摘要
With the growing demand for rectangular and square hollow steel sections in the last few decades, the cold roll forming process has become a widely acknowledged manufacturing method. However, the residual stress generated during the roll forming process is one of the primary concerns on roll‐formed products. One of the leading sources of residual stress is the severe plastic deformation that sheet metal experiences. It is well‐known that residual stress significantly affects the product's service life. In this regard, several researchers have conducted numerical and experimental investigations of residual stress distributions on roll‐formed steel sections. However, most of the studies found in the literature have been confined to the measurement of residual surface stresses. On the other hand, experimental studies conducted on fatigue and load‐carrying capacity of hollow structural steels have shown that there is indeed a simple relation between the through‐thickness residual stress distributions and mechanical properties of structures. Thus, this article employed a proper numerical modeling procedure using LS‐DYNA's finite element code to explore through‐thickness residual stress distributions generated during the roll forming process of rectangular and square hollow steel sections from different material grades. Moreover, a small‐scale parametric study was conducted to explore the effects of the partial heating roll forming method on through‐the‐thickness residual stress distributions.(#br)This investigation employs a proper numerical modeling procedure using LS‐DYNA's finite element code to explore through‐thickness residual stress distributions generated during the roll forming process of two rectangular and two square hollow steel sections from different material grades (Q345, S420, and S700MC). Moreover, the effects of the partial heating roll forming method on through‐the‐thickness residual stress distributions were studied using a numerical method.
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