Add to ORKGDamping of ship whipping vibrations following a slam due to wave impact is traditionally assumed to be primarily of material or structural origin. However, several mechanisms of energy dissipation to the surrounding water exist, including gravity and acoustic waves. Neither transports much energy for the lowest frequency modes, in which the acoustic wavelength may be an order or magnitude greater than the ship length whereas the gravity wavelength is at least an order of magnitude shorter than the ship beam. However, the acoustic damping ratio increases as the fourth power of frequency, becoming significant for higher frequency modes
To investigate flexural vibration of structures in a fluid, a numerical algorithm was developed to ...
The proposed paper examines the application of a boundary element method for seakeeping computation ...
Prediction of the noise transmitted from machinery and flow sources on a submarine to the sonar arra...
Damping of ship whipping vibrations following a slam due to wave impact is traditionally assumed to...
Accurate prediction of the whipping response of a ship's structure following a wave impact is fundam...
Slamming of ships is a phenomenon characterized by a high wave load of short duration. Usually the s...
The accurate prediction of ship\u2019s resistance in waves is nowadays of increased importance, sin...
The accurate prediction of ship resistance in waves is nowadays of increased importance since it gre...
This paper presents an application of a boundary element method for the calculation of wave induced ...
The accurate prediction of ship resistance in waves is nowadays of increased importance since it gr...
Wave loads estimation and structural strength evaluation are the fundamental work at the ship design...
The present paper deals with a methodology for the prediction of propellers excitation and associate...
Wave induced vibrations of container ships are high on the agenda in the industry. As a consequence ...
The hydroelastic vibrational responses of a large ship sailing in regular and irregular head waves a...
A new method for the computation of sound propagation in ships is presented. Using the method, the t...
To investigate flexural vibration of structures in a fluid, a numerical algorithm was developed to ...
The proposed paper examines the application of a boundary element method for seakeeping computation ...
Prediction of the noise transmitted from machinery and flow sources on a submarine to the sonar arra...
Damping of ship whipping vibrations following a slam due to wave impact is traditionally assumed to...
Accurate prediction of the whipping response of a ship's structure following a wave impact is fundam...
Slamming of ships is a phenomenon characterized by a high wave load of short duration. Usually the s...
The accurate prediction of ship\u2019s resistance in waves is nowadays of increased importance, sin...
The accurate prediction of ship resistance in waves is nowadays of increased importance since it gre...
This paper presents an application of a boundary element method for the calculation of wave induced ...
The accurate prediction of ship resistance in waves is nowadays of increased importance since it gr...
Wave loads estimation and structural strength evaluation are the fundamental work at the ship design...
The present paper deals with a methodology for the prediction of propellers excitation and associate...
Wave induced vibrations of container ships are high on the agenda in the industry. As a consequence ...
The hydroelastic vibrational responses of a large ship sailing in regular and irregular head waves a...
A new method for the computation of sound propagation in ships is presented. Using the method, the t...
To investigate flexural vibration of structures in a fluid, a numerical algorithm was developed to ...
The proposed paper examines the application of a boundary element method for seakeeping computation ...
Prediction of the noise transmitted from machinery and flow sources on a submarine to the sonar arra...