과제정보
시료 제작 단계별 검사규격의 해외 사례 및 각종 반사경 제작 기획서 등 다양한 자료 수집에 도움을 준 국방과학연구소, 한국천문연구원, 한국표준과학연구원, 전남테크노파크, 한국전광, 한화시스템 담당자분들과 미국국립천문대 조명규 박사님에게 감사드립니다.
참고문헌
- J. Robichaud, J. J. Guregian, and M. Schwalm, "SiC optics for earth observing applications," Proc. SPIE 5151, 53-62 (2003).
- R. A. Paquin and D. R. McCarter, "Why silicon for telescope mirrors and structures?," Proc. SPIE 7425, 74250E (2009).
- J.-I. Bae, H.-B. Lee, J.-W. Kim, and K. Myung-Whun, "Design of all-SiC light-weight secondary and tertiary mirrors for use in spaceborne telescopes," Curr. Opt. Photonics 6, 60-68 (2022).
- J.-I. Bae, H.-B. Lee, J.-W. Kim, K. M. Lee, and K. Myung-Whun, "Development of a silicon carbide large-aperture optical telescope for a satellite," Korean J. Opt. Photon. 33, 74-83 (2022).
- I. A. Palusinski and I. Ghozeil, "Space qualification of silicon carbide for mirror applications: progress and future objectives," Proc. SPIE 6289, 628903 (2006).
- "United States military standard: performance specification," USA Department of Defense, MIL-PRF-13830B (1997).
- S. Kenderian, O. Esquivel, K. R. Olson, and E. C Johnson, "A general overview of some nondestructive evaluation (NDE) techniques for materials characterization," Proc. SPIE 7425, 742506 (2009).
- M. Kotani, Y. Muta, A. Yoshimura, S. Ogihara, T. Imai, H. Katayama, Y. Yui, Y. Tange, K. Enya, H. Kaneda, and T. Nakagawa, "Evaluation of spaceborne SiC mirror materials using samples cut from the periphery of a mirror body," J. Mater. Eng. Perform. 23, 850-858 (2014). https://doi.org/10.1007/s11665-013-0827-1
- M. Bougoin, D. Castel, and F. Levallois, "CTE homogeneity, isotropy and reproducibility in large parts made of sintered SiC," Proc. SPIE 10564, 1056410 (2017).
- Y. Y. Yui, K. Goto, H. Kaneda, H. Katayama, M. Kotani, M. Miyamoto, M. Naitoh, T. Nakagawa, H. Saruwatari, M. Suganuma, H. Sugita, Y. Tange, S. Utsunomiya, Y. Yamamoto, and T. Yamawaki, "Performance of lightweight large C/SiC mirror," Proc. SPIE 10566, 105660M (2008).
- M. Fruit and P. Antoine, "Development of silicon carbide mirrors: the example of the Sofia secondary mirror," Proc. SPIE 10569, 105691S (2017).
- E. L. Kern, D. W. Hamill, H. W. Deem, and H. D. Sheets, "Thermal properties of β-silicon carbide from 20 to 2000 ℃," in Silicon Carbide-1968, H. K. Henisch and R. Roy, Eds. (Pergamon Press, UK, 1969), pp. S25-S32.
- G. L. Harris, "Density of SiC," in Properties of Silicon Carbide, G. L. Harris, Ed. (Inst of Engineering & Technology, UK, 1995), p. 3.
- G. L. Harris, "Young's modulus of SiC," in Properties of Silicon Carbide, G. L. Harris, Ed. (Inst of Engineering & Technology, UK, 1995), p. 8.
- L. Patrick and W. J. Choyke, "Static dielectric constant of SiC," Phys. Rev. B 2, 2255-2256 (1970). https://doi.org/10.1103/PhysRevB.2.2255
- R. Becker, H. Hartwig, H. Koppe, H. Vanecek, P. Velic, R. Warncke, and A. Zelle, Gmelins Handbuch der Anorganischen Chemie, R. Warncke, Ed., 8th ed. (Verlag Chemie GmbH, Germany, 1959).
- A. Taylor and R. M. Jones, "The crystal structure and thermal expansion of cubic and hexagonal silicon carbide," in Silicon Carbide - A High Temperature Semiconductor, J. R. O'Connor and J. Smiltens, Eds. (Pergamon Press, UK, 1960), pp. 147-154.
- W. Weibull, "A statistical distribution function of wide applicability," J. Appl. Mech. 18, 290-293 (1951). https://doi.org/10.1115/1.4010337
- B. V. Cockeram, "Flexural strength and shear strength of silicon carbide to silicon carbide joints fabricated by a molybdenum diffusion bonding technique," J. Am. Ceram. Soc. 88, 1892-1899 (2005). https://doi.org/10.1111/j.1551-2916.2005.00381.x