A. Hodzic et al., Application of nano-indentation, nano-scratch and single fibre tests in investigation of interphases in composite materials, MICRON, 32(8), 2001, pp. 765-775
Three novel experimental techniques were employed in this work in order to
investigate the influence of the interphase region in polymer-glass composi
tes on the bulk material properties: (i) the microdroplet test is a single
fibre test designed to characterize the fibre-matrix bond (interface region
) and to determine the interfacial shear stress in composite material; (ii)
the nano-indentation test, a novel nano-hardness technique with ability to
produce an indent as low as a few nanometres was employed in order to meas
ure nano-hardness of the fibre-matrix interphase region; and (iii) the nano
-scratch test, used in conjunction with the nano-indentation test for measu
rement of the interphase region width. The microdroplet test (MDT) has been
used to characterize the interfacial bond in fibrous composite materials.
The specimen consists of a fibre with a drop of cured resin pulled while th
e drop is being supported by a platinum disc with a hole. A properly tested
specimen fails at the droplet's tip-fibre interface, revealing the ultimat
e interfacial shear strength. In this study, finite element analysis (FEA)
of the MDT has been focused toward simulation of the fibre-matrix interphas
e region. The influence of several functional variations of the material pr
operties across the interphase layer on the stress distribution at the drop
let's tip was analysed. The results showed that the variation of the interp
hase properties significantly affects the stress distribution at the fibre-
droplet interface, and, therefore, the stress redistribution to composite m
aterial. These results led to further experimental investigation of the int
erphase region, in order to obtain the material properties essential for th
e interfacial stress analysis. The interphase region in dry and water aged
polymer-glass composite materials was investigated by means of the nano-ind
entation and the nano-scratch techniques. The nano-indentation test involve
d indentation as small as 30 nm in depth, produced along a 14 mum path betw
een the fibre and the matrix. The distinct properties of the interphase reg
ion were revealed by 2-3 indents in dry materials and up to 15 indents in w
ater aged, degraded materials. These results indicated interdiffusion in wa
ter aged interphase regions. The nano-scratch test involves moving a sample
while being in contact with a diamond tip. The nano-scratch test, used in
conjunction with the nano-indentation test, accurately measured the width o
f the interphase region. The results showed that the harder interphase regi
on dissolved into the softer interphase region (both regions being harder/s
tronger than the matrix) expanding its width after aging in water. (C) 2001
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