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  • A '''subframe''' is a structural component of a vehicle, such as an [[automobile]] or an [[aircraft]], that [[Category:Structural system]]
    2 KB (292 words) - 14:48, 3 February 2009
  • [[Category:Structural engineering]] [[Category:Structural system]]
    2 KB (223 words) - 18:50, 12 November 2008
  • In [[automotive engineering]], the '''bodywork''' of an [[automobile]] is the structure which protects: ...ther movable panels, but it may also be used more generally to include the structural components which support the mechanical components.
    2 KB (319 words) - 14:11, 25 September 2009
  • ...[[Stephen Timoshenko|Timoshenko]], who is said to be the father of modern engineering mechanics. ...ering]], [[Electrical Engineering]], [[Nuclear Engineering]], [[Structural engineering]] and [[Bioengineering]].
    10 KB (1,246 words) - 08:54, 26 October 2009
  • [[Category:Structural system]] [[Category:Structural engineering]]
    2 KB (281 words) - 09:27, 25 February 2010
  • ...vity]], of an alloy may not differ greatly from those of its elements, but engineering properties, such as [[tensile strength]] and [[shear strength]] may be subs ...ilarly, the [[silver]] used in [[jewelry]] and the [[aluminium]] used as a structural building material are also alloys.
    4 KB (567 words) - 21:49, 13 September 2009
  • ...al [[machine]]s. Large shock absorbers have also been used in [[structural engineering]] to reduce the susceptibility of structures to [[earthquake]] damage and [ ...sonance|resonant energy]], which can cause excessive motion and eventual [[structural failure]].
    9 KB (1,376 words) - 21:53, 15 August 2009
  • ...primarily in using them to make rigid frames for nautical and aeronautical engineering although few if any were realised. Buckminster Fuller's focus was [[archite [[Category:Structural system]]
    4 KB (614 words) - 20:33, 31 July 2009
  • ...from the mould, however in applications where cost is more important than structural rigidity, this step is skipped. The mould is then filled with [[epoxy]] an ==Civil Engineering Applications==
    12 KB (1,819 words) - 18:04, 14 November 2010
  • ...re'' of natural things, such as [[geology|geological]] formations or the [[structural biology|structure of biological cells]], or explicitly ''planned architectu ...easing [[aesthetics]]. This distinguishes it from [[applied science]] or [[engineering]], which usually concentrate more on the functional and feasibility aspects
    15 KB (2,153 words) - 07:12, 8 October 2009
  • | Services || Automobile and industrial: styling, engineering, prototyping and testing ...assignment included the stylistic research and realization of models, the structural design and construction of the first prototypes for the bench tests and roa
    12 KB (1,659 words) - 08:25, 20 May 2014
  • Aerodynamics is important in a number of applications other than aerospace engineering. ''' ...f large components such as [[hard drive]] heads. [[Structural engineering|Structural engineers]] also use aerodynamics, and particularly [[aeroelasticity]], to
    23 KB (3,573 words) - 20:59, 17 August 2009
  • ...à Anonima Officine Meccaniche" manufactured materials rail and other heavy engineering products. On October 1, 1917 OM took over the automaker Züst, thus obtaini In 2001 the plant in [[Bari]] carried out various structural changes, including the construction of new assembly lines for trucks and a
    8 KB (1,279 words) - 11:01, 19 September 2017
  • ...the exhaust velocity require very high ratios of fuel mass to payload and structural mass. ...station]]. This would need to be included in the 10,000 kg of payload and structural weight, which is clearly impractical.
    30 KB (4,590 words) - 19:28, 7 August 2008
  • ...weight reduction resulted also into the combination of structural and non-structural or aesthetical elements. An example is the integration of all ventilation a ...is used for emission development. One car is operated constantly by Bosch Engineering for the application of ABS and advanced stability and performance enhanceme
    17 KB (2,787 words) - 17:29, 10 March 2011
  • ...large variety of products and is very important to the [[world economy]]. Structural components made from aluminium and its [[alloy]]s are vital to the [[aerosp ===Engineering use===
    35 KB (5,288 words) - 21:04, 13 July 2007
  • ...d]] a horizontal slice of a trunk is not suitable, as it does not have the structural strength to support weight without collapsing; rounded pieces of longitudin [[Category:Mechanical engineering]]
    13 KB (1,944 words) - 11:16, 8 October 2009
  • ...Alfa to feature extensive use of [[Computer Aided Design]] for calculating structural stresses, resulting in a very rigid but still relatively lightweight body. ..., the first 150 164's were given their pre-production testing. In terms of engineering demands, these exceeded every Alfa before, and by quite a substantial margi
    21 KB (3,053 words) - 09:55, 22 October 2009
  • ...scribed in the previous section also highlight the sheer amount of bespoke engineering that went into the then new Lancia. ...1st Series vehicles (built from 1972–75). The corrosion problems could be structural; for instance where the subframe carrying the engine and gearbox was bolted
    19 KB (2,841 words) - 00:39, 12 December 2011
  • ...pistons, cylinders, connecting rods, and crankshafts. Nevertheless through engineering on the limit and the use of such devices as pneumatic valves, modern F1 eng ...are a stressed member in most cars, meaning that the engine is part of the structural support framework; being bolted to the cockpit at the front end, and transm
    23 KB (3,769 words) - 13:04, 27 September 2009

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