Add to ORKGAbstract: For an inner doubler plate reinforced tubular joint, the doubler plate is welded onto the inner surface of the chord by using fillet weld, and the position of the doubler plate is placed under the brace/chord intersection. Through this reinforcement, the radial stiffness of the chord is improved, and hence the strength is increased. Finite element model is built by using software ABAQUS to analyze the ultimate load and failure mode of inner doubler plate reinforced tubular T-joints. Overall 432 models with different geometrical parameters and doubler plate sizes are analyzed. The effect of all the parameters on improving the static strength is discussed. Finally, a parametric equation for predicting the static strength of a tubula...
To study structural behaviour of doubler plate reinforced tubular T-joints in fire condition; finite...
In this paper, the effect of the outer reinforcing plate on the initial stiffness, ultimate strength...
10.1061/(ASCE)0733-9445(2005)131:1(129)Journal of Structural Engineering1311129-138JSEN
In this study, the ultimate strength, initial stiffness, and failure mechanisms of tubular T/Y-joint...
In the present study, data extracted from the finite element analysis of 210 models, which were veri...
Reinforcing tubular joints using doubler plates has been a common industrial practice as a last minu...
In the present paper, results of comprehensive finite element (FE) analyses performed on 210 generat...
This paper studies the static strength of circular hollow section (CHS) T/Y-joints reinforced with c...
Tubular Joints play quite a vital role in most of the marine structures. It is obvious that having f...
In the present paper, the static strength of steel collar plate reinforced tubular T/Y-joints is num...
This paper investigates the static strength of collar plate reinforced tubular T/Y-joints subjected ...
Although the use of internal ring stiffeners to enhance the strength of tubular joints is common pra...
In this study, important aspects of nonlinear behavior of tubular joints are numerically investigate...
In the present paper, the effect of the collar plate on the static capacity of circular hollow secti...
The stiffness of hollow section tubular joints is weak in the chord radial direction, and thus failu...
To study structural behaviour of doubler plate reinforced tubular T-joints in fire condition; finite...
In this paper, the effect of the outer reinforcing plate on the initial stiffness, ultimate strength...
10.1061/(ASCE)0733-9445(2005)131:1(129)Journal of Structural Engineering1311129-138JSEN
In this study, the ultimate strength, initial stiffness, and failure mechanisms of tubular T/Y-joint...
In the present study, data extracted from the finite element analysis of 210 models, which were veri...
Reinforcing tubular joints using doubler plates has been a common industrial practice as a last minu...
In the present paper, results of comprehensive finite element (FE) analyses performed on 210 generat...
This paper studies the static strength of circular hollow section (CHS) T/Y-joints reinforced with c...
Tubular Joints play quite a vital role in most of the marine structures. It is obvious that having f...
In the present paper, the static strength of steel collar plate reinforced tubular T/Y-joints is num...
This paper investigates the static strength of collar plate reinforced tubular T/Y-joints subjected ...
Although the use of internal ring stiffeners to enhance the strength of tubular joints is common pra...
In this study, important aspects of nonlinear behavior of tubular joints are numerically investigate...
In the present paper, the effect of the collar plate on the static capacity of circular hollow secti...
The stiffness of hollow section tubular joints is weak in the chord radial direction, and thus failu...
To study structural behaviour of doubler plate reinforced tubular T-joints in fire condition; finite...
In this paper, the effect of the outer reinforcing plate on the initial stiffness, ultimate strength...
10.1061/(ASCE)0733-9445(2005)131:1(129)Journal of Structural Engineering1311129-138JSEN