Evaluation of the ultimate strength of R.C. rectangular columns subjected to axial force, bending moment and shear force

Summary A new buckling equation in horizontal wells is derived on the basis of the general bending and twisting theory of rods. The boundary conditions of a long tubular string are divided into two categories: the sum of the virtual work of bending moment and shear force at the ends of tubular strings is equal to zero, and the sum of the virtual work of bending moment and shear force at the ends is not equal to zero. Buckling solutions under different boundary conditions are obtained by solving the new buckling model. For the boundary conditions of the first category, the buckling solutions are identical with previous results. For the boundary conditions of the second category, the buckling solutions are different from the results under the boundary conditions of the first category. The results indicate that buckling behaviors depend on both the axial force and the boundary conditions. Compared with previous results, buckling solutions of the new model provide a more comprehensive description of tubular-buckling behaviors.

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Numerical Simulations for Bending Moment Distribution on Linings of Tunnel Excavated by Shield

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.744-746.1033 ◽

2015 ◽

Vol 744-746 ◽

pp. 1033-1036

Author(s):

Zi Chang Shangguan ◽

Shou Ju Li ◽

Li Juan Cao ◽

Hao Li

Keyword(s):

Numerical Simulations ◽

Axial Force ◽

Shear Force ◽

Bending Moment ◽

Geological Data ◽

Fem Model ◽

Maximum Moment ◽

Moment Distribution ◽

Negative Moment ◽

The Moment

In order to simulate moment distribution on linings of tunnel excavated by shield, FEM-based procedure is proposed. According to geological data of tunnel excavated by shield, FEM model is performed, and the moment, axial force and shear force distributions on linings are computed. The maximum moment on segments decreases while Poisson’s ratio of soil materials touching to segments increases. The moment value and distribution vary with Young’s modulus of soil materials. The maximum positive moment on linings is approximately equal to the maximum negative moment.

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SEISMIC PERFORMANCE AND CORRELATION CHRACTERISTICS OF REINFORCED CONCRETE COLUMNS SUBJECTED TO TORSIONAL MOMENT, BENDING MOMENT/SHEAR FORCE AND AXIAL FORCE

Doboku Gakkai Ronbunshu ◽

10.2208/jscej.2005.801_123 ◽

2005 ◽

pp. 123-139 ◽

Cited By ~ 1

Author(s):

Hisanori OTUKA ◽

Eizou TAKESHITA ◽

Yousuke URAKAWA

Keyword(s):

Reinforced Concrete ◽

Seismic Performance ◽

Axial Force ◽

Shear Force ◽

Bending Moment ◽

Concrete Columns ◽

Torsional Moment ◽

Reinforced Concrete Columns

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Study on the Frame Structure under Nonuniform Settlement

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.94-96.830 ◽

2011 ◽

Vol 94-96 ◽

pp. 830-833 ◽

Cited By ~ 1

Author(s):

Dong Mei Zhao ◽

Ying Xu Zhao ◽

Yan Xia Ye

Keyword(s):

Axial Force ◽

Shear Force ◽

Bending Moment ◽

Elastic Support ◽

Frame Structure ◽

Space Frame ◽

Nonuniform Settlement ◽

Space Frame Structure ◽

Support Model

In this paper, the effect of the non-uniformity settlement of ground foundation on the upper frame structure is studied. It takes a four-story space frame structure with two spans as an example. The different pedestals are installed at the joint of column footing, which respectively form the fixed supported model and the elastic supported model. Basin shaped settlement is applied in each model. The result shows that the beams are principally suffered with the bending moment and the columns principally suffered with axial force, shear force and bending moment, and that the elastic support model has certain economy.

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Analisis dan Desain Struktur Atas Hotel 10 Lantai di Kabupaten Bogor terhadap Beban Gempa

Jurnal Teknik Sipil dan Lingkungan ◽

10.29244/jsil.6.1.1-10 ◽

2021 ◽

Vol 6 (1) ◽

pp. 1-10

Author(s):

I Wayan Wirya Aristyana ◽

Muhammad Fauzan

Keyword(s):

Axial Force ◽

Shear Force ◽

Bending Moment ◽

Shear Wall ◽

Floor Plate ◽

Earthquake Loads ◽

Internal Forces ◽

Ultimate Moment ◽

Reinforcement Design

The type of soil at the location of the hotel building is a type of medium land (D). The applications used in this study are ETABS V16.1 and AutoCAD. Based on the PUSKIM website, the Ss and S1 Bogor City were 0.881 and 0.356, respectively. Based on the results of the analysis of the application ETABS V16.1 obtained fewer reinforcement design results than the existing reinforcement. The maximum nominal moment of the beam is 508.3 kNm while the ultimate moment is 498.4 kNm. The maximum nominal shear force of the beam is 565.9 kN while the ultimate shear force is 538.4 kN. The maximum nominal moment of the column is 1488.5 kNm while the maximum ultimate moment is 1478 kNm. The maximum nominal axial force of the column is 6291 kN while the maximum ultimate axial force is 6287 kN. The maximum nominal bending moment of the floor plate is 41.3 kNm while the maximum ultimate moment is 39.9 kNm. The maximum nominal shear force of the floor plate is 234.7 kN while the maximum ultimate shear force is 228.9 kN. The nominal shear force of shear wall is 8238.5 kN while the ultimate shear force is 8194.7 kN. Based on the internal forces, the building that has been built is in accordance with the plan so that it is safe to withstand earthquake loads.

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The Limit Load Interactions of the Brazed Aluminum Plate-Fin Heat Exchanger Header Under Combined Piping Loads

Journal of Pressure Vessel Technology ◽

10.1115/1.4002050 ◽

2011 ◽

Vol 133 (3) ◽

Cited By ~ 1

Author(s):

Wei Wang ◽

Liang Chen ◽

Caidong Guo

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Heat Exchanger ◽

Axial Force ◽

Shear Force ◽

Bending Moment ◽

Limit Load ◽

Force Component ◽

Element Analysis ◽

Interaction Curves

In order to investigate the strength design problem of the brazed aluminum plate-fin heat exchanger header under complex external piping loads, the limit load interactions of the header under combined piping loads are studied in this paper. To establish the limit piping load interaction curves, nonlinear finite element analysis assuming the elastic perfectly plastic material model is performed by using the commercial finite element analysis software ANSYS and multiple piping load combinations, which are the combination of orthogonal bending moment components, torque component-shear force component, bending moment component-axial force component, compound bending moment-axial force component, and torque component-compound shear force, of the header with six opening ratios ranging from 0.5 to 1 are explored. The results of the interaction diagrams show that the feasible combined piping load zone of the header derived from the interaction curves can be simplified as a triangular zone determined by the individual limit piping load components safely and the simplified feasible zone is suggested to be used for establishing a simplified safety assessment method for the header under combined piping loads.

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Behavior of reinforced concrete slender rectangular columns under uniaxial loading

MATEC Web of Conferences ◽

10.1051/matecconf/201816204022 ◽

2018 ◽

Vol 162 ◽

pp. 04022

Author(s):

Bassman Muhammad

Keyword(s):

Reinforced Concrete ◽

Ultimate Strength ◽

Cross Section ◽

Bending Moment ◽

The Past ◽

Slender Columns ◽

Slender Column ◽

Structural Engineers ◽

Rectangular Columns

Two proposed formulae are presented to obtain the reinforced concrete slender column capacity. Reinforced concrete slender columns are used more nowadays than in the past 30 years because of development of engineering materials. Structural engineers that adopted the ACI 318M Code know that the design of this type of columns is more tedious than short ones. This research proposes two formulae that reflect the ultimate strength of cross section of slender columns, one for the axial and the second for the bending moment. Case study of 656250 columns is generated to cover most variable properties of columns, analyzed using MATLAB (R2017a) Program to obtain the ultimate strength of cross section then compared to the strength of slender columns.

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Axial Force, Shear Force and Bending Moment in Beams

Engineering Statics ◽

10.1201/9781003098157-7 ◽

2020 ◽

pp. 171-193

Author(s):

M. Rashad Islam ◽

Md Abdullah Al Faruque ◽

Bahar Zoghi ◽

Sylvester A. Kalevela

Keyword(s):

Axial Force ◽

Shear Force ◽

Bending Moment

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A Cantilever Subjected to Axial Force, Bending Moment, and Shear Force

Journal of Mechanics ◽

10.1017/jmech.2014.43 ◽

2014 ◽

Vol 30 (5) ◽

pp. 549-559 ◽

Cited By ~ 3

Author(s):

W.-D. Tseng ◽

J.-Q. Tarn ◽

C.-C. Chang

Keyword(s):

State Space ◽

Axial Force ◽

Eigenfunction Expansion ◽

Shear Force ◽

Bending Moment ◽

Stress Fields ◽

Orthotropic Body ◽

Rigorous Solution ◽

End Conditions ◽

Space Formalism

AbstractWe present an exact analysis of the displacement and stress fields in an elastic 2-D cantilever subjected to axial force, shear force and moment, in which the end conditions are exactly satisfied. The problem is formulated on the basis of the state space formalism for 2-D deformation of an orthotropic body. Upon delineating the Hamiltonian characteristics of the formulation and by using eigenfunction expansion, a rigorous solution which satisfies the end conditions is determined. The results show that the end condition alters the stress significantly only near the end, and elementary solutions in the form of polynomials can give sufficiently accurate results except near the ends. Such a system would give rise to localized stresses and displacements in the immediate neighborhood of the ends, and the effect may be expected to diminish with distance on account of geometrical divergence.

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