The　cohesive　zone　model　(CZM),　which　is　capable　of　simulating　the　behavior　of　adhesively　bonded　joints　subjected　to　static　and　fatigue　loading,　is　widely　accepted.　In　this　study,　fatigue　peeling/shear　of　RC　with　externally　bonded　(EB)　carbon　fiber-reinforced　polymer　(CFRP)　laminates　under　the　mixed-mode　implementation　of　the　CZM　is　proposed.　The　procedure　has　been　implemented　in　commercial　software　by　programming　the　appropriate　software-embedded　subroutines.　The　main　advantage　of　the　proposed　CZM　is　the　use　of　coupled　mixed-mode　damage　(shear-peeling),　accounting　for　cumulative　damage　resulting　from　fatigue　loading.　Two-dimensional　numerical　simulations　of　the　innovative　double-lap-shear　bonding　test　were　performed　by　the　proposed　CZM.　The　excellent　agreement　between　the　simulated　results　and　the　experimental　results　are　verified,　and　the　good　performance　of　the　method　as　a　predictive　tool　is　demonstrated.　Moreover,　the　peeling/shear　propagation　during　loading　can　be　effectively　predicted.　(C)　2021　American　Society　of　Civil　Engineers.