Análise da influência do grauteamento e da posição das armaduras na ligação viga-pilar em estruturas de concreto pré-moldado

Abstract: Agradeço primeiramente Deus por iluminar meus caminhos e por ter me permitido realizar mais essa etapa em minha vida. Ao meu noivo Fábio Soares, por ter enfrentado ao meu lado cada etapa ao longo deste trabalho, pela indispensável contribuição na execução dos protótipos, estando sempre presente e disposto a ajudar seja qual for o trabalho, pelo amor e incentivo dedicados a mim tornando as coisas mais simples. Aos meus queridos pais Adelice e Gilmar, que são a minha vida, e sempre me apoiaram em tudo e fizeram … Show more

“…However, it should be noted that the expression indicated in NBR 9062 [27] for obtaining secant stiffness does not include the types of connections investigated in this paper. Thus, as an additional contribution of this paper, it were obtained (for two types of connection) the coefficients k and e b present in the simplified expression of NBR 9062 [27] for the prediction of the secant stiffness, from the experimental results obtained by Lacerda [26].…”

“…The experimental program was performed by Lacerda [26] and consisted of the investigation of interior precast beam-column connections specimens under negative bending moment. The main goals of the experimental program were to verify the influence of two variables: n Vertical grout filling at the interface between corbel and beam (Figure 2); n Position of the continuity reinforcement (crossing only the column or only the slab (Figures 3 and 4).…”

“…In one connection, the continuity reinforcement was fully placed crossing the column; at the other connection, half of the continuity reinforcement crossed the column and the remaining half was distributed in the slab. This paper presents results of experimental studies conducted by Lacerda [26] about the behavior of four types of precast beam-column connections that can be used in the construction of structures with more than one story, such as factory constructions, industries, and residential buildings. The types of investigated beam-column connections are designed for negative bending moments and are composed of continuity reinforcement, precast beam supported by precast column corbel and fixed by steel dowels and grout filling at the beam and column interface.…”

“…The types of investigated beam-column connections are designed for negative bending moments and are composed of continuity reinforcement, precast beam supported by precast column corbel and fixed by steel dowels and grout filling at the beam and column interface. The main goal of Lacerda [26] was to evaluate the behavior of the connections under the influence of the filling the lower interface between the beam and the corbel (with or without grout) and the influence of the position of the continuity reinforcement (crossing only the column or only the slab). In order to evaluate the flexural stiffness for negative moments of the connections, it was necessary to obtain experimentally the moment-rotation curves and the secant stiffness of the studied connections.…”

Experimental study on precast beam-column connections with continuity reinforcement for negative bending moments

“…However, it should be noted that the expression indicated in NBR 9062 [27] for obtaining secant stiffness does not include the types of connections investigated in this paper. Thus, as an additional contribution of this paper, it were obtained (for two types of connection) the coefficients k and e b present in the simplified expression of NBR 9062 [27] for the prediction of the secant stiffness, from the experimental results obtained by Lacerda [26].…”

“…The experimental program was performed by Lacerda [26] and consisted of the investigation of interior precast beam-column connections specimens under negative bending moment. The main goals of the experimental program were to verify the influence of two variables: n Vertical grout filling at the interface between corbel and beam (Figure 2); n Position of the continuity reinforcement (crossing only the column or only the slab (Figures 3 and 4).…”

“…In one connection, the continuity reinforcement was fully placed crossing the column; at the other connection, half of the continuity reinforcement crossed the column and the remaining half was distributed in the slab. This paper presents results of experimental studies conducted by Lacerda [26] about the behavior of four types of precast beam-column connections that can be used in the construction of structures with more than one story, such as factory constructions, industries, and residential buildings. The types of investigated beam-column connections are designed for negative bending moments and are composed of continuity reinforcement, precast beam supported by precast column corbel and fixed by steel dowels and grout filling at the beam and column interface.…”

“…The types of investigated beam-column connections are designed for negative bending moments and are composed of continuity reinforcement, precast beam supported by precast column corbel and fixed by steel dowels and grout filling at the beam and column interface. The main goal of Lacerda [26] was to evaluate the behavior of the connections under the influence of the filling the lower interface between the beam and the corbel (with or without grout) and the influence of the position of the continuity reinforcement (crossing only the column or only the slab). In order to evaluate the flexural stiffness for negative moments of the connections, it was necessary to obtain experimentally the moment-rotation curves and the secant stiffness of the studied connections.…”

Experimental study on precast beam-column connections with continuity reinforcement for negative bending moments

“…It can be seen in Figure 1 that the consideration of fully rigid connections may differ considerably from the actual behavior, even in monolithic connections. Experimental investigation conducted by Lacerda [30] can be cited among the most recent national researches on precast connections. In this investigation, the influence of continuity reinforcement positioning on precast connections were analyzed.…”

Influence of the stiffness of beam-column connections on the structural analysis of reinforced concrete buildings