Bamboo construction
Bamboo can be utilized as a building material as for scaffolding, bridges and houses. Bamboo, like true wood, is a natural composite material with a high strength-to-weight ratio useful for structures.[1] Bamboo has a higher compressive strength than wood, brick or concrete and a tensile strength that rivals steel.[2][3]
Bamboos are some of the fastest-growing plants in the world,[4] due to a unique rhizome-dependent system. Certain species of bamboo can grow 35 inches within a 24-hour period, at a rate of 0.00003 km/h (a growth of approximately 1 millimeter (or 0.02 inches) every 2 minutes).[5]
As a building material
In its natural form, bamboo as a construction material is traditionally associated with the cultures of South Asia, East Asia and the South Pacific, to some extent in Central and South America, and by extension in the aesthetic of Tiki culture. In China and India, bamboo was used to hold up simple suspension bridges, either by making cables of split bamboo or twisting whole culms of sufficiently pliable bamboo together. One such bridge in the area of Qian-Xian is referenced in writings dating back to 960 AD and may have stood since as far back as the third century BC, due largely to continuous maintenance.
Bamboo has also long been used as scaffolding; the practice has been banned in China for buildings over six stories, but is still in continuous use for skyscrapers in Hong Kong.[6] In the Philippines, the nipa hut is a fairly typical example of the most basic sort of housing where bamboo is used; the walls are split and woven bamboo, and bamboo slats and poles may be used as its support. In Japanese architecture, bamboo is used primarily as a supplemental and/or decorative element in buildings such as fencing, fountains, grates and gutters, largely due to the ready abundance of quality timber.[7]
Various structural shapes may be made by training the bamboo to assume them as it grows. Squared sections of bamboo are created by compressing the growing stalk within a square form. Arches may similarly be created by forcing the bamboo's growth into the desired form, costing much less than it would to obtain the same shape with regular wood timber. More traditional forming methods, such as the application of heat and pressure, may also be used to curve or flatten the cut stalks.[8]
Bamboo can be cut and laminated into sheets and planks. This process involves cutting stalks into thin strips, planing them flat, and boiling and drying the strips; they are then glued, pressed and finished.[9] Long used in China and Japan, entrepreneurs started developing and selling laminated bamboo flooring in the West during the mid-1990s;[9] products made from bamboo laminate, including flooring, cabinetry, furniture and even decorations, are currently surging in popularity, transitioning from the boutique market to mainstream providers such as Home Depot. The bamboo goods industry (which also includes small goods, fabric, etc.) is expected to be worth $25 billion by 2012.[10] The quality of bamboo laminate varies among manufacturers and varies according to the maturity of the plant from which it was harvested (six years being considered the optimum); the sturdiest products fulfill their claims of being up to three times harder than oak hardwood while others may be softer than standard hardwood.[9]
Bamboo intended for use in construction should be treated to resist insects and rot. The most common solution for this purpose is a mixture of borax and boric acid. Another process involves boiling cut bamboo to remove the starches that attract insects.[9]
Bamboo has been used as reinforcement for concrete in those areas where it is plentiful, though dispute exists over its effectiveness in the various studies done on the subject. Bamboo does have the necessary strength to fulfil this function, but untreated bamboo will swell with water absorbed from the concrete, causing it to crack. Several procedures must be followed to overcome this shortcoming.[11]
Several institutes, businesses, and universities are researching the use of bamboo as an ecological construction material. In the United States and France, it is possible to get houses made entirely of bamboo, which are earthquake- and cyclone-resistant and internationally certified. In Bali, Indonesia, an international K-12 school, the Green School, is constructed entirely of bamboo, for its beauty and advantages as a sustainable resource. There are three ISO standards for bamboo as a construction material.
In parts of India, bamboo is used for drying clothes indoors, both as a rod high up near the ceiling to hang clothes on, and as a stick wielded with acquired expert skill to hoist, spread, and to take down the clothes when dry. It is also commonly used to make ladders, which apart from their normal function, are also used for carrying bodies in funerals. In Maharashtra, the bamboo groves and forests are called Veluvana, the name velu for bamboo is most likely from Sanskrit, while vana means forest.
Furthermore, bamboo is also used to create flagpoles for saffron-coloured, Hindu religious flags, which can be seen fluttering across India, especially in Bihar and Uttar Pradesh, as well as in Guyana and Suriname in South America.
Bamboo was used for the structural members of the India pavilion at Expo 2010 in Shanghai. The pavilion is the world’s largest bamboo dome, about 34 m (112 ft) in diameter, with bamboo beams/members overlaid with a ferro-concrete slab, waterproofing, copper plate, solar PV panels, a small windmill, and live plants. A total of 30 km (19 mi) of bamboo was used. The dome is supported on 18-m-long steel piles and a series of steel ring beams. The bamboo was treated with borax and boric acid as a fire retardant and insecticide and bent in the required shape. The bamboo sections were joined with reinforcement bars and concrete mortar to achieve the necessary lengths.[12]
Cultivation
Commercial timber
Timber is harvested from both cultivated and wild stands, and some of the larger bamboos, particularly species in the genus Phyllostachys, are known as "timber bamboos".
Harvesting
Bamboo used for construction purposes must be harvested when the culms reach their greatest strength and when sugar levels in the sap are at their lowest, as high sugar content increases the ease and rate of pest infestation.
Harvesting of bamboo is typically undertaken according to the following cycles:
1) Life cycle of the culm: As each individual culm goes through a 5– to 7-year life cycle, culms are ideally allowed to reach this level of maturity prior to full capacity harvesting. The clearing out or thinning of culms, particularly older decaying culms, helps to ensure adequate light and resources for new growth. Well-maintained clumps may have a productivity three to four times that of an unharvested wild clump. Consistent with the life cycle described above, bamboo is harvested from two to three years through to five to seven years, depending on the species.
2) Annual cycle: As all growth of new bamboo occurs during the wet season, disturbing the clump during this phase will potentially damage the upcoming crop. Also during this high rainfall period, sap levels are at their highest, and then diminish towards the dry season. Picking immediately prior to the wet/growth season may also damage new shoots. Hence, harvesting is best a few months prior to the start of the wet season.
3) Daily cycle: During the height of the day, photosynthesis is at its peak, producing the highest levels of sugar in sap, making this the least ideal time of day to harvest. Many traditional practitioners believe the best time to harvest is at dawn or dusk on a waning moon.
Additional images
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Bamboo has long been used as an assembly material in Hong Kong because of its versatility
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A bamboo and palm thatch house in Ecuador
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Chakma woman weaving on balcony of bamboo house, Chittagong Hill Tracts
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A bamboo house in Indonesia
See also
- Media related to Bamboo houses at Wikimedia Commons
- Bamboo bicycle
- Bamboo textiles
References
- ↑ Lakkad; Patel (June 1981). "Mechanical properties of bamboo, a natural composite". Fibre Science and Technology 14 (4): 319–322. doi:10.1016/0015-0568(81)90023-3.
- ↑ The Bamboo Solution: Tough as steel, sturdier than concrete, full-size in a year. Mary Roach. Discover Magazine. 1 June 1996. Retrieved 7 December 2013.
- ↑ Mechanical Properties of Bamboo. Evelin Rottke. RWTH Aachen University. Faculty of Architecture. Aachen, North Rhine-Westphalia, Germany. Section 3, page 11 and Section 4, page 11. 27 October 2002. Retrieved 7 December 2013.
- ↑ Farrelly, David (1984). The Book of Bamboo. Sierra Club Books. ISBN 0-87156-825-X.
- ↑ Guinness. "Fastest growing plant". Retrieved 22 August 2014.
- ↑ Landler, Mark (27 March 2002). "Hong Kong Journal; For Raising Skyscrapers, Bamboo Does Nicely". New York Times. Retrieved 12 August 2009.
- ↑ Nancy Moore Bess; Bibi Wein (1987). Bamboo In Japan. Kodansha International. p. 101. ISBN 4-7700-2510-6.
- ↑ Cassandra adams. "Bamboo Architecture and Construction with Oscar Hidalgo". Natural Building Colloquium. Retrieved 11 August 2009.
- 1 2 3 4 Michelle Nijhuis (June 2009). "Bamboo Boom: Is This Material for You?". Scientific American Earth 3.0 special. Scientific American. Retrieved 11 August 2009.
- ↑ Jonathan Bardelline (9 July 2009). "Growing the Future of Bamboo Products". GreenBiz.com. Retrieved 11 August 2009.
- ↑ Bamboo as a Building Material (PDF). Washington D.C.: US Department of Agriculture. 1981. pp. 7–11. Retrieved 11 August 2009.
- ↑ Soni, Dr. K M (2011). "India Pavilion at World Expo 2010". NBM Media. Retrieved 7 July 2011.
External links
Elora Hardy: Magical houses, made of bamboo at TED