Previous papers have described the development of a tactile array base
d on electrorheological fluids, whereby the compliant rubber surface o
f the array offers a variable and controllable resistance to finger mo
tion as the user's finger is pressed onto or is moved across the array
. Different shapes with arbitrary compliance can therefore be set up u
nder computer control. The main new feature described here is the util
isation of a layer of fabric within the fluid layer. It is shown that
this results in at least a doubling of the reactive forces, at the sam
e time as at least a three-fold decrease in current for a silicone oil
based electrorheological fluid. The fabric layer improves the safety
of the device, since it provides an insulating layer between the elect
rodes. Similar but reduced effects have been observed with an experime
ntal liquid crystalline based electrorheological fluid and added fabri
c. (C) 1998 Published by Elsevier Science B.V.