C. BOĞA And V. YILDIRIM, "Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material," Research on Engineering Structures and Materials (RESM) , vol.3, no.1, pp.11-25, 2017
BOĞA, C. And YILDIRIM, V. 2017. Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material. Research on Engineering Structures and Materials (RESM) , vol.3, no.1 , 11-25.
BOĞA, C., & YILDIRIM, V., (2017). Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material. Research on Engineering Structures and Materials (RESM) , vol.3, no.1, 11-25.
BOĞA, CEM, And VEBİL YILDIRIM. "Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material," Research on Engineering Structures and Materials (RESM) , vol.3, no.1, 11-25, 2017
BOĞA, CEM And YILDIRIM, VEBİL. "Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material." Research on Engineering Structures and Materials (RESM) , vol.3, no.1, pp.11-25, 2017
BOĞA, C. And YILDIRIM, V. (2017) . "Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material." Research on Engineering Structures and Materials (RESM) , vol.3, no.1, pp.11-25.
@article{article, author={CEM BOĞA And author={VEBİL YILDIRIM}, title={Direct application of the Complementary Functions Method (CFM) to the static analysis of rotating disks with both parabolic-varying thickness profile and functionally graded (FG) material}, journal={Research on Engineering Structures and Materials (RESM)}, year=2017, pages={11-25} }