Construcciónes Metálicas-Charla UPN.
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Transcript of Construcciónes Metálicas-Charla UPN.
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Construcción Metálica
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Ing.César Aranís García-Rossell
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Situación de la Construcción Metálica en el Perú
• Desde la apertura económica de principios de los 90’s la construcción metálica a evolucionado en el mercado de edificaciones de los ‘’techados metálicos’’ a los ‘’edificios metálicos’’, principalmente en el segmento de construcción comercial y otras aplicaciones.
• Razones: Apertura económica y Globalización• Etapa introductoria → desarrollo futuro• Perspectivas : Mayor participación en el
mercado de edificaciones
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Y dentro de poco…………….
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El Acero Estructural
• El comportamiento de las estructuras de acero en un sismo depende de las propiedades mecánicas del material : Resistencia, Ductilidad, y Tenacidad.
• Estas propiedades a su vez dependen del proceso usado en la fabricación de los elementos estructurales de acero.
• El acero es una aleación de fierro una pequeña cantidad de carbono y cantidades variables tambien pequeñas de : Mn , P , S , Si………….
• Estos y otros elementos están presentes no intencionalmente o se añaden para alcanzar características y propiedades especificas.
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• El acero se fabrica comunmente en hornos de oxigeno básico y en hornos de arco electrico (‘’chatarra’’)
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Materia prima (chatarra)
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El Horno de arco electrico
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Perfiles de acero estructural
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Propiedades físicas del acero estructural
• A nivel microestructural todos los metales estan compuestos de granos
• Grano : Matriz tridimensional de atomos arreglados en una estructura cristalina regular y repetitiva
• Esta microestructura a su vez esta determinada por la composición química, deformación y la historia termica del acero
• Los acero estructurales mas usados tienen una matriz de granos de ferrita con una pequeña dispersión de perlita, microestructura que ofrece resistencia , tenacidad y soldabilidad.
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• Ejemplos de estos aceros son el : A 36 , A 572 y A 992. Tienen la tenacidad, ductilidad y soldabilidad adecuadas para el diseño sismoresistente.
• Adicionalmente el proceso de fabricación puede considerar tratamientos térmicos como el revenido y temperado (procesos con control de temperatura) como en el caso del A 913 especificado para zonas sismicas
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Propiedades Mecánicas del Acero Estructural
• Resistencia a la fluencia
• Resistencia a la tracción
• Ductilidad
• Tenacidad a la fractura
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7.50 m 7.50
0.35
0.70m
0.36m
0.25
Concreto Armado
Acero
Luces de vigas en Acero: 6-7.50-9.0-10.0-12.0-15.0 mts
Luces de vigas en concreto armado: ≤ 8.40 m …………
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Losas de entrepisos compuestas de placa colaborante y concreto
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35Columna de concreto equivalente
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Entrepiso listo para vacear el concreto
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Benefits of Structural Steel
Some benefits associated with use of structural steel for owners are:
• Steel allows for reduced frame construction time and the ability to construct in all seasons
• Steel makes large spans and bay sizes possible, providing more flexibility for owners
• Steel is easier to modify and reinforce if architectural changes are made to a facility over its life
• Steel is lightweight and can reduce foundation costs
• Steel is durable, long-lasting and recyclable (AISC 1999)39
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Unique Aspects of Steel Construction
Procurement and management of structural steel is similar to other materials, but there are some unique aspects to steel construction:
• Steel is fabricated off-site (above left)
• On-site erection is a rapid process (above right)
• This gives use of structural steel some scheduling advantages
• Coordination of all parties is essential for achieving potential advantages
(AISC 1999)40
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Braced Frames and Rigid Frames
This presentation focuses on braced frames (left) and rigid frames (right) 41
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Steel Frame Connection Types
The Specification for Structural Steel Buildings (AISC 2005) defines two types of connections:• Simple Connections (above left)
• Moment Connections (above right)
Fully-Restrained and Partially-Restrained42
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Simple Connections
• Designed as flexible connections
• Connections are assumed to be free to rotate
• Vertical shear forces are the primary forces transferred by the connection
• Require a separate bracing system for lateral stability
• The following few slides show some common simple framing connections43
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Common Simple Connections
Single Plate Connection (Shear Tab)
A plate is welded to the supporting member and bolted to the web of the
supported beam
Double Angle Connection
The in-plane pair of legs are attached to the web of the supported
beam and the out-of-plane pair of legs to the flange or web of the
supporting member
(Green, Sputo, and Veltri)44
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Common Simple Connections
Shear End Plate Connection
A plate is welded perpendicular to the end of the supported web and
attached to the supporting member
Single Angle Connection
One leg is attached to the web of the supported beam and the other leg to the flange or web of the supporting
member
(Green, Sputo, and Veltri)45
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Common Simple Connections
Seated Connection
An angle is mounted with one leg vertical against the supporting
column, and the other leg provides a “seat” upon which the beam is
mounted
A stabilizer connection is also provided at the top of the web
Tee Connection
The stem of a WT section is connected to the supported member
and the flange attached to the supporting member
(Green, Sputo, and Veltri)46
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Moment Connections
• Designed as rigid connections which allow little or no rotation
Used in rigid frames
• Moment and vertical shear forces are transferred through the connection
• Two types of moment connections are permitted:
Fully-Restrained
Partially-Restrained47
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Moment Connections
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Common FR Connections
Bolted Extended End-Plate Connection
A plate is welded to the flanges and web of the supported member and
bolted with high-strength bolts to the supporting column
Welded Flange Connection
Complete-joint-penetration groove welds directly connect the top and bottom flanges of the supported
member to the supporting column
A shear connection on the web is used to transfer vertical shear forces(Green, Sputo, and Veltri)
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Rigid Frames
• Rigid frames, utilizing moment connections, are well suited for specific types of buildings where diagonal bracing is not feasible or does not fit the architectural design
• Rigid frames generally cost more than braced frames (AISC 2002)50
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Braced Frames
• Diagonal bracing creates stable triangular configurations within the steel building frame (AISC 2002)
• “Braced frames are often the most economical method of resisting wind loads in multi-story buildings (AISC 1991).”
• Some structures, like the one pictured above, are designed with a combination braced and rigid frame to take advantage of the benefits of both 51
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• Structural steel frames require temporary bracing during construction
• Temporary bracing is placed before plumbing up the structural frame
• This gives the structure temporary lateral stability
• Temporary bracing is removed by the erector
Temporary Bracing
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• In a braced frame, temporary bracing is removed after final bolt-up is complete and the permanent bracing system is in place
• In a rigid frame, temporary bracing is removed after final bolt-up is complete
Temporary Bracing
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Concentric Braced Frames
• Bracing is concentric when the center lines of the bracing members intersect
• Common concentric braced frames used in buildings today include: X brace (above left)
Two story X’s
• X bracing is possibly the most common type of bracing
• Bracing can allow a building to have access through the brace line depending on configuration (AISC 2002)
Chevron (above right)
Single diagonals
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X Bracing
• Connections for X bracing are located at beam to column joints
• Bracing connections may require relatively large gusset plates at the beam to column joint
• The restriction of space in these areas may have an impact on the mechanical and plumbing systems as well as some architectural features
(AISC 2002)55
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• Chevron bracing members use two types of connections
• The floor level connection may use a gusset plate much like the connection on X braced frames
• The bracing members are connected to the beam/girder at the top and converge to a common point
• If gusset plates are used, it is important to consider their size when laying-out mechanical and plumbing systems that pass through braced bays (AISC 2002)
Chevron Bracing
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Eccentrically Braced Frames
• Eccentric bracing is commonly used in seismic regions and allows for doorways and corridors in the braced bays
• The difference between Chevron bracing and eccentric bracing is the space between the bracing members at the top gusset connection
In an eccentrically braced frame bracing members connect to separate points on the beam/girder
• The beam/girder segment or “link” between the bracing members absorbs energy from seismic activity through plastic deformation (AISC 2002)
Eccentric Brace
Link
Gusset
Eccentric brace with typical brace to beam connection (Adapted from AISC 2002)
Beam or Girder
Stiffeners
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Eccentrically Braced Frames
• Eccentrically braced frames look similar to frames with Chevron bracing
• A similar V shaped bracing configuration is used
(AISC 2002)58
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Eccentrically Braced Frames
Eccentric single diagonals may also be used to brace a frame
(EERC 1997)
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Structural Steel: The Material of Choice
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