Theoretical Basis for CTABS80

Theoretical Basis for CTABS80 PDF Author: Edward L. Wilson
Publisher:
ISBN:
Category : Building
Languages : en
Pages : 138

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Book Description
This report presents the theoretical basis for CTABS80, a computer program for the linear three-dimensional structural analysis of multistory frame and shear wall buildings subjected to static or dynamic loadings. In CTABS80, the building is idealized as an assemblage of vertical independent frame and shear wall systems interconnected by horizontal floor diaphragms which are rigid in their own plane. The frame and shear wall systems must basically be of rectangular geometry (in elevation) with vertical columns (or piers) and horizontal beams (or spandrels). However, with special modeling techniques, very complex situations may be considered. A special shear panel element is developed to enable modeling of discontinuous shear walls and shear walls with arbitrary openings. A diagonal bracing system to model braced frames (X-braced, K-braced, or eccentrically braced systems) is also presented. The column, shear panel, and diagonal formulations include the effects of bending, axial, and shear deformations. Bending and shear deformations are also included in the beam formulation: however, the effects of axial deformations are neglected. The effects of the finite dimensions of the beams and columns on the stiffness of a frame or shear wall system are automatically included. The buildings may be unsymmetrical and nonrectangular in plan. Torsional behavior and interstory compatibility are accurately reflected in the results.

Theoretical Basis for CTABS80

Theoretical Basis for CTABS80 PDF Author: Edward L. Wilson
Publisher:
ISBN:
Category : Building
Languages : en
Pages : 138

Get Book Here

Book Description
This report presents the theoretical basis for CTABS80, a computer program for the linear three-dimensional structural analysis of multistory frame and shear wall buildings subjected to static or dynamic loadings. In CTABS80, the building is idealized as an assemblage of vertical independent frame and shear wall systems interconnected by horizontal floor diaphragms which are rigid in their own plane. The frame and shear wall systems must basically be of rectangular geometry (in elevation) with vertical columns (or piers) and horizontal beams (or spandrels). However, with special modeling techniques, very complex situations may be considered. A special shear panel element is developed to enable modeling of discontinuous shear walls and shear walls with arbitrary openings. A diagonal bracing system to model braced frames (X-braced, K-braced, or eccentrically braced systems) is also presented. The column, shear panel, and diagonal formulations include the effects of bending, axial, and shear deformations. Bending and shear deformations are also included in the beam formulation: however, the effects of axial deformations are neglected. The effects of the finite dimensions of the beams and columns on the stiffness of a frame or shear wall system are automatically included. The buildings may be unsymmetrical and nonrectangular in plan. Torsional behavior and interstory compatibility are accurately reflected in the results.

Computer-Aided Structural Modeling (CASM)

Computer-Aided Structural Modeling (CASM) PDF Author: David Wickersheimer
Publisher:
ISBN:
Category : Computer-aided engineering
Languages : en
Pages : 206

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Book Description


Soil-structure Interaction Parameters for Structured/cemented Silts

Soil-structure Interaction Parameters for Structured/cemented Silts PDF Author: Timothy D. Stark
Publisher:
ISBN:
Category : Shear strength of soils
Languages : en
Pages : 130

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User's Guide

User's Guide PDF Author: Guillermo A. Riveros
Publisher:
ISBN:
Category : CMITERW-LRFD (Computer program)
Languages : en
Pages : 208

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Tutorial Guide

Tutorial Guide PDF Author:
Publisher:
ISBN:
Category : CASM (Computer program)
Languages : en
Pages : 302

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Procedure for Static Analysis of Gravity Dams Including Foundation Effects Using the Finite Element Method

Procedure for Static Analysis of Gravity Dams Including Foundation Effects Using the Finite Element Method PDF Author: Jerry Foster
Publisher:
ISBN:
Category : Finite element method
Languages : en
Pages : 122

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User's Guide to CTWALL

User's Guide to CTWALL PDF Author: Michael E. Pace
Publisher:
ISBN:
Category : CTWALL (Computer program)
Languages : en
Pages : 160

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Dynamics of Intake Towers and Other MDOF Structures Under Earthquake Loads

Dynamics of Intake Towers and Other MDOF Structures Under Earthquake Loads PDF Author: Samuel E. French
Publisher:
ISBN:
Category : Earthquake resistant design
Languages : en
Pages : 100

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Scientific and Technical Aerospace Reports

Scientific and Technical Aerospace Reports PDF Author:
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 660

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Book Description
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.

Users̀“ Guide--computer Program for Three-dimensional Analysis of Building Systems (CTABS80)

Users̀“ Guide--computer Program for Three-dimensional Analysis of Building Systems (CTABS80) PDF Author: Edward L. Wilson
Publisher:
ISBN:
Category : Buildings
Languages : en
Pages : 218

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Book Description
This report is a user's guide for CTABS80, a computer program for the linear three-dimensional structural analysis of multistory frame and shear wall buildings subjected to static or dynamic loadings. In CTABS80, the building is idealized as an assemblage of vertical independent frame and shear wall systems interconnected by horizontal floor diaphragms which are rigid in their own plane. The frame and shear wall systems must basically be of rectangular geometry (in elevation) with vertical columns (or piers) and horizontal beams (or spandrels). However, with special modeling techniques, very complex situations may be considered. A special shear panel element is developed to enable modeling of discontinuous shear walls and shear walls with arbitrary openings. A diagonal bracing element to model braced frames (X-braced, K-braced, or eccentrically braced systems) is also presented. The column, shear panel, and diagonal formulations include the effects of bending, axial, and shear deformations. Bending and shear deformations are also included in the beam formulation; however, the effects of axial deformations are neglected. The effects of the finite dimensions of the beams and columns on the stiffness of a frame or shear wall system are automatically included.