A Model for Prediction of Failure Initiation and Load Resistance Behavior in Finite Element Analyses of Connections with Welds and Bolts in Combination

Soni, Divyang

05 October 2021

No description available.

Civil Engineering

combined connections

steel connections

finite element modeling

welds and bolts

failure initiation

Investigation of The Failure Mechanism and Moment Capacity Prediction in a Ten Bolt Flush End Plate Moment Connection

Arthur, Godwin Addiah

19 August 2010

No description available.

Civil Engineering

steel

moment connections

flush end plate connections

failure mechanism

A Finite Element Study of Non-Orthogonal Bolted Flange Plate Connections

Hunn, Zachary D.

January 2017

No description available.

Civil Engineering

Non-Orthogonal

Bolted Flange Plate

Seismic

Sloped Connections

Skewed Connections

Finite Element Analysis

Mathematical Modeling of Behavior of T-Stub Connections

Sadasivan, Sridhar

07 October 2004

No description available.

Engineering, Civil

T-stub connections

Frame analysis with PRC's

PRC

MODELING OF SLIP AND BEARING INTERACTIONS IN BOLTED CONNECTIONS SUBJECTED TO CYCLIC LOADING

OLTMAN, JONATHAN A.

08 October 2007

No description available.

Engineering, Civil

bolted connections

computer models

cyclic tests

hysteresis

semi-rigid connections

slip

structural analysis

A Design Procedure for Bolted Top-and-Seat Angle Connections for Use in Seismic Applications

Schippers, Jared D.

21 September 2012

No description available.

Civil Engineering

moment connections

bolted connections

partially restrained

moment frames

finite element modeling

design procedure

Investigation of Simple Shear Connection Economy

Reese, John L.

02 October 2008

No description available.

Civil Engineering

simple shear connections

connection economy

steel beam and column connections

Deformabilidade de ligações viga-pilar de concreto pré-moldado / Deformability of beam-column connections in precast concrete structures

Ferreira, Marcelo de Araújo

22 February 1999

No presente trabalho é abordada uma metodologia analítica para o cálculo de deformabilidades de ligações típicas de concreto pré-moldado, levando-se em conta os mecanismos básicos de deformação na ligação. Foram estudas duas ligações típicas viga-pilar de concreto pré-moldado. A primeira ligação é uma ligação com almofada de elastômero e chumbador. É apresentado um desenvolvimento analítico para o cálculo da deformabilidade ao cisalhamento da ligação. Também, é abordado um procedimento para a determinação da resistência ao cisalhamento. Foram realizados ensaios de cisalhamento, de flexão e torção nessa ligação, onde foram variados a geometria da almofada e o diâmetro do chumbador. A segunda ligação é uma ligação resistente à flexão com chapas soldadas. É apresentado um desenvolvimento para o cálculo da deformabilidade à flexão da ligação. Foram realizados dois ensaios de flexão alternada em um protótipo com ligações soldadas e um protótipo monolítico, o qual serviu de referência para avaliar a rigidez da ligação. Os valores calculados da deformabilidade ao cisalhamento, para os protótipos com almofada de elastômero e chumbador, foram, em média, 23% superiores aos valores experimentais. Todavia, este equacionamento não se aplica ao caso de uma ligação com almofada com um fator de forma maior do que 5. As resistências ao cisalhamento calculadas corresponderam a valores entre 96 a 100% em relação aos valores experimentais. A ligação com chapas soldadas apresentou uma rigidez à flexão da ordem 83% da rigidez da ligação monolítica. O valor calculado para a rigidez à flexão secante foi 5% superior à rigidez apresentada pela ligação ensaiada. O momento máximo de cálculo da ligação, estimado com base na rigidez calculada, foi 6% superior ao momento de ruptura. A partir dos resultados experimentais, demonstrou-se que, através da utilização de procedimentos analíticos para a determinação das deformabilidades, pode-se obter uma boa estimativa para os valores experimentais, constituindo-se assim em uma alternativa viável e em uma ferramenta de grande potencial a ser explorado para o projeto das ligações de concreto pré-moldado. / This thesis discusses an analytical methodology to determine the deformability of beam-column connections for precast concrete structures, considering the basic mechanisms of deformation in these connections. Two typical beam-column connections it was studied. For the first one, which consists of a connection with bearing pad and dowel bars, is presented an analytical development to determine its shear deformability. In addition, it is discussed a procedure to determine its shear resistance and some tests, which include shear, bending moment and sprain about beam axis, are also reported, where it were used different parameters to the bearing pad geometry and to the dowel bar diameter in the connections. For the second connection, which consists of a moment resistant connection with welded plates, is presented an analytical development to determine the connection flexibility. In order to evaluate the flexibility behaviour of the connection, two tests are reported. In the first one was used a rigid connection, which was used as a stiffness reference. As a result, the theoretical shear deformability, calculated to the prototypes with bearing pad and dowel bars, presented 23% more than the experimental results. Therefore, this calculus was not applied for pads with shape factor bigger than 5. The predicted shear resistance suited to values between 96 and 100% in relation to experimental values. The stiffness response of the resistant moment connection suited about 83% of the rigid connection stiffness. The theoretical secant stiffness of the connection it was 5% bigger than the experimental response. The predicted ultimate bending moment it was 6% bigger than moment crack of connection. Based on the analysis of the results, it was demonstrated that, the employ of analytical developments to determine deformabilities in the precast concrete connections is viable and provides good estimated values. In other way, the use of those analytical developments together with available procedures consist on important design tools to be applied for the precast concrete connections.

Concreto pré-moldado

Deformabilidade de ligações

Deformability of connections

Deformation mechanism

Ligações semi-rígidas

Ligações típicas

Mecanismos de deformação

Precast concrete

Semi-rigid connections

Typical connections

Deformabilidade de ligações viga-pilar de concreto pré-moldado / Deformability of beam-column connections in precast concrete structures

Marcelo de Araújo Ferreira

22 February 1999

No presente trabalho é abordada uma metodologia analítica para o cálculo de deformabilidades de ligações típicas de concreto pré-moldado, levando-se em conta os mecanismos básicos de deformação na ligação. Foram estudas duas ligações típicas viga-pilar de concreto pré-moldado. A primeira ligação é uma ligação com almofada de elastômero e chumbador. É apresentado um desenvolvimento analítico para o cálculo da deformabilidade ao cisalhamento da ligação. Também, é abordado um procedimento para a determinação da resistência ao cisalhamento. Foram realizados ensaios de cisalhamento, de flexão e torção nessa ligação, onde foram variados a geometria da almofada e o diâmetro do chumbador. A segunda ligação é uma ligação resistente à flexão com chapas soldadas. É apresentado um desenvolvimento para o cálculo da deformabilidade à flexão da ligação. Foram realizados dois ensaios de flexão alternada em um protótipo com ligações soldadas e um protótipo monolítico, o qual serviu de referência para avaliar a rigidez da ligação. Os valores calculados da deformabilidade ao cisalhamento, para os protótipos com almofada de elastômero e chumbador, foram, em média, 23% superiores aos valores experimentais. Todavia, este equacionamento não se aplica ao caso de uma ligação com almofada com um fator de forma maior do que 5. As resistências ao cisalhamento calculadas corresponderam a valores entre 96 a 100% em relação aos valores experimentais. A ligação com chapas soldadas apresentou uma rigidez à flexão da ordem 83% da rigidez da ligação monolítica. O valor calculado para a rigidez à flexão secante foi 5% superior à rigidez apresentada pela ligação ensaiada. O momento máximo de cálculo da ligação, estimado com base na rigidez calculada, foi 6% superior ao momento de ruptura. A partir dos resultados experimentais, demonstrou-se que, através da utilização de procedimentos analíticos para a determinação das deformabilidades, pode-se obter uma boa estimativa para os valores experimentais, constituindo-se assim em uma alternativa viável e em uma ferramenta de grande potencial a ser explorado para o projeto das ligações de concreto pré-moldado. / This thesis discusses an analytical methodology to determine the deformability of beam-column connections for precast concrete structures, considering the basic mechanisms of deformation in these connections. Two typical beam-column connections it was studied. For the first one, which consists of a connection with bearing pad and dowel bars, is presented an analytical development to determine its shear deformability. In addition, it is discussed a procedure to determine its shear resistance and some tests, which include shear, bending moment and sprain about beam axis, are also reported, where it were used different parameters to the bearing pad geometry and to the dowel bar diameter in the connections. For the second connection, which consists of a moment resistant connection with welded plates, is presented an analytical development to determine the connection flexibility. In order to evaluate the flexibility behaviour of the connection, two tests are reported. In the first one was used a rigid connection, which was used as a stiffness reference. As a result, the theoretical shear deformability, calculated to the prototypes with bearing pad and dowel bars, presented 23% more than the experimental results. Therefore, this calculus was not applied for pads with shape factor bigger than 5. The predicted shear resistance suited to values between 96 and 100% in relation to experimental values. The stiffness response of the resistant moment connection suited about 83% of the rigid connection stiffness. The theoretical secant stiffness of the connection it was 5% bigger than the experimental response. The predicted ultimate bending moment it was 6% bigger than moment crack of connection. Based on the analysis of the results, it was demonstrated that, the employ of analytical developments to determine deformabilities in the precast concrete connections is viable and provides good estimated values. In other way, the use of those analytical developments together with available procedures consist on important design tools to be applied for the precast concrete connections.

Concreto pré-moldado

Deformabilidade de ligações

Ligações semi-rígidas

Ligações típicas

Mecanismos de deformação

Deformability of connections

Deformation mechanism

Precast concrete

Semi-rigid connections

Typical connections

Complex Stress States In Structural Birch Plywood : An experimental study on the behaviour of birch plywood in structural applications

Hedlund, Patrik, Persson, Pontus

January 2021

For structural engineers, the two most important design criteria are utility andsafety. It is about making sure that a structural component is reliable enough not toendanger any of a building's users, while at the same time being as sustainable andefficiently designed as possible. In other words, an element must be safe enough towithstand the improbability and sufficiently cheap to be relevant for the design.Considering this, using a material such as wood instead of metal may prove to be asustainable alternative for certain building components.Timber can be designed to sustain high temperatures and fire; it has a high strengthrelative to its weight and is naturally produced. Furthermore, an engineered woodproduct such as birch plywood has proven very strong in structural applications,especially when glued. Therefore, birch plywood has great potential as a reliablematerial in structural components. In this work, a total of 24 specimens with birchplywood connections were tested experimentally.The specimens were designed to enforce stress states that would occur in actualtrusses. Additionally, Specimens were assembled with two different connectionmethods, one being a dowel-type connection and the other being a glued-type. Eachtype of connection was tested in both tension and compression, with a total of threerepetitions each. For the glued-type specimens, birch plywood plates wereinvestigated in three different angles to the face grain; 0°, 5° and 15°. Theload-displacement relationships and the failure modes are of specific interest in thisthesis.Test results showed that failure modes were semi-brittle and distinct, and the testsshowed that glued-type connections withstood 37% higher loads than dowelledtypes. Specimens might withstand even higher loads if gluing were performed in amore controlled environment. The load-to-face-grain angle of plywood also had asignificant impact on the capacity of connections. For the 0°-specimens with gluedconnections tested in compression, no failures occurred in the plywood, and testsreached loads as high as 82 kN. Calculations were made estimating the load capacityas high as 95 kN, but possibly a more realistic approximation would be 85 kN. Thiswould imply that the 0°-specimens are around 20% stronger than the 15°-specimensand approximately 17,7% stronger than the 5°-specimens tested in compression.Birch plywood is promising to be used in connections of timber structures whereplates transfer forces between structural elements.

large-span-structures

trusses

truss nodes

timber connections

engineered wood products

birch plywood

glued connections

dowelled connections

gusset plates

Engineering and Technology

Teknik och teknologier