TY - JOUR
T1 - Formulation for flutter and vibration analysis of a hingeless helicopter blade in hover
T2 - Part II. Results of flutter stability and vibration analysis of a hingeless helicopter blade in hover
AU - Ozdemir Ozgumus, Ozge
AU - Kaya, Metin O.
PY - 2007/5/22
Y1 - 2007/5/22
N2 - Purpose – This study aims to carry out flutter stability and vibration analysis of a uniform hingeless rotor blade in hovering flight conditions. Design/methodology/approach – The perturbation equations are obtained using the governing differential equations of motion derived in Part I (Aircraft Engineering and Aerospace Technology, Vol. 79 No. 2, 2007). The differential transform method (DTM) is applied to the perturbation equations of motion and the transformed equations are coded in the computer package Mathematica. Findings – The effects of the built-in pretwist angle and the rotational speed ratio on the natural frequencies are investigated and the results are compared with the results in literature. Originality/value – This study, in carrying out an analysis of flutter stability and vibration of a uniform hingless rotor blade, is in good agreement with previous studies in the literature.
AB - Purpose – This study aims to carry out flutter stability and vibration analysis of a uniform hingeless rotor blade in hovering flight conditions. Design/methodology/approach – The perturbation equations are obtained using the governing differential equations of motion derived in Part I (Aircraft Engineering and Aerospace Technology, Vol. 79 No. 2, 2007). The differential transform method (DTM) is applied to the perturbation equations of motion and the transformed equations are coded in the computer package Mathematica. Findings – The effects of the built-in pretwist angle and the rotational speed ratio on the natural frequencies are investigated and the results are compared with the results in literature. Originality/value – This study, in carrying out an analysis of flutter stability and vibration of a uniform hingless rotor blade, is in good agreement with previous studies in the literature.
KW - Differential equations
KW - Helicopters
KW - Motion
KW - Rotary engines
UR - http://www.scopus.com/inward/record.url?scp=34249032337&partnerID=8YFLogxK
U2 - 10.1108/00022660710743822
DO - 10.1108/00022660710743822
M3 - Article
AN - SCOPUS:34249032337
SN - 0002-2667
VL - 79
SP - 231
EP - 237
JO - Aircraft Engineering and Aerospace Technology
JF - Aircraft Engineering and Aerospace Technology
IS - 3
ER -