This study selected TiO2-Na2O-SiO2-B2O3 (TN-SB) glasses for the applications of melt extrusion and electrical insulation layer on Cu-based alloy thermocouple. First, the oxide glasses adjusting SiO2/B2O3 ratio were prepared by melt-quenched at 1250 ˚C for 30 min. Thermal properties of the glasses were investigated, including glass transition temperature (Tg), softening temperature (Ts), thermal expansion coefficient (CTE) and viscosity. Moreover, a melt extrusion module with an electromagnetic heating plate and a feeding system were assembled with a heating module, which combined a SiC heating element and Fe-Cr-Al heating wire for heating, and covering with thin ceramic fiber, castable outer sleeve, and a refractory support made by high Al2O3 ceramic board as thermal insulation layers. After providing 187 W power at most, the nozzle could reach 1300 ˚C in 10 min. Also, the formability of the oxide glass by extrusion was tried and capable of continuous extrusion over 200 s at an average speed of 25 mm.s-1. This work also completed a glass coating on various Cu-based thermocouples, calibrated the potential output in short and long ( 30 hr) terms. The possible causes of the deviation of the potential of the thermocouples were discussed.