Thursday, March 28, 2013

Aloe vera

                                  Aloe vera

                                  
  • Description

    Aloe vera is a stemless or very short-stemmed succulent plant growing to 60–100 cm (24–39 in) tall, spreading by offsets. The leaves are thick and fleshy, green to grey-green, with some varieties showing white flecks on the upper and lower stem surfaces.[6] The margin of the leaf is serrated and has small white teeth. The flowers are produced in summer on a spike up to 90 cm (35 in) tall, each flower being pendulous, with a yellow tubular corolla 2–3 cm (0.8–1.2 in) long.[6][7]Like other Aloe species, Aloe vera forms arbuscular mycorrhiza, asymbiosis that allows the plant better access to mineral nutrients in soil.[8]

    [edit]Taxonomy and etymology

    Spotted forms of Aloe vera are sometimes known as Aloe vera var.chinensis.
    The species has a number of synonymsA. barbadensis Mill., Aloe indicaRoyle, Aloe perfoliata L. var. vera and A. vulgaris Lam.[9][10] Common names include Chinese Aloe, Indian Aloe, True Aloe, Barbados Aloe, Burn Aloe, First Aid Plant.[7][11][12][13][14] The species epithet vera means "true" or "genuine".[11] Some literature identifies the white spotted form of Aloe vera as Aloe vera var. chinensis;[15][16] however, the species varies widely with regard to leaf spots[1] and it has been suggested that the spotted form of Aloe vera may be conspecific with A. massawana.[17] The species was first described by Carl Linnaeus in 1753 as Aloe perfoliata var.vera,[18] and was described again in 1768 by Nicolaas Laurens Burman asAloe vera in Flora Indica on 6 April and by Philip Miller as Aloe barbadensis some ten days after Burman in the Gardener's Dictionary.[19]
    Techniques based on DNA comparison suggest that Aloe vera is relatively closely related to Aloe perryi, a species that is endemic to Yemen.[20] Similar techniques, using chloroplast DNA sequence comparison and ISSRprofiling have also suggested that Aloe vera is closely related to Aloe forbesiiAloe inermisAloe scobinifolia,Aloe sinkatana, and Aloe striata.[21] With the exception of the South African species A. striata, these Aloespecies are native to Socotra (Yemen), Somalia, and Sudan.[21] The lack of obvious natural populations of the species have led some authors to suggest that Aloe vera may be of hybrid origin.[22]

    [edit]Distribution

    The natural range of Aloe vera is unclear, as the species has been widely cultivated throughout the world. Naturalised stands of the species occur in the southern half of the Arabian peninsula, through North Africa (Morocco, Mauritania, Egypt) as well as Sudan and neighbouring countries, along with the Canary, Cape Verde, and Madeira Islands.[9] This distribution is somewhat similar to the one of Euphorbia balsamiferaPistacia atlantica, and a few others, suggesting that a dry sclerophyl forest once covered large areas, but has been dramatically reduced due to desertification in the Sahara, leaving these few patches isolated. Several closely related (or sometimes identical) species can be found on the two extreme sides of the Sahara: Dragon trees(Dracaena) and Aeonium being two of the most representative examples.
    The species was introduced to China and various parts of southern Europe in the 17th century.[23] The species is widely naturalised elsewhere, occurring in temperate and tropical regions of Australia, Barbados, Belize, Nigeria, Paraguay and the United States[1][24] It has been suggested that the actual species' distribution is the result of human cultivation.[17]

    [edit]Cultivation

    Aloe vera can be grown as an ornamental plant.
    Aloe vera has been widely grown as an ornamental plant. The species is popular with modern gardeners as a putatively medicinal plant and due to its interesting flowers, form, and succulence. This succulence enables the species to survive in areas of low natural rainfall, making it ideal for rockeries and other low-water use gardens.[6] The species is hardy inzones 8–11, although it is intolerant of very heavy frost or snow.[7][25] The species is relatively resistant to most insect pests, though spider mites,mealy bugsscale insects, and aphid species may cause a decline in plant health.[26][27] In pots, the species requires well-drained sandy potting soil and bright sunny conditions; however, aloe plants can burn under too much sun or shrivel when the pot does not drain the rain. The use of a good-quality commercial propagation mix or pre-packaged "cacti and succulent mix" is recommended, as they allow good drainage.[28] Terracotta pots are preferable as they are porous.[28] Potted plants should be allowed to completely dry prior to re-watering. When potted aloes become crowded with "pups" growing from the sides of the "mother plant," they should be divided and re-potted to allow room for further growth and help prevent pest infestations. During winter, Aloe vera may become dormant, during which little moisture is required. In areas that receive frost or snow, the species is best kept indoors or in heated glasshouses.[7] Large scale agricultural production of Aloe vera is undertaken in Australia,[29] Bangladesh, Cuba,[30] the Dominican Republic, China, Mexico,[31] India,[32] Jamaica,[33] Kenya, Tanzania and South Africa,[34] along with the USA[35] to supply the cosmetics industry with Aloe vera gel.
    Herbal Farming in Chhattisgarh: Aloe vera
    Aloe vera gel being used to make a dessert.

    [edit]Uses

    Preparations made from the plant Aloe vera are often referred to as "aloe vera".[37] Scientific evidence for the cosmetic and therapeutic effectiveness of aloe vera is limited and when present is frequently contradictory.[2][3] Despite this, the cosmetic and alternative medicine industries regularly make claims regarding the soothing, moisturizing, and healing properties of aloe vera.[4][38] Aloe vera gel is used as an ingredient in commercially available lotions, yogurt, beverages, and some desserts,[39][40][41] although at certain doses, it has toxic properties when used either for ingested or topical applications.[42]

    [edit]Folk medicine

    Early records of Aloe vera use appear in the Ebers Papyrus from 16th century BC,[14] in both Dioscorides' De Materia Medica andPliny the Elder's Natural History written in the mid-first century AD[14] along with the Juliana Anicia Codex produced in 512 AD.[39]The species is used widely in the traditional herbal medicine of many countries.[4] Aloe vera, called kathalai in Ayurvedic medicine, is used as a multipurpose skin treatment. This may be partly due to the presence of saponin, a chemical compound that acts as an anti-microbial agent.[43]

    [edit]Dietary supplement

    Aloin, a compound found in the exudate of some Aloe species, was the common ingredient in over-the-counter(OTC) laxative products in the United States prior to 2003, when the Food and Drug Administration ruled that aloin was a class III ingredient, thereby banning its use.[44] Aloe vera has potential toxicity, with side-effects occurring at some dose levels both when ingested or applied topically.[42] Although toxicity may be less when aloin is removed by processing, aloe vera that contains aloin in excess amounts may induce side-effects.[4][5][45] A 2-year National Toxicology Program (NTP) study on oral consumption of non-decolorized whole leaf extract of Aloe verafound evidence of carcinogenic activity in male and female rats. The NTP says more information is needed to determine the potential risks to humans.[46][47][48]
    Aloe vera juice is marketed to support the health of the digestive system, but there is neither scientific evidence nor regulatory approval to support this claim.[49] The extracts and quantities typically used for such purposes appear to be dose-dependent for toxic effects.[42]

    [edit]Phytochemicals

    Aloe vera leaves contain phytochemicals under study for possible bioactivity, such as acetylated mannans,polymannansanthraquinone C-glycosidesanthronesanthraquinones, such as emodin, and variouslectins.[4][50][51] Emodin (although not obtained from Aloe vera) has been shown to have insecticidal properties.[52]

    [edit]Commodities

    Aloe vera is now used on facial tissues, where it is promoted as a moisturiser and/or anti-irritant to reduce chafing of the nose of users suffering hay-fever or cold.[53] It is common practice for cosmetic companies to add sap or other derivatives from Aloe vera to products such as makeup, tissues, moisturizers, soaps, sunscreens, incense, shaving cream or shampoos.[39] Other uses for extracts of aloe vera include the dilution of semen for the artificial fertilization of sheep,[54] as a fresh food preservative,[55] or for water conservation in small farms.[56] It has also been suggested that biofuels could be obtained from Aloe vera seeds.[57] Aloe is also used as a food substance, possibly for its gelling properties (see image above).

    [edit]Preliminary research

    Aloe vera may be effective in the treatment of wounds.[5] Evidence on the effects of its sap on wound healing, however, is limited and contradictory.[5] Some studies, for example, show that aloe vera promotes the rates of healing,[58][59] while, in contrast, other studies show that wounds to which aloe vera gel was applied were significantly slower to heal than those treated with conventional medical preparations.[60][61] A 2007 review concluded that the cumulative evidence supports the use of aloe vera for the healing of first to second degree burns.[62] Topical application of aloe vera may also be effective for genital herpes and psoriasis.[5] However, it is not effective for the prevention of radiation-induced injuries.
    Gels from Aloe vera have been compared to those derived from other aloe species and with other plants belonging to the family AsphodelaceaeBulbine frutescens, for example, is used widely for burns and a host of skin afflictions.[63] Aloe vera extracts might have antibacterial and antifungal activities, which possibly could help treat minor skin infections, such as boils and benign skin cysts and may inhibit growth of fungi causing tinea.[64] For bacteria, inner-leaf gel from aloe vera was shown in one study to inhibit growth of Streptococcus and Shigellaspecies in vitro.[65] In contrast, aloe vera extracts failed to show antibiotic properties against Xanthomonasspecies.[66]
    Although claimed to be effective, Aloe vera has not been proven to offer protection for humans from sunburn, suntan, or other damage from the sun.[67][68] In studies on mice, aloe vera polysaccharides preserved the number and morphology of immunosuppressive and dendritic cells in skin damaged by ultraviolet exposure.[69][68]
    Compounds extracted from aloe vera may act as an immunostimulant in cats and dogs,[50] but this treatment has not been confirmed or scientifically tested in humans.
    In a double-blind clinical trial, both the group using an aloe vera containing dentifrice and another using a fluoridated dentifrice had a reduction of gingivitis and plaque, but no statistically significant difference was found between the two.[70]
    Preliminary research has assessed whether aloe vera extracts affect blood glucose[4][71][72] or blood lipids,[73] and in acute hepatitis,[45] effects that may be associated with compounds such as mannansanthraquinones orlectins.[50][4][51][46]
    Other preliminary studies have evaluated whether oral aloe vera gel may affect ulcerative colitis,[37] but this research remains inconclusive

Saturday, March 16, 2013

Fuselage

                                       Fuselage

                                             
  • The fuselage; from the French fuselé "spindle-shaped") is an aircraft's main body section that holds crew and passengers or cargo. In single-engine aircraft it will usually contain an engine, although in some amphibious aircraft the single engine is mounted on a pylon attached to the fuselage which in turn is used as a floating hull. The fuselage also serves to position control and stabilization surfaces in specific relationships to lifting surfaces, required for aircraft stability and maneuverability.

Types of structures

Tipo se fuselajes.JPG
Piper PA-18 welded tube truss fuselage structure

[edit]Truss structure

This type of structure is still in use in many lightweight aircraft using welded steel tube trusses. A box truss fuselage structure can also be built out of wood—often covered with plywood—as can be seen on this Ibis canard fuselage. Simple box structures may be rounded by the addition of supported lightweight stringers, allowing the fabric covering to form a more aerodynamic shape, or one more pleasing to the eye.

[edit]Geodesic construction

Geodesic airframe fuselage structure is exposed by battle damage
Geodesic structural elements were used by Barnes Wallis for BritishVickers between the wars and into World War II to form the whole of the fuselage, including its aerodynamic shape. In this type of construction multiple flat strip stringers are wound about the formers in opposite spiral directions, forming a basket-like appearance. This proved to be light, strong, and rigid and had the advantage of being made almost entirely of wood. A similar construction using aluminum alloy was used in theVickers Warwick with less materials than would be required for other structural types. The geodesic structure is also redundant and so can survive localized damage without catastrophic failure. A fabric covering over the structure completed the aerodynamic shell (see the Vickers Wellington for an example of a large warplane which uses this process). The logical evolution of this is the creation of fuselages using molded plywood, in which multiple sheets are laid with the grain in differing directions to give the monocoque type below.

[edit]Monocoque shell

The Van's Aircraft RV-7 fuselage is slender for high speed flight
In this method, the exterior surface of the fuselage is also the primary structure. A typical early form of this (see the Lockheed Vega) was built using molded plywood, where the layers of plywood are formed over a "plug" or within a mold. A later form of this structure uses fiberglass cloth impregnated with polyester or epoxy resin, instead of plywood, as the skin. A simple form of this used in some amateur-built aircraft uses rigid expanded foam plastic as the core, with a fiberglass covering, eliminating the necessity of fabricating molds, but requiring more effort in finishing (see the Rutan VariEze). An example of a larger molded plywood aircraft is the de Havilland Mosquito fighter/light bomber of World War II. No plywood-skin fuselage is truly monocoque, since stiffening elements are incorporated into the structure to carry concentrated loads that would otherwise buckle the thin skin. The use of molded fiberglass using negative ("female") molds (which give a nearly finished product) is prevalent in the series production of many modernsailplanes. The use of molded composites for fuselage structures is being extended to large passenger aircraft such as the Boeing 787 Dreamliner (using pressure-molding on female molds).

[edit]Semi-monocoque

Sectioned fuselage showing frames, stringers and skin all made out of aluminium
This is the preferred method of constructing an all-aluminum fuselage. First, a series offrames in the shape of the fuselage cross sections are held in position on a rigid fixture. These frames are then joined with lightweight longitudinal elements called stringers. These are in turn covered with a skin of sheet aluminum, attached by riveting or by bonding with special adhesives. The fixture is then disassembled and removed from the completed fuselage shell, which is then fitted out with wiring, controls, and interior equipment such as seats and luggage bins. Most modern large aircraft are built using this technique, but use several large sections constructed in this fashion which are then joined with fasteners to form the complete fuselage. As the accuracy of the final product is determined largely by the costly fixture, this form is suitable for series production, where a large number of identical aircraft are to be produced. Early examples of this type include the Douglas Aircraft DC-2 and DC-3 civil aircraft and the Boeing B-17 Flying Fortress. Most metal light aircraft are constructed using this process.
Both monocoque and semi-monocoque are referred to as "stressed skin" structures as all or a portion of the external load (i.e. from wings and empennage, and from discrete masses such as the engine) is taken by the surface covering. In addition, all the load from internal pressurization is carried (as skin tension) by the external skin.
The proportioning of loads between the components is a design choice dictated largely by the dimensions, strength, and elasticity of the components available for construction and whether or not a design is intended to be "self jigging", not requiring a complete fixture for alignment.

[edit]Materials

Early aircraft were constructed of wood frames covered in fabric. As monoplanes became popular, metal frames improved the strength, which eventually led to all-metal aircraft with metal covering all surfaces. Some modern aircraft are constructed with composite materials for major control surfaces, wings, or the entire fuselage such as the Boeing 787. On the 787, it makes possible higher pressurization levels and larger windows for passenger comfort as well as lower weight to reduce operating costs.

[edit]Wing integration

"Flying wing" aircraft, such as the Northrop YB-49 Flying Wing and the Northrop B-2 Spirit bomber have no separate fuselage; instead what would be the fuselage is a thickened portion of the wing structure.
Conversely there have been a small number of aircraft designs which have no separate wing, but use the fuselage to generate lift. Examples include NASA's experimental lifting body designs and the Vought XF5U-1 Flying Flapjack.
blended wing body can be considered a mixture of the above. It carries the useful load in a fuselage producing lift. A modern example is Boeing X-48. One of the earliest aircraft using this design approach is Burnelli CBY-3, which fuselage was airfoil shaped to produce lift.

[edit]Gallery