1 article(s) from Huang, Chia-Wei
- Full Research Paper
- Published 12 Aug 2021
-
PDF -
Album-
![]()
Figure 1: Schematic of GPCuNL composite.
-
![]()
Figure 2: Two different graphene chiralities and the bond length of graphene.
-
![]()
Figure 3: Stress–strain curves of (a) zigzag and (b) armchair GPCuNL composites at different temperatures.
-
![]()
Figure 4: The shear modulus of GPCuNL composites at different temperatures and with different graphene chiral...
-
![]()
Figure 5: (a, c) Cross-sectional view of the CSP analysis of the GPCuNL composites and (b, d) DXA analysis of...
-
![]()
Figure 6: (a–f) Von Mises stress of graphene under shear loading along the zigzag direction at 300 K. (a–c) T...
-
![]()
Figure 7: (a, c) Cross-sectional view of the CSP analysis of the GPCuNL composites and (b, d) DXA analysis of...
-
![]()
Figure 8: (a–f) Von Mises stress of graphene under shear loading along the armchair direction at 300 K. (a)–(...
-
![]()
Figure 9: Out-of-plane displacement of graphene at different temperatures. (a1–a5) Zigzag graphene, (b1–b5) a...
-
![]()
Figure 10: Stress–strain curves of zigzag graphene/Cu composites with different repeat layer spacings.
-
![]()
Figure 11: The shear modulus of zigzag GPCuNL composites with different repeat layer spacings.
-
![]()
Figure 12: The out-of-plane displacement of zigzag graphene with different repeat layer spacings.
-
![]()
Figure 13: The DXA analysis of GPCuNL composites with different repeat layer spacings at 300 K. The magnified ...
-
![]()
Figure 14: Stress–strain curves of zigzag GPCuNL composites with different grain sizes.
-
![]()
Figure 15: Shear modulus of zigzag GPCuNL composites with different grain sizes.
-
![]()
Figure 16: The structural evolution of polycrystalline Cu with different grain sizes. The “PD” symbols represe...
-
![]()
Figure 17: The out-of-plane displacement of zigzag graphene in GPCuNL composites with different grain sizes.
-
