• The effect of bonding parameters on creep behavior of TLP bonded GTD-111 superalloy was investigated. • The amount and thickness of precipitated phases in DAZ increased with increasing bonding temperature. • With increasing time during creep, γ′ changed from cubic to round particles and their size increased. In this paper, the effects of temperature and bonding time on creep behavior of nickel-based superalloy GTD-111 joints produced by transient liquid phase (TLP) process were studied. The bonding process was performed using BNi-3 filler at temperatures of 1080, 1120, and 1160 °C and isothermal solidification times of 195, 135, and 90 min, respectively. Homogenization heat treatment was also applied to all joints. Afterward, creep test was performed in 982 °C/152 MPa condition on the base metal and joint samples. The microstructure of joints fractured in the creep test was investigated by optical and scanning electron microscopy. Microhardness results of the TLP-bonded samples showed that the hardness decreases with increasing the distance from the bonding interface to the substrate at all the three bonding temperatures. It was observed that creep failure of all specimens occurs in the joint region and the creep ductility of the joint samples is much lower than that of the base metal. Moreover, it was observed that with increasing bonding temperature from 1080 to 1160 °C, the creep failure time decreases from 26 to 6 h, the percentage of primary γ′ phase after creep deformation decreases from 35.08–31.12 vol.%, and the size of primary γ′ precipitates increases from 907 to 1251 nm.