A thermal processing map of a ZrCuNiAlEr bulk metallic glass in the supercooled liquid region

Thermal compression tests of (Zr 0.6336 Cu 0.1452 Ni 0.1012 Al 0.12 ) 97.4 Er 2.6 bulk metallic glass (BMG) were performed at temperature of 410, 420, 430 and 440 °C and strain rates of 5 × 10 −4 , 10 −3 , 5 × 10 −3 and 10 −2  s −1 , and a thermal processing map was constructed in the supercooled li...

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Bibliographic Details
Published in:Journal of materials science 2019-05, Vol.54 (9), p.7246-7255
Main Authors: Li, Chunyan, Yin, Jinfeng, Ding, Juanqiang, Zhu, Fuping, Xu, Fei, Zhao, Yanchun, Kou, Shengzhong
Format: Article
Language:English
Subjects:
Amorphous materials
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Compression tests
Crystallography and Scattering Methods
Materials Science
Metallic glasses
Metals
Polymer Sciences
Process mapping
Process parameters
Solid Mechanics
Strain rate
Viscosity
Yield strength
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Summary:Thermal compression tests of (Zr 0.6336 Cu 0.1452 Ni 0.1012 Al 0.12 ) 97.4 Er 2.6 bulk metallic glass (BMG) were performed at temperature of 410, 420, 430 and 440 °C and strain rates of 5 × 10 −4 , 10 −3 , 5 × 10 −3 and 10 −2  s −1 , and a thermal processing map was constructed in the supercooled liquid region. The results indicate that in low strain rate regions (5 × 10 −4 –10 −3  s −1 ), the processing efficiency range is 70–85% and stress range is 70–120 MPa with temperatures of 410 and 420 °C, and the samples can be thermally processed under relatively small stress and show better fluidity, so temperatures of 410 and 420 °C and the strain rate range of 5 × 10 −4 –10 −3  s −1 are optional thermal processing parameters. When the temperature is 430 °C and the strain rate range is 5 × 10 −4 –10 −2  s −1 , the processing efficiency range is 75–85%, and the stress range is 16–106 MPa. The (Zr 0.6336 Cu 0.1452 Ni 0.1012 Al 0.12 ) 97.4 Er 2.6 BMG can be thermoformed under smaller flow stress and shows excellent fluidity; therefore, 430 °C and 5 × 10 −4 –10 −2  s −1 also are optional thermal processing parameters.
ISSN:0022-2461
1573-4803
DOI:10.1007/s10853-019-03363-5