This paper describes the work to design a composite bladed marine propeller. The hydrodynamic load and the nonlinear structural responses are predicted by the coupled FEM/CFD method. A pre-twist strategy is used to determine a new geometry of the composite bladed propeller for improving the hydrodynamic performance. Different material schemes and symmetric stacking sequences are considered as the design parameters. An evaluation method of multi-objective function is presented for optimizing the strength, deflection and mass at design conditions. Numerical results are obtained and the optimal design scheme of the composite bladed propeller is obtained.
MouritzA.P., GellertE., and BurchillP.Review of advanced composite structures for naval ships and submarines, Composite Structures, 53 (2001) 21–41.
2.
BechlyM.E., and ClausentP.D.Structural design of a composite wind turbine blade using finite element analysis, Computers & Structures, 63 (1997) 639–616.
3.
ChazlyN.M.Static and dynamic analysis of wind turbine blades using the finite element method, Computers & Structure, 48 (1993) 273–290.
4.
KhanA.M., AdamsD.O., and VogelJ.M.Effects of Bend-Twist Coupling on Composite Propeller Performance, Mechanics of Composite Materials and Structures, 7 (2000) 383–401.
5.
KhanA.M.Flexible Composite Propeller Design Using Constrained Optimization Techniques. Ph.D. thesis (1997). Iowa State University, Ames, IA.
6.
KeeY.J., and KimJ.H.Vibration characteristics of initially twisted rotating shell type composite blades, Composite Structures, 64 (2004) 151–159.
7.
LinG.Comparative stress-defection analyses of a thick-shell composite propeller blade. Technical Report: DTRC/SHD-1373–01 (1991), David Taylor Research Center.
8.
LinG.Three-dimensional stress analyses of a fiber-reinforced composite thruster blade, Symposium on Propellers/Shafting, Society of Naval Architects and Marine Engineers, (1991), Virginia Beach, VA, USA.
9.
LinH.J., and LinJ.J.Effect of stacking sequence on the hydroelastic behavior of composite propeller blades, (1997) In: Eleventh International Conference on Composite Materials, Australian Composite Structures Society, Gold Coast, Australia.
10.
LinC.C., and LeeY.J.Stacking sequence optimization of laminated composite structures using genetic algorithm with local improvement, Composite Structures, 63 (2004) 339–345.
11.
LeeY.J., and LinC.C.Optimized design of composite propeller, Mechanics of Advanced Materials and Structures, 11 (2004) 17–30.
12.
LinH.J., and LinJ.J.Strength evaluation of a composite marine propeller blade, Journal of Reinforced Plastics and Composites, 24 (2005) 1791–1807.
13.
TaylorR.L., and BeresfordP.J.A Non-Conforming element for stress analysis. International Journal for Numerical Methods in Engineering, 10 (1976) 1211–1219.
14.
SontvedtT.Propeller Blade Stresses – Application of Finite Element Methods, Computers & Structures, 4 (1974) 193–204.
