This　research　presented　a　new　method　of　＇glass　surface　pre-metallization+low　temperature　soldering＇　in　order　to　obtain　metallurgical　bonding　of　glass　to　steel.　Prior　to　the　soldering　process,　tempered　glass　were　deposited　with　Al2/Cu　coatings　multilayer　by　means　of　Arc　Plasma　Spraying　(APS).　Then　the　coated　glass　were　soldered　to　steel　at　low　temperature　using　Sn-based　filler　metal.　The　influence　of　sandblasting　pretreatment　of　glass　substrate　and　heat　input　in　spraying　process　on　microstructure　and　properties　of　ceramic　coatings　were　investigated,　as　well　as　the　mechanical　properties　of　soldered　joint.　The　results　showed　that　the　premetallized　coating　treatment　effectively　improved　the　weldability　of　glass　with　steel.　The　Al2O3　ceramic　coatings　obtained　a　maximum　strength　of　20.5MPa.　In　certain　extents,　with　the　increase　of　sandblasting　particle　size,　the　bonding　strength　of　Al2O3　coating　increased.　In　addition,　with　the　increase　of　spraying　heat　input,　the　bonding　strength　of　Al2O3　coating　decreased　gradually.　The　joints　all　fractured　at　location　of　interface　between　Al2O3　coatings　and　glass　substrate.　A　maximum　joint　strength　of　12.5MPa　was　achieved　when　the　thickness　of　Cu　coating　is　50um　at　soldering　temperature　270°C　and　holding　time　4min.　However,　for　tempered　glass　substrate　with　high　hardness　and　high　brittleness,　lots　of　defects,　i.e.　crack,　chip,　groove　and　peel-off　etc.　in　glass　surface　produced　by　sandblasting　pretreatment　process　were　considered　as　the　main　reason　for　decrease　of　bonding　strength.