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Introduction to Architectural Technology Third Edition [Pehme köide]

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  • Formaat: Paperback / softback, 224 pages, kõrgus x laius x paksus: 218x218x18 mm, kaal: 797 g, 440
  • Ilmumisaeg: 12-Aug-2021
  • Kirjastus: Laurence King Publishing
  • ISBN-10: 178627681X
  • ISBN-13: 9781786276810
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Introduction to Architectural Technology Third EditionSuurem pilt
  • Formaat: Paperback / softback, 224 pages, kõrgus x laius x paksus: 218x218x18 mm, kaal: 797 g, 440
  • Ilmumisaeg: 12-Aug-2021
  • Kirjastus: Laurence King Publishing
  • ISBN-10: 178627681X
  • ISBN-13: 9781786276810
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781786276810.html
Märksõnad:
Understanding the relationship between design and technology is critical to the understanding of architecture. This book clearly explains the core aspects of architectural technology: structural physics, structural elements and forms, heating, lighting, environmental control and computer modelling. The third edition includes six new case studies, more on structural types, new information on construction detailing, passive building principles and designing for different climatic conditions. This essential introduction to architecture will help students to integrate their design thinking with the appropriate structural and environmental solutions.

Arvustused

An important contributor to students' development and understanding of technology. * YAZID KHEMRI - BIRMINGHAM CITY UNIVERSITY *

Introduction 8(2)
Structure and Form
10(3)
Structural Physics
13(20)
Materials Science
14(1)
Forces
14(2)
Stress
Strain
Properties of Materials
16(2)
Strength
Stiffness and Flexibility
Reactions
18(2)
Bending
Shear
Structural Integrity
20(1)
Loads
20(2)
Live and Dead Loads
Lateral Loads
Bracing Torsion
Stability
22(2)
Anchorage Height
Centre of Gravity
Cantilever Principle
Materials Technology
24(1)
Stone
24(1)
Wood
25(1)
Steel
26(1)
Reinforced Concrete
27(1)
Glass
28(1)
Fabrics
29(1)
Fibre-Reinforced Plastic
30(1)
Sheet Materials
31(2)
Structural Elements
33(21)
Bearing Elements
34(1)
Bearing Walls
34(4)
Stacked Masonry
Composite Construction
36(2)
Columns
38(2)
Foundations
40(2)
Strip
Pad
Raft
Pile
Retaining Walls
Linear Spanning
42(1)
Elements Beam
42(4)
Cross-Sections
Linear Profiles
44(2)
Profiled Plate
46(2)
Reinforced-Concrete Slab
Profiled-Sheet
Composite
Wafer/Laminate
Multidirectional Spanning
48(2)
Elements
Reinforced-Concrete Slab
Coffer
Space Frame
Wafer/Laminate
Connections and Joints
50(4)
Dry
Joint
Stone
Nail
Screw
Bolt
Rivet
52(2)
Turnbuckle
Adhesives (Glue)
Welding
Brazing
Structural Logic
54(16)
Two-Dimensional Shapes
56(1)
Compressive Structures
56(4)
Post and Beam
A-Frame
Portal Frame
Arch
Vault
58(2)
Simple Dome
Two-Dimensional Shapes
60(1)
Tensile Structures
60(2)
Cable Stayed
Cable Hung
Synclastic Surfaces
62(1)
Compressive Structures
62(4)
Diamatic Dome
Lamella Dome
Geodesic Dome
64(2)
Anticlastic Surfaces
66(1)
Compressive Structures
66(1)
Thin Shell
Tensile Structures
66(2)
Membrane
Cable Net
Tensile Surfaces
68(1)
Tensegrity Structures
68(2)
Climate and Shelter
70(3)
Human Comfort
73(6)
Thermal Comfort
74(2)
Solar Geometry
76(3)
Building Performance
79(44)
Climatic Envelope
80(1)
Thermal Mass
80(2)
Thermal Insulation
82(2)
Air Movement
84(4)
Natural Ventilation
Passive Control
86(2)
Climate Zones
88(2)
Weathering
90(14)
Windows and Glazing
Masonry
92(2)
Cladding Systems
94(2)
Membranes
96(2)
Bonded Surfaces
98(2)
Construction Details I
100(2)
Construction Details II
102(2)
Sound and Light
104(1)
Acoustics
104(4)
Properties of Sound
Acoustic Control
106(2)
Daylight
108(2)
Building Services
110(1)
Heating
110(2)
Mechanical Ventilation
112(2)
Air-Conditioning
114(4)
Principles
Systems
116(2)
Integrated Systems
118(2)
Sanitation
120(3)
Computational Tools and Techniques
123(9)
Building Information Modelling
124(2)
Structural Analysis
126(2)
Form Finding
Finite Element Analysis
Environmental Analysis
128(4)
Thermal
Daylight
Air Movement
130(2)
Acoustic
Case Studies
132(69)
Mud House
134(2)
Tepee
136(2)
Igloo
138(2)
Obelisk
140(2)
The Pantheon
142(2)
The Ironbridge
144(2)
The Bell Rock Lighthouse
146(2)
The Crystal Palace
148(2)
Clifton Suspension Bridge
150(2)
Tropical House
152(2)
(Pavilion Demontable) Kresge Auditorium
154(2)
Palazzetto Dello Sport
156(2)
Church of Jesus Christ the Worker
158(2)
The Houston Astrodome
160(2)
The German Pavilion
162(2)
The USA Pavilion
164(2)
Self-Build House
166(2)
Sydney Opera House
168(2)
HSBC Headquarters
170(2)
The Pavilion of the Future
172(2)
The Portugal Pavilion
174(2)
The Lord's Media Centre
176(2)
Leaning Tower of Pisa: Remedial Works
178(2)
30St Mary Axe
180(2)
`D' Tower
182(2)
Davies Alpine House
184(2)
International Space Station
186(2)
Mapungubwe Interpretive Centre
188(2)
Media-ICT
190(2)
Stedelijk Museum Extension
192(2)
Glass Lantern, Apple Zorlu
194(2)
432 Park Avenue
196(2)
Grandview Heights Aquatic Centre
198(3)
Building Codes
201(7)
Rules Governing Construction Technology: UK
202(2)
World Commission on Environment and Development (WCED) Guidelines on Sustainable Construction
204(1)
European Guidelines on Sustainable Construction
205(1)
Rules Governing Construction Technology: US/Green Building Rating System
206(2)
Timeline: Evolution of Structural Form 208(2)
Glossary 210(3)
Further Reading and Resources 213(3)
Index 216(8)
Picture Credits 224(1)
Acknowledgements 224
Pete Silver and Will McLean teach at the School of Architecture and Cities at the University of Westminster and are the co-authors of Structural Engineering for Architects (2014) and Air Structures (2015).