@ARTICLE{Barszcz_A.M._Validation_2018, author={Barszcz, A.M.}, volume={Vol. 64}, number={No 2}, journal={Archives of Civil Engineering}, pages={111-146}, howpublished={online}, year={2018}, publisher={WARSAW UNIVERSITY OF TECHNOLOGY FACULTY OF CIVIL ENGINEERING and COMMITTEE FOR CIVIL ENGINEERING POLISH ACADEMY OF SCIENCES}, abstract={This paper deals with a Continuous Stiffness Degradation (CSD) version of advanced analysis of braced steel framing. It is based on the gradual stiffness degradation concept of frame and truss members. A novelty of the approach presented herein is related to the introduction of the bracing member response in the whole range of its behaviour in tension and compression, including the post-limit range. The validation of the proposed advanced analysis is performed for braced framework with rolled angle section braces. The validation of the brace force-deformation model has been presented in the author’s earlier publication. The basis for the presented CSD advanced analysis is briefly summarized and its difference with regard to the Refined Plastic Hinge (RPH) version of advanced analysis is emphasized. Experimental investigations dealing with tests on portal braced sub-frame specimens are referred to briefly. Results of the experimental investigations are presented in the form of a frame global response and they are used for the validation of the developed computational model.}, type={Article}, title={Validation of CSD advanced analysis of braced frame responses using subframe experimental investigations}, URL={http://www.journals.pan.pl/Content/115587/PDF-MASTER/pan_doi_blank.pdf}, keywords={steel framework, braced frame, angle brace, post-limit brace behaviour, CSD advanced analysis, validation of computational model}, }