The present study examined the viscoelastic creep responses in vivo during repeated constant‐torque stretches in human skeletal muscle. Twelve healthy participants completed four consecutive 30‐s constant‐torque passive stretches of the right plantar flexor muscles. Position and surface electromyographic (EMG) amplitude values were quantified at every 5‐s period and the percent change in position was quantified for each 5‐s epoch relative to the total increase in ankle joint position for each stretch. In addition, the absolute changes in position were plotted on a logarithmic time scale and fit with a linear regression line to examine both the rate of increase (slope) and the overall increase in position over the entire stretch (y‐intercept). The percent change and slope were similar (P>0.05) over all four stretches, with the majority of increases in position occurring within the initial 15–20 s of each stretch (84%). Absolute ankle joint position and the y‐intercept increased (P<0.05) following both the first and second stretch but plateaued (P>0.05) after the third stretch. In addition, EMG amplitude values did not change (P>0.05) during or between each 30‐s stretch. These data indicate that the amount and rate of viscoelastic creep were similar during practical durations of constant‐torque stretching despite no change in ankle joint position following three 30‐s stretches.