Tungsten-rhenium thick film thermocouples (TFTCs) show excellent potential for in-situ high-temperature monitoring due to their high-temperature resistance. However, the only reported method for preparing tungsten-rhenium thin film thermocouples is magnetron sputtering. The upper limit of temperature resistance of thetungsten-rhenium thin film thermocouples prepared by this method is low because the thickness is reduced by continuous thermal ablation at high temperatures. In this work, screen printing technology is used to prepare tungsten-rhenium TFTCs. The tungsten-rhenium TFTCs’ temperature accuracy is better than ±1.5 %, repeatability is better than 0.9 %, and drift is only 0.26 %/h at 1600 °C. Finally, the tungsten-rhenium TFTC temperature ring array is installed in a tubular furnace for high-temperature monitoring, and the tungsten-rhenium TFTC is heated in the air using a high-temperature flame gun at approximately 1000 °C for up to 30 s. This method to fabricate tungsten-rhenium TFTCs has the potential for temperature measurement in extremely harsh environments.