Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
EFFECTS OF IMPACT VELOCITY AND SLENDERNESS RATIO ON DYNAMIC BUCKLING LOAD FOR LONG COLUMNS
View through CrossRef
In this research, the buckling behavior of long columns under dynamic load was investigated both experimentally and numerically, and an effective buckling criterion for dynamic load was derived from the results in terms of the impact velocity and the slenderness ratio. In the experiments, a free fall drop-weight type impact testing machine was employed. The dynamic buckling loads were measured by the load sensing block, and the displacements were measured by a high speed magnetic-resistance device. In the numerical analyses, dynamic FEM code 'MSC-Dytran' was used to simulate the typical experimental results, and the validity and the accuracy of the simulations were checked. The dynamic buckling loads at various impact velocities were then systematically investigated. From both experimental and simulated results, it was found that the dynamic to static buckling load ratios can be successfully described as a square function of the slenderness ratio of the columns, while they can be also described by a power law of the applied impact velocity.
Title: EFFECTS OF IMPACT VELOCITY AND SLENDERNESS RATIO ON DYNAMIC BUCKLING LOAD FOR LONG COLUMNS
Description:
In this research, the buckling behavior of long columns under dynamic load was investigated both experimentally and numerically, and an effective buckling criterion for dynamic load was derived from the results in terms of the impact velocity and the slenderness ratio.
In the experiments, a free fall drop-weight type impact testing machine was employed.
The dynamic buckling loads were measured by the load sensing block, and the displacements were measured by a high speed magnetic-resistance device.
In the numerical analyses, dynamic FEM code 'MSC-Dytran' was used to simulate the typical experimental results, and the validity and the accuracy of the simulations were checked.
The dynamic buckling loads at various impact velocities were then systematically investigated.
From both experimental and simulated results, it was found that the dynamic to static buckling load ratios can be successfully described as a square function of the slenderness ratio of the columns, while they can be also described by a power law of the applied impact velocity.
Related Results
Experimental Study Of Curvature And Frictional Effects On Buckling
Experimental Study Of Curvature And Frictional Effects On Buckling
ABSTRACT
Buckling and post-buckling lock-up place a limit on the reach of extended-reach and horizontal wells. Although buckling has received considerable theoret...
Buckling Analysis of Extruded Polystyrene Columns with Various Slenderness Ratios
Buckling Analysis of Extruded Polystyrene Columns with Various Slenderness Ratios
Extruded polystyrene (XPS) has recently been used for construction such as in walls, and floors. When it is used for walls, axial load is inevitably applied along the length direct...
Out-plane Buckling of Arches with Variable Cross-section
Out-plane Buckling of Arches with Variable Cross-section
Variable cross-section arch is widely used in practical engineering because of its beautiful arc and excellent mechanical properties. However, there is still no systematic and comp...
[RETRACTED] Keanu Reeves CBD Gummies v1
[RETRACTED] Keanu Reeves CBD Gummies v1
[RETRACTED]Keanu Reeves CBD Gummies ==❱❱ Huge Discounts:[HURRY UP ] Absolute Keanu Reeves CBD Gummies (Available)Order Online Only!! ❰❰= https://www.facebook.com/Keanu-Reeves-CBD-G...
Elastic Buckling of Prismatic Web Plate under Shear with Simply-Supported Boundary Conditions
Elastic Buckling of Prismatic Web Plate under Shear with Simply-Supported Boundary Conditions
This study aims to investigate the local elastic buckling behavior of simply-supported prismatic web plates under pure shear loading. Comprehensive finite element analysis is condu...
Suction Pile Allowable Suction Pressure Envelopes Based on Soil Failure and Structural Buckling
Suction Pile Allowable Suction Pressure Envelopes Based on Soil Failure and Structural Buckling
Abstract
This study develops the allowable suction pressure envelopes using applicable industrial codes for different suction pile sizes at various penetration depth...
Research on the mechanical properties of reinforced steel fiber concrete column under impact loading
Research on the mechanical properties of reinforced steel fiber concrete column under impact loading
Abstract
In order to study the effect of different slenderness ratio and axial compression ratio on the lateral impact resistance of reinforced steel fiber reinforce...
Equivalent Geometric Imperfections for Local Buckling of Slender Box-section Columns
Equivalent Geometric Imperfections for Local Buckling of Slender Box-section Columns
Determining the plate or the local buckling resistance is highly important in designing steel buildings and bridges. The EN 1993-1-5Annex C provides a FEM-based design approach to ...