This study aims to expand the scope of application of composite high-strength reinforced concrete column and steel beam structure (New RCS), and it is expected that the beam-column joints of this type of structural systems have good seismic performance when the circular columns are used. Therefore, this study took “joints between high-strength reinforced concrete circular columns and steel beams” as a research subject and adopted the experimental research to evaluate its seismic behavior and develop its design method by performing cyclic tests of beam-column joint specimens. In addition, this study was intended to verify the proposed design methods of “through-beam” and “round-steel-tube” type of New RCS joints with circular columns and strengthening effects of inclined face bearing plates and steel band rings on through-beam type joints, to compare effects of orthogonal and oblique beams welded to the through-beam on seismic behavior of through-beam type joints, and to discuss effects of long stub beam without RBS or short stub beam and link beam with RBS on seismic performance of New RCS joints with circular columns. On the basis of the research purpose, four large-scale specimens of New RCS interior joint with circular columns were designed, including: three through-beam type joints which were configured with spiral reinforcement, inclined face bearing plates, and steel band rings to confine the concrete in the joint and column-end regions; and one round-steel-tube type joint whose concrete in the joint and column-end regions was confined by a round steel tube only. The experimental variables included: angle of intersection of through-beam and welded beams, length of stub beams, and link beams with or without RBS. In order to simulate the seismic behavior of the beam-column joints, this study adopted the method of fixing the inflection points of the upper and lower columns under fixed axial force and applying cyclic loadings on the inflection points of left and right beams whose displacement control the loading process. Afterwards, this study analyzed the test data to evaluate seismic performance of New RCS joints with circular columns. The test results showed that: the through-beam type joints designed according to the proposed method could effectively cause the plastic-hinge failure at the beam ends, and the good strengthening effects of inclined face bearing plates and steel band rings on through-beam type joints were verified; the oblique intersection of through-beam and welded beams could provide additional stiffening effects for the beam ends of the through-beam type joints so that the location of plastic-hinge region would move outward from the column face, and the shear stiffness of the through-beam type joints could be improved; the cyclic behavior of the three through-beam type joint specimens satisfied the requirements of the American code “Seismic Provisions for Structural Steel Buildings” AISC 341-16 (2016) and the Taiwanese code “Design and Technique Specifications of Steel Structures for Buildings” (2010), and that of the round-steel-tube type joint specimen did not meet the requirements of the above two codes; since three of the joint specimens had unexpected brittle failure on their beam members eventually and no plastic-hinge failure occur at the desired location of their beams , this study proposed suggestions for improvement on the design of RBS and beam-splice according to their failure modes.