Laboratorio experimental: Difference between revisions
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apuntes sobre materiales inteligentes | |||
Intelligent Materials | |||
According to Bullinger (2007, p. 36), intelligent (or smart) materials have the | |||
capability to react to stimuli from the environment or changes there and to adapt | |||
their functionality respectively. This is either directly possible or achieved through | |||
combining sensory materials with actuating materials and a control unit. The | |||
resulting combination is named composite material and has special properties. | |||
Until now intelligent materials can be classified – according to the main effect | |||
they use or expose – in at least five groups: | |||
• with shape memory; | |||
• with piezoelectric effect; | |||
• with electrostriction or magnetostriction; | |||
• using electro-rheology and magneto-rheology; | |||
• using chromogenic effect. | |||
Speculating on further development, one could expect materials with | |||
programmable (or computer-controlled) behaviour (e.g., remote form giving?) in | |||
the (near) future. | |||
Revision as of 04:59, 9 March 2016
fotos jornadas autogestión
test Vinagre Cris 104 Blanca 106-118 Zoila 118-136 Laura 137-156 post 157-160
Visionado Cervix
Marina 165-175 Alicia 182-191 Ale 192-203
esto es lo que tenemos anotado, creo que en las primera para saber el pre y el post te puedes guiar por las fotos ,.,.,.
bs
apuntes sobre materiales inteligentes
Intelligent Materials
According to Bullinger (2007, p. 36), intelligent (or smart) materials have the
capability to react to stimuli from the environment or changes there and to adapt
their functionality respectively. This is either directly possible or achieved through
combining sensory materials with actuating materials and a control unit. The
resulting combination is named composite material and has special properties.
Until now intelligent materials can be classified – according to the main effect
they use or expose – in at least five groups:
• with shape memory;
• with piezoelectric effect;
• with electrostriction or magnetostriction;
• using electro-rheology and magneto-rheology;
• using chromogenic effect.
Speculating on further development, one could expect materials with
programmable (or computer-controlled) behaviour (e.g., remote form giving?) in
the (near) future.
