Performance of shear-deficient reinforced concrete (RC) beams strengthened with carbon fiber-reinforced polymer (CFRP) strips/sheets is analyzed through numerical Simulations on four-point bending tests. The numerical simulations are carried out using the finite element (FE) program ABAQUS. A microinechanics-based constitutive model (Liang et ol. 2006) is implemented into the FE program ABAQUS to model CFRP strips/sheets. The predicted results are compared with experiment data (Khalifia and Nanni 2002) to assess the accuracy of the proposed FE analysis approach. A series Of numerical tests are conducted to investigate the influence of stirrup lay-ups on the shear strengthening performance of the CFRP strips/sheets, to illustrate the influence of the damage parameters oil the microcrack density evolution in concrete, and to investigate the shear and flexural strengthening performance of CFRP strips/sheets. It has been shown that the proposed FE analysis approach is suitable for the performance prediction of RC beams strengthened with CFRP strips/sheets.