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flexure

{{other uses|Flexure (disambiguation)}}{{distinguish|Bending}}

File:Flexure pivot.png

Image:Mint box polypropylene lid.JPG (a type of flexure), on the lid of a Tic Tac box. This hinge has one compliant degree of freedom.]]

A flexure is a flexible element (or combination of elements) engineered to be compliant in specific degrees of freedom.{{cite web|url=http://web.mit.edu/mact/www/Blog/Flexures/FlexureIndex.html|title=Flexures |last=Thomas |first=Marcel |website=MIT Web |access-date=13 Feb 2017}} Flexures are a design feature used by design engineers (usually mechanical engineers) for providing adjustment or compliance in a design.

Flexure types

Most compound flexure designs are composed of three fundamental types of flexure:{{cite web|url=http://www.precisionballs.com/Flexural_Encyclopedia.php|title=Flexural Encyclopedia |website=Bal-Tec |access-date=13 Feb 2017}}

File:Compound Flexure System, Linear Translation.jpg

  • Pin flexure - a thin bar or cylinder of material, constrains three degrees of freedom when geometry matches a notch cutout
  • Blade flexure - thin sheet of material, constrains three degrees of freedom
  • Notch flexure - thin cutout on both sides of a thick piece of material, constrains five degrees of freedom

class="wikitable"
Pin flexureBlade flexureNotch flexure
File:Pin Flexure.jpgFile:Blade Flexure.jpgFile:Notch Flexure.jpg

Since single flexure features are limited both in travel capability and degrees of freedom available, compound flexure systems are designed using combinations of these component features. Using compound flexures, complex motion profiles with specific degrees of freedom and relatively long travel distances are possible.

Design aspects

In the field of precision engineering (especially high-precision motion control), flexures have several key advantages. High precision alignment tasks might not be possible when friction or stiction are present.{{cite journal |url=http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=966610&resultClick=1 |title=Three-degree-of-freedom flexure-based manipulator for high-resolution spatial micromanipulation |last=Speich|first=John |publisher=Proc. SPIE Vol. 3519 |date=5 Oct 1998 |website=SPIE Digital Library |volume=3519 |pages=82–92 |doi=10.1117/12.325750 |s2cid=110388341 |access-date=14 February 2017|url-access=subscription }} Additionally, conventional bearings or linear slides often exhibit positioning hysteresis due to backlash and friction.{{cite web |url=https://wp.optics.arizona.edu/optomech/wp-content/uploads/sites/53/2016/10/Zago-1997.pdf |title=Application of Flexure Structures to Active and Adaptive Opto-Mechanical Mechanisms |last=Zago |first=Lorenzo |publisher=Proc. SPIE Vol. 2871 |date=Mar 1997 |website=University of Arizona Opto-Mechanical Papers Reference |access-date=13 February 2017}} Flexures are able to achieve much lower resolution limits (in some cases measured in the nanometer scale), because they depend on bending and/or torsion of flexible elements, rather than surface interaction of many parts (as with a ball bearing). This makes flexures a critical design feature used in optical instrumentation such as interferometers.

Due to their mode of action, flexures are used for limited range motions and cannot replace long-travel or continuous-rotation adjustments.{{cite web |url=https://wp.optics.arizona.edu/optomech/wp-content/uploads/sites/53/2016/10/Mir-Presentation.ppt |title=Flexure Mounts for High Resolution Optical Elements |last=Salek |first=Mir |date=2008 |website=University of Arizona Opto-Mechanical Papers Reference |format=PPT |access-date=13 February 2017}} Additionally, special care must be taken to design the flexure to avoid material yielding or fatigue, both of which are potential failure modes in a flexure design.

Image:leafs1.jpg.]]

Design examples

File:NASA MER FLEXURE WHEEL.jpg, with integral suspension flexures.]]

File:NASA MSL FLEXURE WHEEL.jpg, with integral suspension flexures.]]

  • Living hinge: Flexure which acts as a hinge. Preferred for their simplicity, as they can be included as a feature in a single piece of material (as in a Tic Tac box's lid).
  • Leaf spring: Leaf Springs are commonly used in vehicle suspensions. Leaf springs are an example of a flexure system with one compliant degree of freedom.
  • Flex Pivot: Frictionless pivoting component, for use in precision alignment applications.{{cite web |url=http://www.flexpivots.com/ |title=Free Flex Pivot Product line |website=Riverhawk Flex Pivots |access-date=13 February 2017}}
  • NASA's Mars Exploration Rovers and the Mars Science Laboratory rover Curiosity have engineered flexures in their wheels which act as vibration isolation and suspension for the rovers.{{cite web |url=http://mars.nasa.gov/mer/spotlight/wheels01.html |title= Wheels in the Sky |website=NASA Jet Propulsion Laboratory |access-date=14 February 2017}}

See also

References

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Category:Mechanical engineering