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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

Processo e caracterização de ligas Ti-Ni-Cu com efeito de memória de forma solidificadas rapidamente. / Process and characterization of Ti-Ni-Cu alloys with shape memory effect solidified rapidly. / Proceso y caracterización de aleaciones Ti-Ni-Cu con efecto de memoria de forma solidificadas rápidamente. / Processus et caractérisation d'alliages Ti-Ni-Cu avec effet de mémoire de forme rapidement solidifié. / Ti-Ni-Cu合金的工藝和特性表徵。

ANSELMO, George Carlos dos Santos. 06 April 2018 (has links)
Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-04-06T20:54:52Z No. of bitstreams: 1 GEORGE CARLOS DOS SANTOS ANSELMO - TESE PPG-CEMat 2014..pdf: 19735821 bytes, checksum: c92e61b342c27548f43bd01d30640a96 (MD5) / Made available in DSpace on 2018-04-06T20:54:52Z (GMT). No. of bitstreams: 1 GEORGE CARLOS DOS SANTOS ANSELMO - TESE PPG-CEMat 2014..pdf: 19735821 bytes, checksum: c92e61b342c27548f43bd01d30640a96 (MD5) Previous issue date: 2014-08-29 / Ligas com efeito de memória de forma possuem grande potencial para aplicações nos setores da robótica, automotivo, aeronáutico, medicina e na produção de atuadores miniaturizados. O objetivo desse trabalho foi investigar e desenvolver materiais com efeito de memória de forma (Shape Memory Effect - SME) das ligas Ti-Ni-Cu na forma de fitas micrométricas produzidos por meio de Melt Spinning. A metodologia utilizada para produção das ligas Ti-Ni-Cu foi via fusão a plasma (Plasma Skull Push-Pull), e para fabricação de fitas utilizou-se a técnica de solidificação rápida por injeção de metal líquido em volante de cobre nas velocidades de 38 e 50 m/s, logos após as ligas e fitas Ti-Ni-Cu foram caracterizadas por: DSC, SMRT, DRX, MEV. Inicialmente barras prismáticas da liga Ti-Ni50-x-Cux (x=3,4,5,6,7%at.Cu) foram produzidas via fusão a plasma. Por meio solidificação rápida obteve-se fitas com espessuras de 30 a 45 µm com a variação da velocidade do volante de cobre de 38 e 50 m/s no Melt Spinning. Ensaios de DRX revelam à presença da fase B19’ nas ligas brutas de fusão a temperatura ambiente. As ligas apresentaram transformações de fase em único estágio B2↔B19`. As temperaturas de transformação As das ligas Ti-Ni-Cu decrescem com o incremento de Cu. Concluise que as temperaturas de transformação martensíticas (Ms) de fitas Ti-Ni-Cu decrescem com a diminuição do tamanho de grão, e os valores de histerese e entalpia decrescem quando altas taxas de super-resfriamento são alcançadas no Melt Spinnig. / Alloys with shape memory effect have immense potential for applications in robotics, automotive and aeronautics industry, medicine and in the production of miniaturized actuators. The aim of this study was to investigate, develop and manufacture materials with shape memory effect of Ti-Cu-Ni alloys in the form of micrometer tapes produced by Melt Spinning. The methodology used for the production of Ti-Cu-Ni alloys by fusion plasma (Plasma Skull Push-Pull), and manufacturing tapes used the technique of rapid solidification injection of liquid metal into the copper wheel speeds 38 and 50 m/s. alloy and Ti-Ni-Cu ribbons were characterization by: DSC, SMRT, XRD, SEM. Initially prismatic bars of Ti-Ni50-x-Cux (x = 3,4,5,6,7 at.Cu%) had been produced by plasma fusion. With the rapid solidification is obtained tapes with thicknesses between 30 to 45 µm with the variation of the speed of the wheel covers 38 and 50 m / s the melt spinning. XRD tests reveal the presence of the B19' in gross phase alloy melting temperature. The alloys showed phase transformations in single stage B2↔B19`. The transformation temperatures of the alloy Ti-Cu-Ni decrease with the increase of Cu. We conclude that the temperatures of martensitic transformation (Ms) of Ti-Ni-Cu ribbons decreases with decreasing grain size, and hysteresis values and enthalpy decreases when high rates of super-cooling are achieved in Melt Spinnig.

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