In order to measure the strength of an agglomerated product it is conv
enient to compress a bed of the agglomerates using a piston in a rigid
cylinder; this is known as a confined uniaxial compression test. A si
mple first-order lumped-parameter analysis of this compression process
is presented, treating the system as purely dissipative and applying
the Mohr-Coulomb macroscopic failure criterion. This enables average s
ingle agglomerate strengths to be deduced from the initial deformation
behaviour of the bed under comparatively low loads. Agglomerates with
a range of strengths have been formed from quartz sand using varying
amounts of a polyvinylpyrrolidone binder. These have been tested both
in the uniaxial compression test and individually, by compression betw
een parallel platens. The results show agreement with the proposed the
ory over an order of magnitude in single particle crushing load. The l
oad-deformation curve for the compression experiments is also consiste
nt with Kawakita's equation and it is shown that, over a certain range
of strain, the load-deformation equation developed here and that due
to Kawakita take approximately the same form; the agreement enables a
physical interpretation to be made of one of the parameters in Kawakit
a's equation.