In this paper, micro dried bio-potential electrodes are demonstrated for sEMG (surface ElectroMyoGraphic) signal measurement using conductive epoxy on the textile fabric. Micro dried bio-potential electrodes on the textile fabric substrate have several advantages over the conventional wet/dry electrodes such as good feeling of wearing, possibility of extended-wearing due to the good ventilation. Also these electrodes on the textile fabric can easily apply to the curved skin surface. These electrodes are fabricated by the screen-printing process with the size of $1mm{ imes}10mm$ and the resultant resistance of these electrodes have the average value of $0.4{Omega}$. The conventional silver chloride electrode shows the average value of $0.3{Omega}$. However, the electrode on the textile fabric are able to measure the sEMG signal without feeling of difference and this electrode shows the lower resistance of $1.03{Omega}$ than conventional silver chloride electrode with $2.8{Omega}$ in the condition of the very sharp curve surface (the radius of curvature is 40 mm).