The luminescence performance of micro-light emitting diodes (μLEDs) under high injection level was investigated by injection current dependent electroluminescence (EL) and numerical simulations. It is shown in EL measurements that the power output density of μLED (10 μm) seems not saturate under extremely high current density of 16 kA/cm², and also there is no obvious self-heating-related wavelength redshift under high injection level. The degree of strain relaxation is estimated to be 23% for 10 μm LED based on the blueshift of EL peak under the same injection level as compared to 300 μm LED. APSYS simulations show that the current distribution and carrier concentration are much more homogeneous among the wells for μLED due to strain relaxation and uniform current spreading. These uniform distributions lead to high luminous efficiency and high current density endurance for μLED.