Fastening and joining: finite element and boundary element analyses — A bibliography (1992–1994)

“…The Finite Element (FE) modeling of threaded connections and bolted flanges has been widely investigated, as summarized in Mackerle's reviews [50][51][52]. Some of these studies have focused on the tightening process [36] and the bolt-up sequence of a flanged connection [37,53].…”

Partially open crack model for leakage pressure analysis of bolted metal-to-metal flange

“…The Finite Element (FE) modeling of threaded connections and bolted flanges has been widely investigated, as summarized in Mackerle's reviews [50][51][52]. Some of these studies have focused on the tightening process [36] and the bolt-up sequence of a flanged connection [37,53].…”

Partially open crack model for leakage pressure analysis of bolted metal-to-metal flange

“…It was shown that a higher number of dowels affected the beam stiffness more than the ultimate load. FEM and the boundary element method (BEM) are the most popular numerical methods in the research of wooden joints, they are illustrated in reviews of numerical models of joints ranging between the years 1990 to 2015 [13][14][15]. In terms of dowel joints, there are many FE techniques implemented in software that an analyst can currently use, within which there are four basic model categories -solid bolt, coupled bolt, spider bolt and no-bolt [16][17][18].…”

The numerical assessment of a full-scale historical truss structure reconstructed with use of traditional all-wooden joints

“…Finally, experimental tests were performed on joints using white light speckle method by Liu [32]. Numerical implementation and coupling of finite elements of different topology in the study of joints were proposed by Pey et al [33], and a good review on finite and boundary element methods was given by Mackerle [34,35]. Regarding the topic of composite structures, the work by Chowdhury et al [41] and Shen et al [42] should be cited for their application to practical engineering practices for the static and fatigue strength of joints.…”

Trustworthiness in Modeling Unreinforced and Reinforced T-Joints with Finite Elements