Alle Infos zum eBook verschenken
- Format: ePub
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Hier können Sie sich einloggen
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei bücher.de, um das eBook-Abo tolino select nutzen zu können.
By presenting the basics of building science along with a prescribed set of details, Designing the Exterior Wall helps you understand why buildings fail and how they can be made more durable through design. Author Linda Brock connects the science and aesthetics of building envelopes through the examination of a variety of construction and cladding types. She features details from real world projects in a variety of climates, successful and unsuccessful case studies, and checklists you can use on your own projects. * Helps you reduce your liability by showing why building envelopes fail and how…mehr
- Geräte: eReader
- mit Kopierschutz
- eBook Hilfe
- Größe: 23.39MB
- Frank MelendezDrawing from the Model (eBook, ePUB)59,99 €
- Brady PetersComputing the Environment (eBook, ePUB)44,99 €
- Michelle CottrellGuide to the LEED Green Associate V4 Exam (eBook, ePUB)64,99 €
- American Institute Of ArchitectsThe Architect's Handbook of Professional Practice (eBook, ePUB)226,99 €
- 7groupThe Integrative Design Guide to Green Building (eBook, ePUB)82,99 €
- Nikolaos HatzitrifonHistory of timber-framed walls in the Southern Balkans and Anatolia (eBook, ePUB)15,99 €
- Stephen EmmittArchitectural Technology (eBook, ePUB)44,99 €
-
-
-
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 400
- Erscheinungstermin: 17. November 2015
- Englisch
- ISBN-13: 9781119139706
- Artikelnr.: 44219382
- Verlag: John Wiley & Sons
- Seitenzahl: 400
- Erscheinungstermin: 17. November 2015
- Englisch
- ISBN-13: 9781119139706
- Artikelnr.: 44219382
Chapter 1: Decisions That Affect the Exterior Wall. 1.1 Introduction to the
Building Envelope. 1.2 Decisions Affecting Aesthetics, Function,
Durability, and the Budget. 1.3 Climate and the Exterior Wall. 1.4 Function
of the Exterior Wall. 1.5 Cladding Systems. 1.6 "Whole-Wall" Design. 1.7
Selecting and Positioning the Barriers and Retarders. CHECKLIST:
Preliminary Design Information and Decisions. Chapter 2: Water Barriers and
Flashings. 2.1 Managing Water. 2.2 Water Management Systems. 2.3 Selecting
the Right Water Management System. 2.4 Water Barriers and Their Placement.
2.5 Installation. 2.6 Flashings. 2.7 Testing and Measuring Water Leakage.
2.8 Quick Notes: Water Ingress. Chapter 3: Air Barrier Systems, Vapor
Retarders, and Insulation. 3.1 Stopping Air and Controlling Thermal and
Vapor Transfer. 3.2 Air Movement: Loss of Conditioned and Vapor-Laden Air.
3.3 Vapor Transmission by Diffusion. 3.4 Heat Transfer by Conduction And
Radiation. Chapter 4: Sealant Joints. 4.1 Structural Forces and
Differential Movement. 4.2 Expansion and Control Joints. 4.3 Joint Design.
4.4 Construction Tolerances. 4.5 Joint Components. 4.6 Installation of
Liquid Sealants. 4.7 Maintenance. 4.8 Testing Sealants. 4.9 Quick Notes:
Sealant Joints. CHECKLIST: Selecting and Positioning Barriers and
Retarders. PART II: DETAILING FOR DURABILITY. Chapter 5: Curtain Walls. 5.1
The Development of Curtain Walls. 5.2 Aluminum Glass Curtain Walls. 5.3
Metal- and Stone-Panel Curtain Walls. 5.4 Designing Curtain Walls with
Glass, Metal, and Stone Panels. 5.5 Case Study. 5.6 Precast Concrete and
Glass-Fiber Reinforced Concrete Panels. 5.7 How to Stay Out of Trouble When
Designing Curtain Walls. 5.8 References. Chapter 6: Anchored Brick Veneer.
6.1 Brick Veneer Anchored to the Steel-Stud Backup Walls of a Four- to
Twenty-Story Building. 6.2 Wall Type A: Brick Veneer Anchored To Steel-Stud
Backup. 6.3 Climate. 6.4 Is ABV/SS Risky Business? 6.5 Reducing Risk. 6.6
Repelling Water. 6.7 Accommodating Differential Movement with Expansion
Joints. 6.8 Designing Parapet Veneer Panels: A Special Case. 6.9
Supplemental Information On ABV/SS Components. 6.10 ABV Details. 6.11 Case
Study. 6.12 Other Systems. 6.13 References. Chapter 7 Exterior Insulation
Finish System (EIFS) and Concrete Masonry Walls. 7.1 Concrete Masonry
Walls. 7.2 Single-Wythe Concrete Masonry: Face-Sealed Barrier Wall. 7.3
Exterior Insulation Finish System (EIFS). 7.4 Wall Type B: EIFS with
Internal Drainage Plane on Concrete Masonry Wall. 7.5 EIFS Design. 7.6 EIFS
Installation. 7.7 Maintenance. 7.8 EIFS Concerns. 7.9 Details: EIFS. 7.10
EIFS over Light-Gauge Steel or Wood Stud Walls. 7.11 Case Study. 7.12 Case
Study. 7.13 References. Chapter 8: Wood-Frame Construction, Stucco, and
Fiber-Cement Siding. 8.1 Wood-Frame Construction. 8.2 Stucco. 8.3 Wall Type
C: Three-Coat Stucco on Wood Frame with Internal Drainage Plane. 8.4 Stucco
Design. 8.5 Stucco Application. 8.6 Maintenance. 8.7 Concerns with Stucco.
8.8 Details: Stucco. 8.9 Fiber-Cement Cladding. 8.10 Wall Type D:
Fiber-Cement Board Siding with Drainage Cavity. 8.11 Fiber-Cement Siding
Design. 8.12 Fiber-Cement Siding Installation. 8.13 Maintenance. 8.14
Concerns with Fiber-Cement Claddings. 8.15 Details: Fiber-Cement Siding.
8.16 Case Study. 8.17 References. PART III: ADVANCING THE ENVELOPE. Chapter
9: Terra-Cotta, EIFS, Stone, and Brick: Are They Durable? 9.1 Truth In
Materials. 9.2 The Great Impostors: EIFS and Terra-Cotta. 9.3 Aesthetics
and Durability: Can You Have Both with Carrara Marble? 9.4 Build It Right
The First Time or Repair It Quickly: Anchored Brick Veneer Failures.
Chapter 10: Architect's Design Kit: Form, Surface, Color, and Thick and
Thin Walls. 10.1 The Exterior Wall. 10.2 Aesthetic Kit: Form, Surface, and
Color. 10.3 Westin New York at Times Square. 10.4 Experience Music Project,
Seattle, Gehry Partners. 10.5 Comparisons: Mondrian Planes and Swoopy
Forms. 10.6 Functional Kit: Thick and Thin Walls. 10.7 Vitra Conference
Pavilion: Thicker Walls in Germany. 10.8 San Francisco Museum of Modern
Art: Thin Brick That Works. 10.9 Are Two Walls Better than One? 10.10
Seattle Justice Center. Chapter 11: Wood-Frame Construction: Designing for
the Climate and the Future. 11.1 Durability--The Linchpin of
Sustainability. 11.2 Vancouver, British Columbia: "The Look That Didn't
Last". 11.3 Seattle: "When It Rains, It Pours In". 11.4 What Can Be Learned
from the Leaky Condos? 11.5 How To Do It Right: Two Countries, Two
Climates, and Two Solutions. 11.6 Home 2000 and Winter Rains of Vancouver,
British Columbia. 11.7 KST-Hokkaido House and Heavy Snow Loads of Northern
Japan. 11.8 What Can Be Learned from the Two Houses? Appendix A:
Hygrothermal Maps. Appendix B: Building Form. Notes. Bibliography and
Resources. Index.
Chapter 1: Decisions That Affect the Exterior Wall. 1.1 Introduction to the
Building Envelope. 1.2 Decisions Affecting Aesthetics, Function,
Durability, and the Budget. 1.3 Climate and the Exterior Wall. 1.4 Function
of the Exterior Wall. 1.5 Cladding Systems. 1.6 "Whole-Wall" Design. 1.7
Selecting and Positioning the Barriers and Retarders. CHECKLIST:
Preliminary Design Information and Decisions. Chapter 2: Water Barriers and
Flashings. 2.1 Managing Water. 2.2 Water Management Systems. 2.3 Selecting
the Right Water Management System. 2.4 Water Barriers and Their Placement.
2.5 Installation. 2.6 Flashings. 2.7 Testing and Measuring Water Leakage.
2.8 Quick Notes: Water Ingress. Chapter 3: Air Barrier Systems, Vapor
Retarders, and Insulation. 3.1 Stopping Air and Controlling Thermal and
Vapor Transfer. 3.2 Air Movement: Loss of Conditioned and Vapor-Laden Air.
3.3 Vapor Transmission by Diffusion. 3.4 Heat Transfer by Conduction And
Radiation. Chapter 4: Sealant Joints. 4.1 Structural Forces and
Differential Movement. 4.2 Expansion and Control Joints. 4.3 Joint Design.
4.4 Construction Tolerances. 4.5 Joint Components. 4.6 Installation of
Liquid Sealants. 4.7 Maintenance. 4.8 Testing Sealants. 4.9 Quick Notes:
Sealant Joints. CHECKLIST: Selecting and Positioning Barriers and
Retarders. PART II: DETAILING FOR DURABILITY. Chapter 5: Curtain Walls. 5.1
The Development of Curtain Walls. 5.2 Aluminum Glass Curtain Walls. 5.3
Metal- and Stone-Panel Curtain Walls. 5.4 Designing Curtain Walls with
Glass, Metal, and Stone Panels. 5.5 Case Study. 5.6 Precast Concrete and
Glass-Fiber Reinforced Concrete Panels. 5.7 How to Stay Out of Trouble When
Designing Curtain Walls. 5.8 References. Chapter 6: Anchored Brick Veneer.
6.1 Brick Veneer Anchored to the Steel-Stud Backup Walls of a Four- to
Twenty-Story Building. 6.2 Wall Type A: Brick Veneer Anchored To Steel-Stud
Backup. 6.3 Climate. 6.4 Is ABV/SS Risky Business? 6.5 Reducing Risk. 6.6
Repelling Water. 6.7 Accommodating Differential Movement with Expansion
Joints. 6.8 Designing Parapet Veneer Panels: A Special Case. 6.9
Supplemental Information On ABV/SS Components. 6.10 ABV Details. 6.11 Case
Study. 6.12 Other Systems. 6.13 References. Chapter 7 Exterior Insulation
Finish System (EIFS) and Concrete Masonry Walls. 7.1 Concrete Masonry
Walls. 7.2 Single-Wythe Concrete Masonry: Face-Sealed Barrier Wall. 7.3
Exterior Insulation Finish System (EIFS). 7.4 Wall Type B: EIFS with
Internal Drainage Plane on Concrete Masonry Wall. 7.5 EIFS Design. 7.6 EIFS
Installation. 7.7 Maintenance. 7.8 EIFS Concerns. 7.9 Details: EIFS. 7.10
EIFS over Light-Gauge Steel or Wood Stud Walls. 7.11 Case Study. 7.12 Case
Study. 7.13 References. Chapter 8: Wood-Frame Construction, Stucco, and
Fiber-Cement Siding. 8.1 Wood-Frame Construction. 8.2 Stucco. 8.3 Wall Type
C: Three-Coat Stucco on Wood Frame with Internal Drainage Plane. 8.4 Stucco
Design. 8.5 Stucco Application. 8.6 Maintenance. 8.7 Concerns with Stucco.
8.8 Details: Stucco. 8.9 Fiber-Cement Cladding. 8.10 Wall Type D:
Fiber-Cement Board Siding with Drainage Cavity. 8.11 Fiber-Cement Siding
Design. 8.12 Fiber-Cement Siding Installation. 8.13 Maintenance. 8.14
Concerns with Fiber-Cement Claddings. 8.15 Details: Fiber-Cement Siding.
8.16 Case Study. 8.17 References. PART III: ADVANCING THE ENVELOPE. Chapter
9: Terra-Cotta, EIFS, Stone, and Brick: Are They Durable? 9.1 Truth In
Materials. 9.2 The Great Impostors: EIFS and Terra-Cotta. 9.3 Aesthetics
and Durability: Can You Have Both with Carrara Marble? 9.4 Build It Right
The First Time or Repair It Quickly: Anchored Brick Veneer Failures.
Chapter 10: Architect's Design Kit: Form, Surface, Color, and Thick and
Thin Walls. 10.1 The Exterior Wall. 10.2 Aesthetic Kit: Form, Surface, and
Color. 10.3 Westin New York at Times Square. 10.4 Experience Music Project,
Seattle, Gehry Partners. 10.5 Comparisons: Mondrian Planes and Swoopy
Forms. 10.6 Functional Kit: Thick and Thin Walls. 10.7 Vitra Conference
Pavilion: Thicker Walls in Germany. 10.8 San Francisco Museum of Modern
Art: Thin Brick That Works. 10.9 Are Two Walls Better than One? 10.10
Seattle Justice Center. Chapter 11: Wood-Frame Construction: Designing for
the Climate and the Future. 11.1 Durability--The Linchpin of
Sustainability. 11.2 Vancouver, British Columbia: "The Look That Didn't
Last". 11.3 Seattle: "When It Rains, It Pours In". 11.4 What Can Be Learned
from the Leaky Condos? 11.5 How To Do It Right: Two Countries, Two
Climates, and Two Solutions. 11.6 Home 2000 and Winter Rains of Vancouver,
British Columbia. 11.7 KST-Hokkaido House and Heavy Snow Loads of Northern
Japan. 11.8 What Can Be Learned from the Two Houses? Appendix A:
Hygrothermal Maps. Appendix B: Building Form. Notes. Bibliography and
Resources. Index.