Sound transmission through lightweight parallel plates. Part II: structure-borne sound

The bending wave transmission between semi-infinite thin piates connected by a hinge or by an elastic interlayer is analyzed. The wave transmission across the interlayer is calculated analytically; the stiffening effect of the interlayer is simulated with a finite element model. The calculation resu

## A BSTRA CT A study of structure-borne sound transmtsston through a budding has shown that parts of the structure whwh appear to be ldenttcal do not have the same acoustw performance Thts dtfference cannot be explained by dtfferences m the material propertws, nor by vartattons m flanking transmt

Two models are presented for predicting structure-borne sound transmission between thin orthotropic plates connected by a rigid junction. The first is based on a solution for the wave propagation in semi-infinite plates, and the second is based on a modal summation solution for finite-sized plates.

A BSTRA CT Energy intensity methods have been used in an investigation of bending vibration transmission at a T-junction of thin plates subjected to point excitation. The attenuation at the junction was estimated in a simulation of anechoic conditions where the plate edges are damped in order to pro