Miura, E.; Uchida, H.T.; Okazaki, T.; Sagawa, K.; Faudree, M.C.; Salvia, M.; Kimura, H.; Nishi, Y.
Novel Treatment of 3D-Printed Short-Carbon-Fiber-Reinforced Polyamide (3D-SCFRPA66) Using Homogeneous Low-Potential Electron Beam Irradiation (HLEBI) and Ductility Enhancement. Polymers 2024, 16, 3408.
https://doi.org/10.3390/polym16233408
AMA Style
Miura E, Uchida HT, Okazaki T, Sagawa K, Faudree MC, Salvia M, Kimura H, Nishi Y.
Novel Treatment of 3D-Printed Short-Carbon-Fiber-Reinforced Polyamide (3D-SCFRPA66) Using Homogeneous Low-Potential Electron Beam Irradiation (HLEBI) and Ductility Enhancement. Polymers. 2024; 16(23):3408.
https://doi.org/10.3390/polym16233408
Chicago/Turabian Style
Miura, Eiichi, Helmut Takahiro Uchida, Taisuke Okazaki, Kohei Sagawa, Michael C. Faudree, Michelle Salvia, Hideki Kimura, and Yoshitake Nishi.
2024. "Novel Treatment of 3D-Printed Short-Carbon-Fiber-Reinforced Polyamide (3D-SCFRPA66) Using Homogeneous Low-Potential Electron Beam Irradiation (HLEBI) and Ductility Enhancement" Polymers 16, no. 23: 3408.
https://doi.org/10.3390/polym16233408
APA Style
Miura, E., Uchida, H. T., Okazaki, T., Sagawa, K., Faudree, M. C., Salvia, M., Kimura, H., & Nishi, Y.
(2024). Novel Treatment of 3D-Printed Short-Carbon-Fiber-Reinforced Polyamide (3D-SCFRPA66) Using Homogeneous Low-Potential Electron Beam Irradiation (HLEBI) and Ductility Enhancement. Polymers, 16(23), 3408.
https://doi.org/10.3390/polym16233408
