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The third edition of Design-Tech provides an indispensable, holistic resource for integrating building technologies into critically designed, performance-based architectural projects.
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The third edition of Design-Tech provides an indispensable, holistic resource for integrating building technologies into critically designed, performance-based architectural projects.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 454
- Erscheinungstermin: 5. März 2025
- Englisch
- Abmessung: 280mm x 210mm
- ISBN-13: 9781032442853
- ISBN-10: 1032442859
- Artikelnr.: 71706577
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 454
- Erscheinungstermin: 5. März 2025
- Englisch
- Abmessung: 280mm x 210mm
- ISBN-13: 9781032442853
- ISBN-10: 1032442859
- Artikelnr.: 71706577
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Jason Alread, AIA, LEED AP, is a Professor and the former Director of the School of Architecture at the University of Florida. He was educated at UF and Yale University and has been a registered architect in professional practice for over 30 years. His teaching and research focus on the integration of craft and technology, building performance, design methodologies, and professional practice. Thomas Leslie, FAIA, teaches building design, history, and technology at the University of Illinois, Urbana-Champaign. Leslie received degrees in architecture from Illinois and Columbia and spent seven years with Norman Foster + Partners, London, and San Francisco. He has written extensively on the history of building arts and sciences. Rob Whitehead, FAIA, LEED AP, is a licensed architect, an Associate Professor of Architecture, and an Associate Dean at Iowa State University's College of Design. His teaching experience includes integrated design studios, design-build courses, and an award-winning structural design course sequence at Iowa State University. His book, Structures by Design: Thinking, Making, Breaking has been adopted worldwide.
Section 1: Pre-Design: First Principles of Integrating Design Technology 1.0. Design Values and Purposeful Integration of Building Technology 1.1. Design for People: Anthropomorphics and Comfort 1.2. Design for Place: Climatology
Solar Geometry
Site Ecology
and Site Analysis 1.3. Design with Materials: Properties
Assessment
Selection
Planning
and Sustainability Section 2: Schematic Design: Planning & Priorities 2.0. Schematic Design
Planning
and Priorities for Integrating Technology 2.1. Programming
Zoning
and Parti 2.2. Building Relationship to Environment: Passive Ventilation and Daylighting 2.3. Material Properties: Timber
Masonry
Metal
Glass
Concrete
and Composites 2.4. Structural Schematics: Shaping Form
Space
& Order 2.5. Structural Systems: Principles of Support
Framing
& Force Flow 2.6. Circulation: Life Safety
Accessibility
and Vertical Transport Section 3: Design Development: Putting it Together 3.0. Strategies for Integrated Development 3.1. Evaluating Structures: Understanding Strength
Stiffness
Suitability
and Stability 3.2. Structural Materials & Assemblies: Load Grounders
Collectors
and Stabilizers 3.3. Building Enclosure: Envelope and Curtain Walls 3.4. Interior Finish Materials: Walls
Ceilings
and Floors 3.5. Mechanical
Electrical
and Plumbing Systems 3.6. Sensory Environments: Acoustics and Lighting Section 4: Advanced Integration: Designing for Performance 4.0. Performance and Integration 4.1. Detailing: Fit
Organization
Consistency
Robustness
Durability
and Finish 4.2. Long Span Structures: Trusses
Shells
& Lightweight Structural Systems 4.3. High Rise Structures 4.4. High-Performance Buildings: Principles of Passive House and Net-Zero Design
Solar Geometry
Site Ecology
and Site Analysis 1.3. Design with Materials: Properties
Assessment
Selection
Planning
and Sustainability Section 2: Schematic Design: Planning & Priorities 2.0. Schematic Design
Planning
and Priorities for Integrating Technology 2.1. Programming
Zoning
and Parti 2.2. Building Relationship to Environment: Passive Ventilation and Daylighting 2.3. Material Properties: Timber
Masonry
Metal
Glass
Concrete
and Composites 2.4. Structural Schematics: Shaping Form
Space
& Order 2.5. Structural Systems: Principles of Support
Framing
& Force Flow 2.6. Circulation: Life Safety
Accessibility
and Vertical Transport Section 3: Design Development: Putting it Together 3.0. Strategies for Integrated Development 3.1. Evaluating Structures: Understanding Strength
Stiffness
Suitability
and Stability 3.2. Structural Materials & Assemblies: Load Grounders
Collectors
and Stabilizers 3.3. Building Enclosure: Envelope and Curtain Walls 3.4. Interior Finish Materials: Walls
Ceilings
and Floors 3.5. Mechanical
Electrical
and Plumbing Systems 3.6. Sensory Environments: Acoustics and Lighting Section 4: Advanced Integration: Designing for Performance 4.0. Performance and Integration 4.1. Detailing: Fit
Organization
Consistency
Robustness
Durability
and Finish 4.2. Long Span Structures: Trusses
Shells
& Lightweight Structural Systems 4.3. High Rise Structures 4.4. High-Performance Buildings: Principles of Passive House and Net-Zero Design
Section 1: Pre-Design: First Principles of Integrating Design Technology 1.0. Design Values and Purposeful Integration of Building Technology 1.1. Design for People: Anthropomorphics and Comfort 1.2. Design for Place: Climatology
Solar Geometry
Site Ecology
and Site Analysis 1.3. Design with Materials: Properties
Assessment
Selection
Planning
and Sustainability Section 2: Schematic Design: Planning & Priorities 2.0. Schematic Design
Planning
and Priorities for Integrating Technology 2.1. Programming
Zoning
and Parti 2.2. Building Relationship to Environment: Passive Ventilation and Daylighting 2.3. Material Properties: Timber
Masonry
Metal
Glass
Concrete
and Composites 2.4. Structural Schematics: Shaping Form
Space
& Order 2.5. Structural Systems: Principles of Support
Framing
& Force Flow 2.6. Circulation: Life Safety
Accessibility
and Vertical Transport Section 3: Design Development: Putting it Together 3.0. Strategies for Integrated Development 3.1. Evaluating Structures: Understanding Strength
Stiffness
Suitability
and Stability 3.2. Structural Materials & Assemblies: Load Grounders
Collectors
and Stabilizers 3.3. Building Enclosure: Envelope and Curtain Walls 3.4. Interior Finish Materials: Walls
Ceilings
and Floors 3.5. Mechanical
Electrical
and Plumbing Systems 3.6. Sensory Environments: Acoustics and Lighting Section 4: Advanced Integration: Designing for Performance 4.0. Performance and Integration 4.1. Detailing: Fit
Organization
Consistency
Robustness
Durability
and Finish 4.2. Long Span Structures: Trusses
Shells
& Lightweight Structural Systems 4.3. High Rise Structures 4.4. High-Performance Buildings: Principles of Passive House and Net-Zero Design
Solar Geometry
Site Ecology
and Site Analysis 1.3. Design with Materials: Properties
Assessment
Selection
Planning
and Sustainability Section 2: Schematic Design: Planning & Priorities 2.0. Schematic Design
Planning
and Priorities for Integrating Technology 2.1. Programming
Zoning
and Parti 2.2. Building Relationship to Environment: Passive Ventilation and Daylighting 2.3. Material Properties: Timber
Masonry
Metal
Glass
Concrete
and Composites 2.4. Structural Schematics: Shaping Form
Space
& Order 2.5. Structural Systems: Principles of Support
Framing
& Force Flow 2.6. Circulation: Life Safety
Accessibility
and Vertical Transport Section 3: Design Development: Putting it Together 3.0. Strategies for Integrated Development 3.1. Evaluating Structures: Understanding Strength
Stiffness
Suitability
and Stability 3.2. Structural Materials & Assemblies: Load Grounders
Collectors
and Stabilizers 3.3. Building Enclosure: Envelope and Curtain Walls 3.4. Interior Finish Materials: Walls
Ceilings
and Floors 3.5. Mechanical
Electrical
and Plumbing Systems 3.6. Sensory Environments: Acoustics and Lighting Section 4: Advanced Integration: Designing for Performance 4.0. Performance and Integration 4.1. Detailing: Fit
Organization
Consistency
Robustness
Durability
and Finish 4.2. Long Span Structures: Trusses
Shells
& Lightweight Structural Systems 4.3. High Rise Structures 4.4. High-Performance Buildings: Principles of Passive House and Net-Zero Design