The compression rheological behavior of Mo-12Si-8.5B alloy reinforced by layered Mo2TiAlC2 phase is studied. The trend of flow stress and microstructure evolution was investigated. The results show that the Mo2TiAlC2 strengthens the Mo-12Si-8.5B alloy mainly by particle strengthening and grain boundary strengthening at high temperatures, with the increase of Mo2TiAlC2 content, the peak stress of alloy improved by 43.8% at most.. The microstructural observations reveal that the deformation of Mo-12Si-8.5B-Mo2TiAlC2 alloy at high temperatures is mainly provided by the plastic deformation of the soft α-Mo phase and grain boundary sliding. As the temperature rises to 1300℃-1400℃, the intermetallic phase gradually participates in the deforming, however, it contributes less to the total deformation, while dynamic recovery and recrystallization greatly reduce dislocations, and the deformed α-Mo grains are re-equiaxed. The Mo2TiAlC2 particles can inhibit dynamic recrystallization grain growth to some extent.