The RTP Tube Furnace RTP-1000-LV3F with three-channel flow mixing is specifically designed for annealing semiconductor wafers, solar cells, and other samples (up to 3 inches). It is equipped with thre
The 4" High Vacuum RTP Tube Furnace OTF-1200X-4-RTP-HV is a compact rapid thermal processing tube furnace equipped with a 4" quartz tube and a high vacuum system (mechanical pump + molecular pump). It
The Slideable RTP Furnace OTF-1200X-4-RTP-SL is a rapid thermal processing furnace that utilizes infrared lamp heating and a movable furnace body for quick cooling, achieving a maximum heating rate of
The OTF-1200X-S-DVD is a compact movable crucible tube furnace that utilizes magnets to drive the crucible's movement. With a tube diameter of 50mm and a maximum operating temperature of 1200℃, this d
OTF-1200X-IR-IISL is a RTP tube furnace with dual-zone IR heated 4" ID quartz tube and two sliding sample holders for Lab use,compact and easy operation. It is capable of achieving a maximum heating r
OTF-1200X-S-50-DFSL is a dual slidable RTP Tube furnace on the rail. It is a tool for thermal CVD with 2" ODx55"L Quartz tube & flanges and max 1200°C achievable working temperature.
OTF-1500X-II-50SL is a 1500°C Two Zone slide-able tube furnace with 50mm OD x 55"L mullite tube and vacuum flanges. One pair of sliding rail is installed on the bottom of the furnace.
OTF-1200X-50-SL is a compact automatic sliding tube furnace with 2" OD x 36" L Quartz tube and flanges with 1200°C max. working temperature. The automatic sliding mechanism allows the furnace to slide
OTF-1200X-DVD-M is a splittable tubular furnace with a crucible sliding function (manually pushing ) in a high vacuum or air-tight atmosphere, with a maximum temperature of 1200 °C. The vacuum-sealed
OTF-1200X-5-SL is a 5” sliding furnace with resistance heating and an electric sliding motor for rapid heating and cooling. It is capable of achieving a max. heating cooling rate > 10°C/s and anneals
OTF-1200XS6-ASD is a 6" OD automatic tube furnace up to 1200°C. It automates the pump-purge cycles, gas flow, heating, and cooling in a sequence via one click via PC. With the assistance of a robot fo