text stringlengths 0 43 |
|---|
cavitation-aided O |
microparticle O |
abrasion O |
. O |
Synergistic O |
effects O |
enhanced O |
the O |
material S-MATE |
removal O |
and O |
surface B-FEAT |
finish E-FEAT |
up O |
to O |
80 O |
% O |
. O |
Surface B-MANP |
finishing E-MANP |
additive-manufactured O |
( O |
AM S-MANP |
) O |
internal O |
channels O |
is O |
challenging O |
. O |
In O |
this O |
study O |
, O |
a O |
novel O |
hydrodynamic O |
cavitation S-CONPRI |
abrasive S-MATE |
finishing O |
( O |
HCAF O |
) O |
technique O |
is O |
proposed O |
and O |
its O |
feasibility S-CONPRI |
for O |
surface B-MANP |
finishing E-MANP |
is O |
analyzed O |
. O |
Surface B-MANP |
finishing E-MANP |
is O |
performed O |
using O |
controlled O |
hydrodynamic O |
cavitation S-CONPRI |
erosion O |
and O |
microparticle O |
abrasion O |
phenomena O |
. O |
Various O |
surface-finishing O |
conditions O |
were O |
employed O |
to O |
investigate O |
material S-MATE |
removal O |
and O |
surface B-FEAT |
finish E-FEAT |
enhancement O |
via O |
synergistic O |
effects O |
in O |
the O |
HCAF O |
process S-CONPRI |
. O |
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