Add to ORKGSandwich panels are widely used in engineering applications because of the extremely high stiffness-to-mass ratio. The higher specific strength and stiffness of sandwich panel versus metal homogeneous ones are attractive to the manufacturers, as well as other attributes such as the tailoring to the directionality of the load. The same high stiffness-to-mass ratio that allows mechanical efficiency also allows efficient transmission and radiation of acoustic noise, posing a serious problem for some applications, such as aircraft comfort. To address this problem, engineers have attempted to identify optimal designs for sand- wich panels that balance mechanical and acoustical properties
Noise and vibration transmission within payload and passenger compartments is a major issue for mode...
Thin walled structures, e.g. aircraft and helicopter fuselages, but also domestic electrical machine...
Two decades ago, big emphasis was given in the transportation industry when announcing new structura...
Sandwich panels are widely used in engineering applications because of the extremely high stiffness-...
Lightweight structures represent an appealing solution in a large number of very different technolog...
Studies on the interior acoustics of vehicles have lately strongly intensified. For cars, trains, ai...
Sandwich structures are manufactured using multiple combinations of materials for core and laminates...
Vibro-Acoustics of Lightweight Sandwich Structures introduces the study of the coupled vibration and...
The vibro-acoustic properties of three-layered sandwich elements depend on the bending stiffness of ...
Sandwich panels comprising face sheets enclosing a core are increasingly common structural elements ...
The increasing popularity of sandwich and composite double panel structures stems from their better ...
This thesis examines the sound transmission loss (STL) through composite sandwich panel systems comm...
An optimization study to investigate the feasibility of an optimal acoustic design process for sandw...
This paper reviews the most significant works in literature about the acoustic behaviour of sandwich...
Noise and vibration transmission within payload and passenger compartments is a major issue for mode...
Thin walled structures, e.g. aircraft and helicopter fuselages, but also domestic electrical machine...
Two decades ago, big emphasis was given in the transportation industry when announcing new structura...
Sandwich panels are widely used in engineering applications because of the extremely high stiffness-...
Lightweight structures represent an appealing solution in a large number of very different technolog...
Studies on the interior acoustics of vehicles have lately strongly intensified. For cars, trains, ai...
Sandwich structures are manufactured using multiple combinations of materials for core and laminates...
Vibro-Acoustics of Lightweight Sandwich Structures introduces the study of the coupled vibration and...
The vibro-acoustic properties of three-layered sandwich elements depend on the bending stiffness of ...
Sandwich panels comprising face sheets enclosing a core are increasingly common structural elements ...
The increasing popularity of sandwich and composite double panel structures stems from their better ...
This thesis examines the sound transmission loss (STL) through composite sandwich panel systems comm...
An optimization study to investigate the feasibility of an optimal acoustic design process for sandw...
This paper reviews the most significant works in literature about the acoustic behaviour of sandwich...
Noise and vibration transmission within payload and passenger compartments is a major issue for mode...
Thin walled structures, e.g. aircraft and helicopter fuselages, but also domestic electrical machine...
Two decades ago, big emphasis was given in the transportation industry when announcing new structura...