Cemented carbides coated with diamond layers are promising materials for mi
lls in the wood industry. Therefore, a study of the tribological properties
of the contact between this material and wood is interesting and important
. Wood is a specific material with a highly anisotropic structure, which ca
uses roughness of its surface. For example, the friction coefficient (mu) o
f wood in contact with polished steel coated with a smooth DLC layer, has a
relatively high value of mu = 0.2-0.5. Cemented carbides, as manufactured
for tools for wood milling purposes with roughness R-z = 0.66 mum, have bee
n modified with a nanocrystalline diamond film (NCD) using the RF PACVD met
hod. The surface of the NCD coating showed 'sharp hills' morphology, but th
e surface roughness of cemented carbide decreased slightly after coating. T
he friction was very high (mu = 0.7-0.8 at v = 1 m/s; F-N = 60 N) and it de
pended on the species of wood. When examining oak and poplar using carbides
coated with the thickest NCD layer and a DLC film on top, this value decre
ased by 30% with respect to that of uncoated carbides. For fibreboard again
st NCD, the value was increased. Comparing the friction of NCD against wood
to its friction against steel, titanium and aluminium alloys, we could see
that the roughness of wood was the main factor which determined its tribol
ogical behaviour. Prime novelty the tribological properties of a NCD layer
deposited on cemented carbides with wood. (C) 2001 Elsevier Science B.V. Al
l rights reserved.