Development of shape memory alloy fabrics for composite structures

• Autorzy: Boussu F. , Bailleul G. , Petitniot J. C. , Vinchon H. , Warneton D.
• Języki publikacji: EN

Abstrakty

EN

Shape memory alloys (SMAs) are a unique class of alloys which are able both to 'remember' their shape at high temperature during their modification at lower temperature under their transition domain, and able to recover that initial shape when heated. This ability is known as the one-way shape memory effect. Moreover, SMAs present two other interesting properties, superelasticity and damping capabilities, which can be more or less combined with the first one. An SMA wire of Nitinol mesh was manufactured into technical fabric, in order to examine its weaving adaptability in comparison with a stainless wire and to investigate the different possibilities of use of the material inside composite structures. Several tests have been or will be carried out in order to check the effect of the weaving operation, and later to measure the efficiencies of damping and shape modification.

Słowa kluczowe

EN

shape memory alloys; shape memory effect; superelasticity; damping capabilities

PL

stopy z pamięcią kształtu; efekt pamięci kształtu; supersprężystość; zdolność tłumienia

• Wydawca: Lodz University of Technology, Faculty of Material Technologies and Textile Design
• Czasopismo: Autex Research Journal
• Rocznik: 2002
• Tom: Vol. 2, no. 1
• Strony: 1--7
• Opis fizyczny: Bibliogr. 9 poz.

Twórcy

autor

Boussu F.

• GEMTEX Laboratory (Genius and TEXtile Materials), ENSAIT (French Engineering School in Textile), 9, rue de l'Ermitage, BP 30329, 59056 Roubaix Cedex France

autor

Bailleul G.

• GEMTEX Laboratory (Genius and TEXtile Materials), ENSAIT (French Engineering School in Textile), 9, rue de l'Ermitage, BP 30329, 59056 Roubaix Cedex France

autor

Petitniot J. C.

• ONERA (National Office of Research and Studies in Aeronautics), DMSE/RCS 5, boulevard Paul Painlevé, 59045 Lille France

autor

Vinchon H.

• DUBAR-WERNETON 136, rue Jules Guesde, 59150 Wattrelos France

autor

Warneton D.

Bibliografia

• 1. Patoor E., Berveiller M., “Technologie des alliages a memoire de forme”, Traité des Nouvelles Technologies - série matériaux, Editions HERMES.
• 2. Buchaniek L., Fabis -., Petitniot J-L., “Use of shape memory alloys in cryogenic modelling - preliminary study”, IMFL Report n°92/72, (december 1992).
• 3. Fabis J., Moreaux N., Petitniot J-L. , “Optimisation des structures aéronautiques par deformations reversibles et préprogrammées - Etude statique” RTn°69/19, ONERA, (Mars 1996).
• 4. Planckaert L ., Petitniot J-L., Deletombe E., “Optimisation des structures aéronautiques par déformations réversibles et préprogrammées - Etude numérique et expérimentale ďéléments structuraux en alliage a mémoire de forme”, RT n°98/51, ONERA, (décembre 1998).
• 5. Merlier S., Petitniot J-L., “Caractérisation et modélisation de l’amortissement de fils d’alliages a mémoire de forme”, Rapport de stage MST, (juin 1997).
• 6. Bourasseau S., Merlier S., Petitniot J-L. “Caractérisation et modélisation de l’amortissement de fils d’alliage a mémoire de forme”, PRFSI, RTn°99/42, ONERA, DMSE/RCS, (octobre 1999).
• 7. Joly D., Petitniot J-L., “ Etude de l’effet amortissant de fils d’AMF dans des poutres en composite verre-époxy“, RT n°99/29, ONERA, DMSE/RCS, (aout 1999).
• 8. Humbeeck J.V., Stoiber J., Delaey L., Gotthardt R.,”The High Damping Capacity of Shape Memory Alloys” Mettallkd 86, (1995) pp 176-183.
• 9. Bailleul G., Boussu F., “Elaboration de matériaux composites a base de tissus métalliques”, Rapport de Projet de fin ďétudes, ENSAIT(juin 2000).