Natural building

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A small cob building with a living roof Cob with living roof.jpg
A small cob building with a living roof
Porch of a modern timber framed home Timber frame detail.jpg
Porch of a modern timber framed home

Natural building or ecological building is a discipline within the more comprehensive scope of green building, sustainable architecture as well as sustainable and ecological design that promotes the construction of buildings using sustainable processes and locally available natural materials. [1]

Contents

This in turn implies durability and the use of minimally processed, plentiful or renewable resources, as well as those that, while recycled or salvaged, produce healthy living environments and maintain indoor air quality. Natural building tends to rely on human labor, more than technology. As Michael G. Smith observes, it depends on "local ecology, geology and climate; on the character of the particular building site, and on the needs and personalities of the builders and users." [2]

The basis of natural building is the need to lessen the environmental impact of buildings and other supporting systems, without sacrificing comfort or health. To be more sustainable, natural building uses primarily abundantly available, renewable, reused or recycled materials. The use of rapidly renewable materials is increasingly a focus. In addition to relying on natural building materials, the emphasis on the architectural design is heightened. The orientation of a building, the utilization of local climate and site conditions, the emphasis on natural ventilation through design, fundamentally lessen operational costs and positively impact the environment. Building compactly and minimizing the ecological footprint is common, as are on-site handling of energy acquisition, on-site water capture, alternate sewage treatment and water reuse.

Materials

The materials common to many types of natural building are clay and sand. When mixed with water and, usually, straw or another fiber, the mixture may form cob or adobe (clay blocks). Other materials commonly used in natural building are: earth (as rammed earth or earth bag), wood (cordwood or timber frame/post-and-beam), straw, rice-hulls, bamboo and stone. A wide variety of reused or recycled materials are common in natural building, including urbanite (salvaged chunks of used concrete), vehicle windscreens and other recycled glass, which can be toxic in nature.[ citation needed ]

Other materials are avoided by practitioners of this building approach, due to their major negative environmental or health impacts. These include unsustainably harvested wood, toxic wood-preservatives, Portland cement-based mixes and derived products such as Autoclaved aerated concrete, paints and other coatings that off-gas volatile organic compounds (VOCs), steel, waste materials such as rubber tires in regions where they are recycled, and some plastics; particularly polyvinyl chloride (PVC or "vinyl") and those containing harmful plasticizers or hormone-mimicking formulations.[ citation needed ]

Earth techniques

Adobe

One of the oldest building methods, adobe is simply clay and sand mixed with water. Often, chopped straw or other fibers are added for strength. The mixture is then allowed to dry in the desired shape. Usually adobe is shaped into bricks that can be stacked to form walls. [3]

Various claims are made about the optimal proportions of clay and sand (or larger aggregate). Some say that the best adobe soil contains 15% - 30% clay to bind the material together. Others say equal proportions of clay and sand are best to prevent cracking or fragmenting of the bricks. The blocks can either be poured into molds and dried, or pressed into blocks. Adobe colored with clay and polished with natural oil makes an attractive and resilient floor. [4]

To protect the walls and reduce maintenance, adobe buildings usually have large overhanging eaves and sizeable foundations. Adobe can be plastered over with cob or lime-based mixes for both appearance and protection. Adobe has good thermal mass, meaning that it is slow to transmit heat or cold. It is not a good insulator, however, so insulation can be added (preferably on the outside), or a double wall built with airspace or insulation in between. The traditional thick, un-insulated adobe has proven to perform best in regions without harsh winters or where daily sun is predictably available during those cold periods.[ citation needed ]

Cob

The term cob is used to describe a monolithic building system based on a mixture of clay, sand, straw and earth. The construction uses no forms, bricks or wooden framework; it is built from the ground up. Various forms of "mud" building have been used in many parts of the world for centuries, under a variety of names, and date from at least 10,000 years ago. Cob building began use in England prior to the 13th century, and fell out of favor after World War I, although it is seeing a resurgence today. Cob is one of the simplest and least expensive building techniques available, though it is typically very labor-intensive. Cob's other great advantage is versatility; It can easily be shaped into any form. While cob building was falling out of favor in England by the late 19th century, thousands of cob structures have endured to the present (20,000 in Devon, England alone). [5] It is estimated that from one third to one half of the world's population lives in earthen dwellings today. Although typically associated with "low-rise" structures, in Yemen and other Middle-Eastern countries it has, for centuries, been used in "apartment" buildings of eight stories and more. [6]

Rammed earth

Rammed earth is a wall system made of compacted earth, or another material that is compacted. [7] It is extremely strong and durable. Quality rammed earth walls are dense, solid, and stone-like with great environmental benefits and superior low maintenance characteristics.[ citation needed ] As an option depending on climate rigid insulation can be placed inside the wall. Similarly, depending on seismic concerns bamboo or other tensile natural materials can be used to reinforce the wall.

Rammed earth has been used for around 10,000 years in all types of buildings from low rise to high-rise and from small huts to palaces. [8]

Rammed earth walls are formed in place by pounding damp sub-soil (containing sand, clay and sometimes gravel) into movable, reusable forms with manual or machine-powered tampers. In traditional rammed earth, a mixture of around 70% aggregate (gravel, sand) and 30% clay is optimal. Pigmentation may be added in the mix to achieve the desired color. Around 5-10 inches of mixed damp sub-soil are placed inside the forms and pounded to total compaction and the process is repeated until the desired height is achieved. What is left after the forms are removed is a wall that is structural and can last over 1000 years. [8]

Plant-based material techniques

Timber frame

The completed frame of a modern timber-frame home Timber frame.jpg
The completed frame of a modern timber-frame home

The basic elements of timber-frame buildingjoined timbers, clay walls and thatch roofs were in place in Europe and Asia by the 9th century. It remained the common mode of house construction in northern cultures until the 19th century. Craftsmanship was, and is, an important value in timber-frame building. The oldest timber-frame structures (for example, the timber framed stave churches of Scandinavia) show both craftsmanship and a strong grasp of the technical aspects of structural design, as do such structures in Japan.[ citation needed ]

Timber framing typically uses a "bent." A bent is a structural support, like a truss, consisting of two posts, a tie beam and two rafters. These are connected into a framework through joinery. To practice the craft, one must understand the basic structural aspects of the bent. This, along with a knowledge of joinery, are the basis of timber-frame building.[ citation needed ]

Timber framing is now a modern method of construction, Ideally suited to mass house building as well as public buildings. In conjunction with a number of natural insulations and timber cladding or modern lime renders, it is possible to quickly construct a high performance, sustainable building, using completely natural products. The benefits are manythe building performs better over its lifespan, waste is reduced (much can be re-cycled, composted or used as fuel). Timber-frame structures are frequently used in combination with other natural building techniques, such as cob, straw bale, or cordwood/masonry.[ citation needed ]

Bamboo

Bamboos are some of the fastest-growing plants in the world. Bamboo can be utilized as a building material for scaffolding, bridges, houses and buildings. Bamboo is a natural composite material with a high strength-to-weight ratio similar to timber, and its strength is generally similar to a strong softwood or hardwood timber. [9] In its natural form, bamboo as a construction material is traditionally associated with the cultures of South Asia, East Asia, the South Pacific, Central and South America.

Straw bale

Straw bale construction in Santa Cruz, CA Strawbaleconstruction.jpg
Straw bale construction in Santa Cruz, CA

Although grasses and straw have been in use in a range of ways in building since pre-history around the world, their incorporation in machine-manufactured modular bales seems to date back to the early 20th century in the midwestern United States, particularly the sand-hills of Nebraska, where grass was plentiful and other building materials (even quality sods) were not. Straw bale building typically consists of stacking a series of rows of bales (often in running-bond) on a raised footing or foundation, with a moisture barrier between. Bale walls are often tied together with pins of bamboo or wood (internal to the bales or on their faces), or with surface wire meshes, and then stuccoed or plastered using either lime-based formulations or earth/clay renders. Bale buildings can either have a structural frame of other materials, with bales between (simply serving as insulation and stucco substrate), referred to as "infill", or the bales may actually provide the support for openings and roof, referred to as "load-bearing" or "Nebraska-style", or a combination of framing and load-bearing may be employed, referred to a "hybrid" straw bale.[ citation needed ]

Typically, bales created on farms with mobile machinery have been used ("field-bales"), but recently higher-density "recompressed" bales (or "straw-blocks") are increasing the loads that may be supported; where field bales might support around 600 pounds per linear foot of wall, the high density bales bear up to 4,000 lb./lin.ft.

Composite techniques

Earthbag

Earth is the most typical fill material used in bag-wall construction techniques. This building method utilizes stacked polypropylene or natural-fiber (burlap) bags filled with earth or other mixes without a stabilizer, other than clay, to form footings, foundations, walls and even vaulted or domed roofs. In recent years, building with earth bags has become one of the increasingly practiced techniques in natural building. It facilitates self-contained, often free-form rammed-earth structures. Its growing popularity relates to its use of an abundant and readily available often site-available material (earth) in a potentially inexpensive building technique that is flexible, and easy to learn and use. However, because earth is a poor insulator, in more extreme climates other filler variations are now being explored, substituting pumice, rice-hulls or another material with better insulating value for all or part of the earth (see also Rice-hull bagwall construction).

Hempcrete

Hempcrete or Hemplime is a composite building material, a mixture of the chopped woody stem of the hemp plant known as hemp hurds (shives) and a lime based binder to create a material that can be cast into molds. This forms a non-load-bearing 'breathable' insulating material that can be used to form walls, floor slabs, ceilings and roof insulation. [10] It is marketed under names like Hempcrete, Canobiote, Canosmose, and Isochanvre. [11] Hempcrete is easier to work with than traditional lime mixes and acts as an insulator and moisture regulator. It lacks the brittleness of concrete and consequently does not need expansion joints. [11] The result is a lightweight insulating material ideal for most climates as it combines insulation and thermal mass.

Like other plant products, hemp absorbs CO2 from the atmosphere as it grows, retaining the carbon and releasing the oxygen. [12] Theoretically 165 kg of carbon can be absorbed and locked up by 1 m3 of hempcrete wall during manufacture. [13] Furthermore, the carbonation of the lime during curing adds to this effect as lime turns to limestone. [14]

The typical compressive strength is around 1 MPa, [15] around 1/20 that of residential grade concrete. It is a low density material and resistant to crack under movement thus making it highly suitable for use in earthquake-prone areas. Hempcrete walls must be used together with a frame of another material that supports the vertical load in building construction, as hempcrete's density is 15% that of traditional concrete. [16]

Cordwood

A section of a cordwood home Cordwoodhouse.jpg
A section of a cordwood home

Cordwood construction is a natural building method in which "cordwood" or short lengths of pieces of debarked tree are laid up crosswise with masonry or cob mixtures to build a wall. The cordwood, thus, becomes infill for the walls, usually between posts in a timber frame structure. Cordwood masonry can be combined with other methods (e.g., rammed earth, cob or light clay) to produce attractive combinations. Cordwood masonry construction provides a relatively high thermal mass, which helps to minimize fluctuations in temperature. [17]

Stone

Stone has been used as a building material for thousands of years. It has long been recognized as a material of great durability. The pyramids in Giza, burial chambers in the UK and temples in Malta were all built from stone over 4000 years ago and are still standing. The earliest form of stone construction is known as dry stone, or dry stacking. These are freestanding structures such as field walls, bridges and buildings that use irregularly shaped stones carefully selected and placed so that they fit closely together without slipping. Structures are typically wider at the base and taper in as height increases. They do not require any special tools, only the skill of the craftsman in choosing and placing the stones.

Traditional stone masonry evolved from dry stone stacking. Stone blocks are laid in rows of even (courses) or uneven (un-coursed) height, and fixed in place with lime mortar pasted between the stones. Traditional stone masonry is rarely used today because stone is expensive to quarry, cut and transport, and the building process is labor and skill-intensive.

Stone is a highly durable, low maintenance building material with high thermal mass. It is versatile, available in many shapes, sizes, colors and textures, and can be used for floors, walls, arches and roofs. Stone blends well with the natural landscape, and can easily be recycled for other building purposes.

See also

Notes

  1. Hopkins, R. 2002. A Natural Way of Building. Archived 2008-02-03 at the Wayback Machine Transition Culture. Retrieved: 2007-03-30.
  2. Smith, Michael G. "The Case for Natural Building," in Kennedy, Smith and Wanek (2002), 6.
  3. Chiras, Daniel D. (2000). The Natural House: A Complete Guide to Healthy, Energy-efficient, Environmental Homes. White River Junction, Vt.: Chelsea Green Pub. pp. 127–128. ISBN   978-1-890132-57-6.
  4. Gibson, Scott; Anthony, Paul (2003). The Workshop: Celebrating the Place Where Craftsmanship Begins. Newton, CT: Taunton Press. p. 172. ISBN   978-1-56158-575-5.
  5. Smith, Michael G. "Cob Building, Ancient and Modern," in Kennedy, Smith and Wanek, (2002), 132-133.
  6. Evans, Ianto (2002). The Hand-sculpted House. White River Junction, Vt.: Chelsea Green Pub. Co. p. xv. ISBN   978-1-890132-34-7.
  7. Pisé terminology
  8. 1 2 Jaquin, P. A.; Augarde, C. E.; Gerrard, C. M. (2006), Analysis of Historic Rammed Earth Cconstruction (PDF), Structural Analysis of Historical Constructions, New Delhi 2006
  9. Lakkad, S. C.; Patel, J. M. (1981-06-01). "Mechanical properties of bamboo, a natural composite". Fibre Science and Technology. 14 (4): 319–322. doi:10.1016/0015-0568(81)90023-3. ISSN   0015-0568.
  10. William Stanwix and Alex Sparrow. The Hempcrete Book, Green Books, 2014, ISBN   978-0-8578412-0-9. (p. 23, 1st Edition).
  11. 1 2 Priesnitz, Rolf B. (March–April 2006). "Hemp For Houses". Natural Life Magazine.
  12. Kuittinen, Matti; Zernicke, Caya; Slabik, Simon; Hafner, Annette (2021-03-11). "How can carbon be stored in the built environment? A review of potential options". Architectural Science Review: 1–17. doi:10.1080/00038628.2021.1896471. ISSN   0003-8628. S2CID   233617364.
  13. "Tradical Hemcrete 2008 Information Pack". American Lime Technology. Retrieved 2010-05-15.
  14. "Minoeco - Natural Plasters & Bioclimatic Design, Hempcrete".
  15. "Tradical Hemcrete 2008 Information Pack". American Lime Technology. Retrieved 2009-08-25.
  16. Flahiff, Daniel (August 24, 2009). "Hemcrete®: Carbon Negative Hemp Walls". Inhabitat.
  17. Chiras, Daniel D. (2000). The Natural House: A Complete Guide to Healthy, Energy-efficient, Environmental Homes. White River Junction, Vt.: Chelsea Green Pub. pp. 178–179. ISBN   978-1-890132-57-6.

Related Research Articles

<span class="mw-page-title-main">Adobe</span> Building material of earth and organic materials

Adobe is a building material made from earth and organic materials. Adobe is Spanish for mudbrick. In some English-speaking regions of Spanish heritage, such as the Southwestern United States, the term is used to refer to any kind of earthen construction, or various architectural styles like Pueblo Revival or Territorial Revival. Most adobe buildings are similar in appearance to cob and rammed earth buildings. Adobe is among the earliest building materials, and is used throughout the world.

<span class="mw-page-title-main">Straw-bale construction</span> Building method that uses bales of straw

Straw-bale construction is a building method that uses bales of straw as structural elements, building insulation, or both. This construction method is commonly used in natural building or "brown" construction projects. Research has shown that straw-bale construction is a sustainable method for building, from the standpoint of both materials and energy needed for heating and cooling.

<span class="mw-page-title-main">Cob (material)</span> Building material made of soil and fiber

Cob, cobb, or clom is a natural building material made from subsoil, water, fibrous organic material, and sometimes lime. The contents of subsoil vary, and if it does not contain the right mixture, it can be modified with sand or clay. Cob is fireproof, termite proof, resistant to seismic activity, and uses low-cost materials, although it is very labour intensive. It can be used to create artistic and sculptural forms, and its use has been revived in recent years by the natural building and sustainability movements.

<span class="mw-page-title-main">Building material</span> Material which is used for construction purposes

Building material is material used for construction. Many naturally occurring substances, such as clay, rocks, sand, wood, and even twigs and leaves, have been used to construct buildings and other structures, like bridges. Apart from naturally occurring materials, many man-made products are in use, some more and some less synthetic. The manufacturing of building materials is an established industry in many countries and the use of these materials is typically segmented into specific specialty trades, such as carpentry, insulation, plumbing, and roofing work. They provide the make-up of habitats and structures including homes.

<span class="mw-page-title-main">Rammed earth</span> Construction material of damp subsoil

Rammed earth is a technique for constructing foundations, floors, and walls using compacted natural raw materials such as earth, chalk, lime, or gravel. It is an ancient method that has been revived recently as a sustainable building method.

<span class="mw-page-title-main">Cordwood construction</span> Wall construction from pieces of wood bonded with mortar or clay

Cordwood construction is a term used for a natural building method in which short logs are piled crosswise to build a wall, using mortar or cob to permanently secure them. This technique can use local materials at minimal cost.

Earthbag construction is an inexpensive building method using mostly local soil to create structures which are both strong and can be quickly built.

<span class="mw-page-title-main">Loam</span> Soil composed of similar proportions of sand and silt, and somewhat less clay

Loam is soil composed mostly of sand, silt, and a smaller amount of clay. By weight, its mineral composition is about 40–40–20% concentration of sand–silt–clay, respectively. These proportions can vary to a degree, however, and result in different types of loam soils: sandy loam, silty loam, clay loam, sandy clay loam, silty clay loam, and loam.

This page is a list of construction topics.

The architecture of the California missions was influenced by several factors, those being the limitations in the construction materials that were on hand, an overall lack of skilled labor, and a desire on the part of the founding priests to emulate notable structures in their Spanish homeland. While no two mission complexes are identical, they all employed the same basic building style.

A natural material is any product or physical matter that comes from plants, animals, or the ground which is not man-made. Minerals and the metals that can be extracted from them are also considered to belong into this category. Natural materials are used as building materials and clothing. Types include:

<span class="mw-page-title-main">Earth structure</span> Building or other structure made largely from soil

An earth structure is a building or other structure made largely from soil. Since soil is a widely available material, it has been used in construction since prehistory. It may be combined with other materials, compressed and/or baked to add strength.

<span class="mw-page-title-main">Compressed earth block</span> Building material

A compressed earth block (CEB), also known as a pressed earth block or a compressed soil block, is a building material made primarily from an appropriate mix of fairly dry inorganic subsoil, non-expansive clay, sand, and aggregate. Forming compressed earth blocks requires dampening, mechanically pressing at high pressure, and then drying the resulting material. If the blocks are stabilized with a chemical binder such as Portland cement they are called compressed stabilized earth block (CSEB) or stabilized earth block (SEB). Typically, around 3,000 psi (21 MPa) of pressure is applied in compression, and the original material volume is reduced by about half.

<span class="mw-page-title-main">Building insulation material</span> Insulation material

Building insulation materials are the building materials that form the thermal envelope of a building or otherwise reduce heat transfer.

<span class="mw-page-title-main">Hempcrete</span> Biocomposite material used for construction and insulation

Hempcrete or hemplime is biocomposite material, a mixture of hemp hurds (shives) and lime, sand, or pozzolans, which is used as a material for construction and insulation. It is marketed under names like Hempcrete, Canobiote, Canosmose, Isochanvre and IsoHemp. Hempcrete is easier to work with than traditional lime mixes and acts as an insulator and moisture regulator. It lacks the brittleness of concrete and consequently does not need expansion joints.

<span class="mw-page-title-main">Light clay</span>

Light clay is a natural building material used to infill between a wooden frame in a timber framed building using a combination of clay and straw, woodchips or some other lighter material.

<span class="mw-page-title-main">Bousillage</span> Infill material used in timbered buildings

Bousillage is a mixture of clay and grass or other fibrous substances used as the infill (chinking) between the timbers of a half-timbered building. This material was commonly used by 18th-century French colonial settlers in the historical New France region of the United States and is similar to the material cob and adobe. In French torchis has the same meaning or the meaning of a loaf of this material.

Alternative natural materials are natural materials like rock or adobe that are not as commonly used as materials such as wood or iron. Alternative natural materials have many practical uses in areas such as sustainable architecture and engineering. The main purpose of using such materials is to minimize the negative effects that built environments can have on the planet, while increasing the efficiency and adaptability of the structures.

<span class="mw-page-title-main">Wattle and daub</span> Building technique using woven wooden supports packed with clay or mud

Wattle and daub is a composite building method used for making walls and buildings, in which a woven lattice of wooden strips called "wattle" is "daubed" with a sticky material usually made of some combination of wet soil, clay, sand, animal dung and straw. Wattle and daub has been used for at least 6,000 years and is still an important construction method in many parts of the world. Many historic buildings include wattle and daub construction.

Lime-ash floors were an economic form of floor construction from the 15th century to the 19th century, for upper floors in parts of England where limestone or chalk were easily available. They were strong, flexible, and offered good heat and sound insulation.

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