Overhead Crane

strength analysis of overhead traveling crane with use of finite element method

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Summary

The article presents the results of numerical experiment using a hybrid approach of finite element method and system dynamics simulation of the overhead traveling crane in the case of lifting load. STRENGTH ANALYSIS OF OVERHEAD TRAVELING CRANE WITH USE OF […]

strength analysis of overhead traveling crane with use of finite element method

The article presents the results of numerical experiment using a hybrid approach of finite element method and system dynamics simulation of the overhead traveling crane in the case of lifting load.

STRENGTH ANALYSIS OF OVERHEAD TRAVELING CRANE WITH USE OF

STRENGTH ANALYSIS OF OVERHEAD TRAVELING CRANE WITH USE OF FINITE ELEMENT METHOD Summary. This paper presents the results of numerical experiment using FEM, whose aim was to investigate the

Finite element analysis of an overhead crane bridge.doc of the main beam of a strength structure of a traveling crane used in metallurgy – by using the OPTSTAR mode that the COSMOS/M

Strength analysis of overhead traveling crane with use of finite element method By Tomasz HANISZEWSKI Download PDF (1 MB)

enough information and useful solutions for the analysis of the tension and deformation state in case of finite items. Key-Words: crane bridge, analysis, model, resistance, overhead, finite elements, shell. 1 Introduction Most of the time, the resistance structures who have not been statically determined, cut to the right sized,

Finite element analysis indicates the existing double-trolley overhead traveling crane shows a large strength allowance. The subsequent optimal design which aims to achieve a perfect match between the mechanical performance and weight is conducted based on the strength analysis.

DESIGN AND ANALYSIS WITH FINITE ELEMENT METHOD OF JIB CRANE

crane main frame were calculated, taking into account the wind, acceleration and the braking loads. According to these results, crane model was revised to achieve better strength values. 3. Analysis of the Jib Crane with Finite Element Method The next stage of the study includes the analysis of the JIB crane with finite element method.

May 17, 2020 · A review on structural analysis of overhead crane girder using FEA technique, Int. j. innov. res. sci. eng technol. Vol. 2(4) (2013), p. 41-44. Solid modeling and finite element analysis of an

This research aimed to study the design of the overhead crane of a small fishing boat maintenance factory according to the building and functional requirements of the project based on the ASME B30.2-2005 Standard. The results of the study showed that the design of the runway with steel structure BS: 5950: 2000 grade s460 provided vertical and horizontal deflection values of 4.96 and 16.62

Here the problem was solved by the finite element method. The analysis of the stresses and strains of the structure of gantry crane was made using the advanced software with highly efficient

enough information and useful solutions for the analysis of the tension and deformation state in case of finite items. Key-Words: crane bridge, analysis, model, resistance, overhead, finite elements, shell. 1 Introduction Most of the time, the resistance structures who have not been statically determined, cut to the right sized,

Design Optimization Of Using Finite Element Analysis

The design optimization of an overhead crane with . a double box girder has been proposed [6]. In this . paper the design optimization of double box girder . has been done. and a comparative study of results . of finite element analysis of a crane with 10 ton . capacity and 12 m span length has been conducted.

5 FINITE ELEMENT ANALYSIS OF CRANE HOOK USING ANSYS The finite element method has become a powerful tool for the numerical solution of wide range of engineering problems. Applications range from deformation and stress analysis of automotive aircraft, building, and bridge structures to field analysis of heat flux, seepage

crane main frame were calculated, taking into account the wind, acceleration and the braking loads. According to these results, crane model was revised to achieve better strength values. 3. Analysis of the Jib Crane with Finite Element Method The next stage of the study includes the analysis of the JIB crane with finite element method.

3-D Modeling And Finite Element Analysis Of EOT Crane 35 8 Safety Factor (S.F.) as per Fig. 2 Typical Section of Welded Box Girder III. INTRODUCTION TO FINITE ELEMENT METHOD The finite element method (FEM), sometimes referred to as finite element analysis (FEA), is a numerical technique used for finding the approximate

This research aimed to study the design of the overhead crane of a small fishing boat maintenance factory according to the building and functional requirements of the project based on the ASME B30.2-2005 Standard. The results of the study showed that the design of the runway with steel structure BS: 5950: 2000 grade s460 provided vertical and horizontal deflection values of 4.96 and 16.62

"Dynamic analysis of an overhead crane carrying a canister by

A finite element model for an overhead crane carrying a nuclear waste canister is developed. This model is used to perform the static, dynamic and impact analysis using the finite element software COSMOS/M. Static results are compared with simplified model solutions to verify the accuracy of the finite element model.

We develop crane software by 3D modeling and finite element analysis and optimize lifting mechanism and steel structure. The use of high strength materials increase carrying capacity and reduce weight with less wheel load pressure. Features of Overhead Crane for Power Plants: 1.

Jul 01, 2013 · A rotor (approximate mass 45 t – marked in the article as G force) of a low pressure section of a steam turbine was being carried by a double-girder overhead traveling crane with load capacity of Q = 100 t, when the rotor was dropped from the height of approximately 14 m onto the ground level of the turbogenerator hall causing damage to itself and to the nearby equipment and the overhead

The traditional structure design method is totally by experience and manual calculation, while this method is using the Finite Element Analysis (FEA) method to optimize the structure of ship unloader. Therefore this method may keep the stress and deformation of the structure under permission with less use of materials.