrete was used for its load-bearing structure.
For our October issue, Frank Kaltenbach has compiled this and other outstanding examples of hybrid forms of construction. The range of possible structural combinations – be it prefabricated wooden elements with reinforced concrete, steel frames infilled with bricks, or timber frame construction with load-bearing reinforced concrete panels – are as varied as the architectural expression of the individual projects.
Our documentations show to what extent these two aspects go hand in hand, for example, at the new residential complex in Stockholm by BIG, in the renovation of a former locksmith’s shop in Bordeaux by RCR Artotec, or at the primary school in Flanders by Compagnie-O. This issue’s essay considers hybrid timber high-rise buildings and examines how construction types, building owners, architects and structural planners are setting new height records. Our Technology feature highlights one such example – namely the highest timber-hybrid construction in Switzerland; Primin Jung explains the project’s structural design challenges.Note de contenu : 1 Editorial
26 Impressum = Imprint
90 Projektbeteiligte / HerstellerProject Teams / Suppliers
136 Contributors
MagazinReports
6 12 500 Tonnen Leichtigkeit = 12,500 Tonnes of Lightness
10 Wie groß ist BIG genug? = How Big is Enough for BIG?
14 Bauhaus 100: Zu Architektur und Architektur-geschichtsschreibung = On the Political Legacy of the Bauhaus
18 Bücher = Books
20 DETAIL researchStütze aus Beton und Edelstahl = Support Made of Concrete and Stainless Stee
l24 DETAIL Kongress 2019 = DETAIL Congress 2019
Produkte = Products
96 Gebäudehülle = Building Envelopes
122 System- und Leichtbauweisen = Prefabricated and Lightweight Construction
Hybride Konstruktionen = Hybrid Forms of Construction
Essay
28 Holz Höher Hybrid = Timber High-Rise Hybrid Frank Kaltenbach
Dokumentation = Documentation
34 Meditationshaus bei Garmisch-Partenkirchen (DE )= Meditation House near Garmisch-Partenkirchen (DE)Kengo Kuma and Associates und Studio Lois
40 Grundschule in Lebbeke (BE)= Primary School in Lebbeke (BE)Compagnie-O
46 Wohnblock in Stockholm (SE)= Housing Development in Stockholm (SE)BIG
54 Einfamilienhaus in Tuttlingen (DE)= Single-Family House in Tuttlingen (DE)Yonder – Architektur und Design
60 Wohn- und Bürohaus in Bordeaux (FR)= Residential and Office Building in Bordeaux (FR) RCR Artotec
66 Wohnhochhaus in Heilbronn (DE)= Housing High-Rise in Heilbronn (DE)Kaden + Lager
74 Kulturzentrum Blox in Kopenhagen (DK)= Blox Cultural Centre in Copenhagen (DK)OMA/Ellen van Loon
Technik = Technology
82 60 Meter: Das höchste Holzhybridhaus der Schweiz = 60 Metres: The Tallest Hybrid Timber High-Rise in Switzerland Primin Jung
En ligne : https://www.detail-online.com/en/magazine/hybrid-forms-of-construction-34705/ Réservation
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Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité SL 23874 DETAIL Fascicule ESA Saint-Luc Beaux-Arts - Biblio Disponible
