Carrying Capacity Analysis and Numerical Simulation of Steel Reinforced Concrete Based on ANSYS

Xue Song Luo; Chun Gan; Min Xu

doi:10.4028/www.scientific.net/AMM.729.129

Paper Titles

Increase Pressure and Homogeneity of Die Castings from EN AC 47100 Alloy
p.108

Measurement of Physical and Mechanical Properties of High-Speed Heated Casting Cores
p.114

The Formation of Cracks in Cast-Iron Molds during the Casting of Zinc Blocks
p.119

Experimental Determination of Thermal Kinetic Parameters in Case Study of Tubes with Smooth and Structured Surface
p.125

Carrying Capacity Analysis and Numerical Simulation of Steel Reinforced Concrete Based on ANSYS
p.129

The Current State-of-the-Art in the Field of Material Models of Concrete and other Cementitious Composites
p.134

The Research on Thermal-Mechanical Coupled Analysis and the Lightweight Design of Engine Exhaust Valve
p.143

Simulation of Lateral Extrusion of Spline Form Based on the Software DEFORM-3D
p.149

Artificial Neural Network Modeling of Injection Upsetting Load Prediction
p.155

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 729Carrying Capacity Analysis and Numerical...

Carrying Capacity Analysis and Numerical Simulation of Steel Reinforced Concrete Based on ANSYS

Abstract:

Application of a very wide range of engineering and construction of concrete beam, generally by the concrete and steel components, plays an important role in civil engineering. The unit adopts the structure of what will maximize the load, is the key problem in the design of concrete beam. This paper analyzes the structural characteristics of the Steel Reinforced Concrete and the bearing capacity, the design of a new type of structure. Application of ANSYS software to carry on the numerical simulation to it, and the concrete materials with different strength grades were bearing contrast; through continuous optimization of steel and concrete structure, complete the optimal combination between material, find Steel Reinforced Concrete structure best, and eventually realize the reasonable design of concrete beam.

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Periodical:

Applied Mechanics and Materials (Volume 729)

Pages:

129-133

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.729.129

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Online since:

January 2015

Authors:

Xue Song Luo, Chun Gan*, Min Xu

Keywords:

ANSYS, Numerical Simulation, Optimization Design, Steel Reinforced Concrete

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