Add to ORKGOne of the ways of damping resonant vibrations of engineering structures or their components is to reduce reflections of bending waves from their free edges. A new efficient method of reducing edge reflections proposed by the present author is based on using specially designed plates or bars of variable thickness in combination with strips of thin absorbing layers placed at the edges. Such plates or bars utilise gradual change in their thickness from the value corresponding to the thickness of the basic plate or bar to almost zero. If to use some specific power-law profiles for these plates or bars then they would ideally provide zero reflection of bending waves from their sharp edges even in the absence of the absorbing layers at the edges...
A new efficient method of reducing edge reflections of flexural waves in plates or bars based on the...
A method for damping flexural vibrations in thin polygonal plates using the acoustic black hole effe...
During the last decade, new interesting physical objects have been invented and investigated - ‘acou...
One of the possible ways of damping resonant flexural vibrations of engineering structures or their ...
The reduction of flexural vibration in thin plates is examined using the acoustic black hole effect ...
The reduction of flexural vibration in plate structures has been investigated using the recently rep...
Flexural waves in beams and plates slow down if their thickness decreases. Such property was success...
An efficient method of reducing edge reflections of flexural waves in plates or bars based on the 'a...
The present paper provides a brief review of the theoretical and experimental investigations of 'aco...
‘Acoustic black holes’ have been introduced and investigated mainly during the last decade. They can...
A new method of damping flexural vibrations in plate-like structures based on the ‘acoustic black ho...
One of the well-known ways of damping resonant flexural vibrations of different engineering structur...
This thesis describes the results of the experimental investigations into some new geometrical confi...
In this paper we present some recent experimental results on new lightweight and broad-band damping ...
AbstractA new method of damping flexural vibrations in plate-like structures based on the ‘acoustic ...
A new efficient method of reducing edge reflections of flexural waves in plates or bars based on the...
A method for damping flexural vibrations in thin polygonal plates using the acoustic black hole effe...
During the last decade, new interesting physical objects have been invented and investigated - ‘acou...
One of the possible ways of damping resonant flexural vibrations of engineering structures or their ...
The reduction of flexural vibration in thin plates is examined using the acoustic black hole effect ...
The reduction of flexural vibration in plate structures has been investigated using the recently rep...
Flexural waves in beams and plates slow down if their thickness decreases. Such property was success...
An efficient method of reducing edge reflections of flexural waves in plates or bars based on the 'a...
The present paper provides a brief review of the theoretical and experimental investigations of 'aco...
‘Acoustic black holes’ have been introduced and investigated mainly during the last decade. They can...
A new method of damping flexural vibrations in plate-like structures based on the ‘acoustic black ho...
One of the well-known ways of damping resonant flexural vibrations of different engineering structur...
This thesis describes the results of the experimental investigations into some new geometrical confi...
In this paper we present some recent experimental results on new lightweight and broad-band damping ...
AbstractA new method of damping flexural vibrations in plate-like structures based on the ‘acoustic ...
A new efficient method of reducing edge reflections of flexural waves in plates or bars based on the...
A method for damping flexural vibrations in thin polygonal plates using the acoustic black hole effe...
During the last decade, new interesting physical objects have been invented and investigated - ‘acou...