VIBRATION TRANSMISSION THROUGH THE SHEEP PELVIS

Complex built-up structures often consist of structural elements of a periodic nature. Examples of these include plate or shell elements reinforced by stiffeners at regular intervals. This paper describes a theoretical method for evaluating the coupling loss factor (CLF) of a coupled periodic struct

Seven fresh, not embalmed, cadavers (58•1 2 6•6 years, 73 2 10•3 kg, 170•7 2 6•5 cm) were submitted, in the week following their death (7•1 2 3•1 days), to a whole-body vertical broad-band white random vibration in the bandwidth 0•8 to 25 Hz of about 1•5 m/s 2 r.m.s. Two postures were tested using t

The application of Statistical Energy Analysis techniques to work on vehicle noise and vibration is increasing. SEA is now used as a design tool for many commercial vehicles. In this work structural vibration transmission in the body of a motor car is studied. There is very little published work eit

The transmission of yaw-axis vibration to the heads of seated subjects has been investigated at frequencies below 5 Hz. The variability between and within subjects and the e!ects of backrest contact, visual environment and the position of the centre of rotation have been investigated. The subjects s