Smart material: Difference between revisions
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'''Smart materials''' are [[designed materials]] that have one or more properties that can be significantly changed in a controlled fashion by external stimuli, such as [[stress (physics)|stress]], [[temperature]], moisture, [[pH]], [[electric field|electric]] or [[magnetic field|magnetic]] fields. |
'''Smart materials''' are [[designed materials]] that have one or more properties that can be significantly changed in a controlled fashion by external stimuli, such as [[stress (physics)|stress]], [[temperature]], moisture, [[pH]], [[electric field|electric]] or [[magnetic field|magnetic]] fields. |
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Other keywords that are related to [[smart material]] are such as shape memory technology (SMT) and shape memory material (SMM) <ref name=JMJ>[http://dx.doi.org/10.1016/j.matdes.2013.11.084 A Review of Shape Memory Alloy Research, Applications and Opportunities] JM Jani, M Leary, A Subic and MA Gibson, Materials and Design, 2013</ref>. |
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==Types== |
==Types== |
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Revision as of 00:36, 16 January 2014
This article needs additional citations for verification. (November 2013) |
Smart materials are designed materials that have one or more properties that can be significantly changed in a controlled fashion by external stimuli, such as stress, temperature, moisture, pH, electric or magnetic fields.
Other keywords that are related to smart material are such as shape memory technology (SMT) and shape memory material (SMM) [1].
Types
There are a number of types of smart material, some of which are already common. Some examples are as following:
- Piezoelectric materials are materials that produce a voltage when stress is applied. Since this effect also applies in the reverse manner, a voltage across the sample will produce stress within the sample. Suitably designed structures made from these materials can therefore be made that bend, expand or contract when a voltage is applied.
- Shape-memory alloys and shape-memory polymers are materials in which large deformation can be induced and recovered through temperature changes or stress changes (pseudoelasticity). The large deformation results due to martensitic phase change.
- Magnetostrictive materials exhibit change in shape under the influence of magnetic field and also exhibit change in their magnetization under the influence of mechanical stress.
- Magnetic shape memory alloys are materials that change their shape in response to a significant change in the magnetic field.
- pH-sensitive polymers are materials that change in volume when the pH of the surrounding medium changes.
- Temperature-responsive polymers are materials which undergo changes upon temperature.
- Halochromic materials are commonly used materials that change their colour as a result of changing acidity. One suggested application is for paints that can change colour to indicate corrosion in the metal underneath them.
- Chromogenic systems change colour in response to electrical, optical or thermal changes. These include electrochromic materials, which change their colour or opacity on the application of a voltage (e.g., liquid crystal displays), thermochromic materials change in colour depending on their temperature, and photochromic materials, which change colour in response to light—for example, light sensitive sunglasses that darken when exposed to bright sunlight.
- Ferrofluid
- Photomechanical materials change shape under exposure to light.
- Polycaprolactone (polymorph) can be molded by immersion in hot water.
- Self-healing materials have the intrinsic ability to repair damage due to normal usage, thus expanding the material's lifetime
- Dielectric elastomers (DEs) are smart material systems which produce large strains (up to 300%) under the influence of an external electric field.
- Magnetocaloric materials are compounds that undergo a reversible change in temperature upon exposure to a changing magnetic field.
- Thermoelectric materials are used to build devices that convert temperature differences into electricity and vice-versa.
Smart materials have properties that react to changes in their environment. This means that one of their properties can be changed by an external condition, such as temperature, light, pressure or electricity. This change is reversible and can be repeated many times.
There are a wide range of different smart materials. Each offer different properties that can be changed. Some materials are very good indeed and cover a huge range of the scales.
See also
References
- Mazumder, J. "Advances in Direct Metal Deposition". In Hinduja, Srichand; Li, Lin (eds.). Proceedings of the 36th International MATADOR Conference. pp. 447–450 year=2010. doi:10.1007/978-1-84996-432-6_99. ISBN 978-1-84996-432-6.
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- ^ A Review of Shape Memory Alloy Research, Applications and Opportunities JM Jani, M Leary, A Subic and MA Gibson, Materials and Design, 2013