Abstract
M.Ing. (Civil Engineering)
The results of a study presented on the behaviour of cold-formed stainless steel beams
subjected to shear taking into account elastic shear buckling, inelastic shear buckling
and shear yielding, as well as an investigation into the interaction relationship between
shear and bending are presented.
From this investigation the results obtained show good relation to the theory. The local shear buckling stress was experimentally determined and it was found that for unreinforced beam webs the shear buckling coefficient is that of an infinitely long plate, namely k=5,34. A good agreement between the experimental ultimate shear strength and the predicted ultimate shear strength was found.
Stainless steel beams comprising of lipped channels were manufactured and tested to
failure. The types of stainless steels used in this investigation were Types 304, 316,
430 and Type 3CR12 corrosion resiting steel, a modified Type 409 stainless steel. The
stress-strain relationship for stainless steels differs from that of carbon steel in that stainless steel is a gradual yielding material. It was concluded in this investigation that Gerard's plasticity reduction factor, Gs/G o, should be used as a plasticity reduction factor in calculations concerning shear. It was found that present design criteria are adequate.