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Building with Bamboo: Design and Technology of a Sustainable Architecture. Third and Revised Edition Third and revised edition [Kõva köide]

  • Formaat: Hardback, 176 pages, kõrgus x laius: 280x220 mm, kaal: 967 g, 539 col. ill., 529 col. img., 67 b/w and 10 col. ld - 67 Line drawings, black and white - 539 Illustrations, color - 529 Halftones, color - 10 Line drawings, color
  • Ilmumisaeg: 07-Nov-2022
  • Kirjastus: Birkhauser
  • ISBN-10: 3035625700
  • ISBN-13: 9783035625707
Teised raamatud teemal:
Building with Bamboo: Design and Technology of a Sustainable Architecture. Third and Revised Edition Third and revised editionSuurem pilt
  • Formaat: Hardback, 176 pages, kõrgus x laius: 280x220 mm, kaal: 967 g, 539 col. ill., 529 col. img., 67 b/w and 10 col. ld - 67 Line drawings, black and white - 539 Illustrations, color - 529 Halftones, color - 10 Line drawings, color
  • Ilmumisaeg: 07-Nov-2022
  • Kirjastus: Birkhauser
  • ISBN-10: 3035625700
  • ISBN-13: 9783035625707
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9783035625707.html
Märksõnad:

Bamboo: a versatile material

Traditionally a building material of the warmer climate zones, bamboo is becoming increasingly popular amongst architects in the northern hemisphere; bamboo has several advantages – it is very stable, of low weight, and highly elastic, in addition to being readily available as well as renewable. The applications of bamboo in architecture have diversified considerably, so that today, even structures with large spans – such as bridges – are built with this material. Renowned universities such as the ETH Zurich or the SUTD in Singapore have conducted research on engineered bamboo which will further expand its use. The third edition of this manual provides a systematic overview of the applications and processing methods of this renewable material. Recent inspiring bamboo buildings have been added.

  • Practical manual for building with bamboo
  • By a leading expert on ecological and sustainable construction
  • Third and revised edition with many new projects

Bamboo: a versatile material

Traditionally a building material of the warmer climate zones, bamboo is becoming increasingly popular amongst architects in the northern hemisphere; bamboo has several advantages – it is very stable, of low weight, and highly elastic, in addition to being readily available as well as renewable. The applications of bamboo in architecture have diversified considerably, so that today, even structures with large spans – such as bridges – are built with this material. Renowned universities such as the ETH Zurich or the SUTD in Singapore have conducted research on engineered bamboo which will further expand its use. The third edition of this manual provides a systematic overview of the applications and processing methods of this renewable material. Recent inspiring bamboo buildings have been added.

  • Practical manual for building with bamboo
  • By a leading expert on ecological and sustainable construction
  • Third and revised edition with many new projects

I The Technology of Bamboo Building
1 The Material
7(6)
Types of Bamboo
7(2)
Positive Environmental Effects
9(1)
Different Uses
10(3)
2 The Plant
13(2)
3 Cutting, Drying, Treatment and Storage
15(4)
Cutting
15(1)
Drying in the Bush
15(1)
Air Drying
16(1)
Microwave Drying
16(1)
Drying and Curing Using Heat
16(1)
Earth Curing
16(1)
Smoke Curing
16(1)
Cleaning the Surface
16(1)
Lime Protection
17(1)
Preservation by Flooding the Internodes
17(1)
Preservation by Immersion
17(1)
Preservation by Injection
18(1)
Preservation by Pressure
18(1)
Surface Bleaching
18(1)
Surface Protection
18(1)
Fire-Retardant Treatment
18(1)
Storage
18(1)
4 Physical Properties
19(5)
Introduction
19(1)
Resistance in Compression and Tension
20(3)
Modulus of Elasticity
23(1)
Performance in Fire
23(1)
Earthquake Resistance
23(1)
5 Building with Bamboo in Europe and North America
24(2)
Introduction
24(1)
Availability
24(1)
Statutory Regulations
25(1)
Fire Performance
25(1)
6 General Aspects of Construction
26(5)
Advantages and Disadvantages
26(1)
Selection of Bamboo Canes for Construction
27(2)
Incorrect and Correct Details
29(2)
7 Basic Construction Elements
31(5)
Canes, Planks, Strips, Laths and Belts
31(1)
Laminated Elements
31(3)
Engineering Bamboo
34(1)
Structural Bamboo Products
34(2)
8 Tools and Their Uses
36(3)
9 Joints
39(8)
10 Constructive Elements and Systems
47(21)
Columns
47(2)
Beams, Trusses and Porticos
49(3)
Arches
52(3)
Floor Slabs and Roofs
55(2)
Walls
57(1)
Vaults
57(1)
Domes
58(3)
Hyperbolic Paraboloids
61(2)
Bamboo-Supported Membrane Roofs
63(3)
Space Frames
66(2)
11 Complementary Elements
68(5)
Floors and False Ceilings
68(3)
Handrails, Balconies and Stairs
71(1)
Doors and Windows
71(2)
12 Reinforcing with Bamboo
73(5)
Cement Mortar Reinforced with Bamboo Fibres
73(1)
Concrete Elements Reinforced with Bamboo Canes
73(1)
Further Experiments with Bamboo-Reinforced Concrete
73(2)
Earth Walls Reinforced with Bamboo
75(3)
II Built Examples
Residences
Guesthouse, Ubud, Bali, Indonesia
78(2)
Casa Cohuatichan, Cuetzalan, Mexico
80(2)
Stepped House, El Darien, Valle, Colombia
82(2)
Colibrf House, Cali, Colombia
84(2)
House in Sadhrana, Haryana, India
86(2)
Low-Energy Bamboo House, Rotselaar, Belgium
88(2)
Prefabricated Bamboo Houses, Hawaii, USA
90(2)
Sharma Springs Residence, Sibang Gede, Bali, Indonesia
92(2)
Blooming Bamboo Home, Cau Dien Town, Hanoi, Vietnam
94(2)
Cultural, Educational and Hospitality Buildings
Kindergarten and Community Centre, Naiju, Japan
96(2)
Temporary Church, Pereira, Risaralda, Colombia
98(2)
School, Rudrapur, Bangladesh
100(4)
Nomadic Museum, Mexico City, Mexico
104(2)
Green School Bali, Sibajang Kaja Badung, Bali, Indonesia
106(2)
Son La Restaurant, Son La, Vietnam
108(4)
Naman Beach Bar, Danang, Vietnam
112(4)
Luum Temple, Tulum, Mexico
116(4)
Vedana Restaurant, Cuc Phuong, Vietnam
120(4)
The Arc, Green School Bali, Sibajang Kaja Badung, Indonesia
124(4)
Dining Hall, Green School Bali, Sibajang Kaja Badung, Indonesia
128(2)
Commercial Buildings and Infrastructure
Multi-Storey Car Park Facade, Leipzig, Germany
130(2)
Office Building, Darmstadt, Germany
132(2)
Tollgate, Pereira, Colombia
134(2)
Jewellery Factory, Ubud, Bali, Indonesia
136(2)
Footbridge, Cucuta, Norte de Santander, Colombia
138(2)
Pavilions and Experimental Structures
ZERI Pavilion, EXPO 2000, Hanover, Germany
140(2)
Pavilion, Vergiate, Italy
142(2)
Restaurant Roof, Coburg, Germany
144(2)
Exposition Roof, Cologne, Germany
146(2)
Pavilions for the "German Esplanade", Chongquing, Guangzhou, Shenyang and Wuhan, China
148(2)
Indian Pavilion, EXPO 2010, Shanghai, China
150(2)
Vietnamese Pavilion, EXPO 2010, Shanghai, China
152(2)
German-Chinese House, EXPO 2010, Shanghai, China
154(2)
Bamboo Canopy and Pavilions, Perfomance Space
"Impression Sanjie Liu", Yangshuo, Guilin, China
156(4)
Digital Bamboo Pavilion, Venice Biennale, Italy
160(2)
Canopy at Terra Botanica Park, Angers, France
162(4)
Bibliography 166(3)
About the Author 169(1)
Acknowledgements 169(1)
Index 170(3)
Illustration Credits 173
Prof. Dr. Gernot Minke, emeritierter Professor an der Universität Kassel.

Prof. Dr. Gernot Minke, Professor Emeritus at the University of Kassel, Germany