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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Comportamiento en fatiga de poliamidas reforzadas con fibra de vidrio corta

Casado del Prado, José Antonio 20 July 2001 (has links)
El estudio muestra la existencia de tres estados en el comportamiento en fatiga de la poliamida reforzada con fibra de vidrio corta su rotura.En el estado I se genera deformación por fluencia transitoria, lo que conlleva disipación de energía en el material que aumenta su temperatura. Si el incremento térmico se estabiliza el materialsoporta un número ilimitado de ciclos. Si aumenta la temperatura, la deformación del material alcanza un valor para el que se produce la transición al estado II.En el estado II el material se deforma a velocidad constante. Se inician fenómenos de crazing o pseudo-fisuración en el material, con cierta capacidad portante de carga. El proceso conduce a una inestabilidad final cuando la deformación del material alcanza el valor para el que sucede la transición al estado III.En el estado III se produce la inestabilidad local en el material que antecede a su rotura. Se debe a que el desarrollo de los crazes produce un crecimiento acelerado de la deformación del material y se obtiene su rotura tras un número de ciclos bajo. / The work shows the existence of three states in the fatigue behaviour of short fibre-glass reinforced polyamide up to the moment of failure. In the state I creep transient deformation processes are produced. If temperature, associated to the dynamic process, stabilises, the material is able to withstand an unlimited number of cycles. On the other hand, if temperature grows continuously the material takes a critical strain for which a transition to the state II is reached. This new state shows a constant material´s deformation rate and a homogeneous nucleation of crazing phenomena. The hysteresis energy per cycle grows in a constant way and the material´s temperature increases. These conditions lead to the final instability that starts when the material´s deformation reaches a new critical value for which a second transition to the state III takes place. Under these circumstances local instabilities precede material´s final fracture. This is due to the quantity of crazes and their sizes, which are important enough to origin high concentration of mechanical effects to produce a material´s accelerated growth deformation to obtain its fracture.

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