In　this　work,　the　effects　of　magnetic　field　induction　on　electrical　and　electromagnetic　shielding　properties　of　conductive　silicon　rubbers　(CSRs)　filled　with　Ni-coated　carbon　fibres　(Ni/CFs)　have　been　investigated.　When　the　magnetic　field　intensity　is　above　the　threshold　value　of　0.10　T　during　the　vulcanisation,　it　is　beneficial　to　their　electrical　property　that　the　volume　resistivity　decreases　from　48.7　Omega.cm　to　1.57　Omega.cm,　owing　to　the　orientation　alignment　of　Ni/CFs　in　CSRs　filled　with　Ni/CFs　(40　phr).　Moreover,　with　the　aids　of　magnetic　field　induction,　the　prepared　CSRs　with　lower　amount　of　Ni-CF　filler　can　receive　better　electromagnetic　shielding　of　65　dB　in　500　MHz-3　GHz,　which　reduce　cost　effectively.　This　vulcanisation　process　shows　promises　for　various　applications　in　power　transmission　and　transformation　industries.