The application of composite materials in marine propellers is a relatively recent innovation. Methods have been presented to analyse the hydro-elastic behaviour of these type of propellers and in some studies these methods have been validated as well. Differences between measured and predicted responses are typically explained from inaccuracies in structural or fluid modelling. It is beyond all doubt that for an accurate finite element (FE) model a correct modelling of the fibre orientations and material properties is required. Both subjects are addressed in this work. An approach is presented in order to accurately define the element dependent fibre orientations in doubly curved geometries like (marine) propeller blades. In order to impro...
Abstract The design of optimum marine propeller is one of the most important aspects of naval archit...
ABSTRACTA reliable steady/transient hydro-elastic analysis is developed for flexible (composite) mar...
AbstractNatural frequency tuning is a vital problem in engineering. Every structure possesses its na...
The application of composite materials in marine propellers is a relatively recent innovation. Metho...
Adaptive composite propeller blades showing bend twist behaviour have received increasing interest f...
A fairly recent development in the maritime industry is the rising interest in composites, as they h...
Carbon fibre composite has extremely high strength, low density and no corrosion in sea water. These...
Structural analysis of advanced propellers (propfans) is only possible by use of numerical methods b...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
Structural analysis of advanced propellers (propfans) is only possible by use of numerical methods b...
Traditional marine propellers that are manufactured using alloys have a fixed shape. These propeller...
Propellers are used to propel the vast majority of ships. They are most commonly made out of Nickel-...
In this work, a coupled boundary element method (BEM) – finite element method (FEM) is presented fo...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
An investigation of a conventional propeller, made from composite materials, was conducted in which ...
Abstract The design of optimum marine propeller is one of the most important aspects of naval archit...
ABSTRACTA reliable steady/transient hydro-elastic analysis is developed for flexible (composite) mar...
AbstractNatural frequency tuning is a vital problem in engineering. Every structure possesses its na...
The application of composite materials in marine propellers is a relatively recent innovation. Metho...
Adaptive composite propeller blades showing bend twist behaviour have received increasing interest f...
A fairly recent development in the maritime industry is the rising interest in composites, as they h...
Carbon fibre composite has extremely high strength, low density and no corrosion in sea water. These...
Structural analysis of advanced propellers (propfans) is only possible by use of numerical methods b...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
Structural analysis of advanced propellers (propfans) is only possible by use of numerical methods b...
Traditional marine propellers that are manufactured using alloys have a fixed shape. These propeller...
Propellers are used to propel the vast majority of ships. They are most commonly made out of Nickel-...
In this work, a coupled boundary element method (BEM) – finite element method (FEM) is presented fo...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
An investigation of a conventional propeller, made from composite materials, was conducted in which ...
Abstract The design of optimum marine propeller is one of the most important aspects of naval archit...
ABSTRACTA reliable steady/transient hydro-elastic analysis is developed for flexible (composite) mar...
AbstractNatural frequency tuning is a vital problem in engineering. Every structure possesses its na...