The reinforced concrete columns are important members of structures. Under the attack of earthquake, columns should have deformability and ensure that both axial and lateral bearing capacity can be maintained. Therefore, the shear capacity of columns should be high enough, and the confinement of columns should also be under good condition. Transverse reinforcement is an important resistance that affects the seismic behavior. Transverse reinforcement can provide the confining effect and the shear strength. For existing columns that are susceptible to shear failure due to insufficient transverse reinforcement or require emergent retrofit after the earthquake, this study proposes a retrofitting measure using the "external hoop." External hoop can be quickly installed outside the existing column. In addition to providing shear strength, this method can provide the active confinement by applying lateral prestress to the external hoops. In this study, four columns (height-to-depth ratio of 4) without internal transverse reinforcement are retrofitted with external hoops. Test parameters include the lateral prestress level, the spacing of the external hoops and the applied axial force. Therefore, we can observe the applicability of this retrofit method and the behavior of columns using this retrofit method. For new structures, this study proposes a new type of tie "90-180 degree tie." Using this new construction method, the constructability and the confinement effect can be improved. These two test programs were carried out in NCREE. The column specimens were tested under double curvature with high axial loads to observe the seismic behavior of columns of real structures. The test results show that columns retrofitted with external hoops can have higher shear capacity to avoid the occurrence of brittle shear failure. The columns using the 90-180 degree tie can improve the confining effect and enhance the seismic behavior. It is proved to be a new construction method that can be widely promoted in the industry in the near future.