We suggest a time-dependent mean-field hydrodynamic model for a binary
dipolar boson-fermion mixture to study the stability and collapse of fermions
in the 164Dy-161Dy mixture. The condition of stability of the dipolar
mixture is illustrated in terms of phase diagrams. A collapse is induced in a
disk-shaped stable binary mixture by jumping the interspecies contact
interaction from repulsive to attractive by the Feshbach resonance technique.
The subsequent dynamics is studied by solving the time-dependent mean-field
model including three-body loss due to molecule formation in boson-fermion and
boson-boson channels. Collapse and fragmentation in the fermions after
subsequent explosions are illustrated. The anisotropic dipolar interaction
leads to anisotropic fermionic density distribution during collapse. The
present study is carried out in three-dimensional space using realistic values
of dipolar and contact interactions