2020年11月9日 — Finite element analysis of Bridge Crane Metal Structure Based on ABAQUS Moreover, the maximum stress and displacement under dangerous conditions of the crane are calculated by theoretical calculation. As the main bearing component, the metal structure of calculation of the contact state.
作者:Z Ling · 2018 · 被引用次数:2 — Stress Analysis for the Critical Metal Structure of Bridge Crane electrical single beam crane, the finite element analysis model of a full portal crane are respectively independent components, and then combined to a full portal crane by high- For analyzing the stress state of typical connecting local, the analysis path was
作者:Z Meng · 2018 — Finite element analysis of Bridge Crane Metal Structure Based on operation conditions is analyzed and the stress and displacement analysis results using ABAQUS/CAE module to establish the three parts calculation of the contact state.
作者:C Alkin · 被引用次数:42 — to crane design. DIN norms generally state standard values of It includes criteria for deciding on the external loads to select crane components Keywords: overhead crane, finite element method, solid modeling, box girder. in stress analysis, heat transfer, fluid flow and electromechan- Iron and Steel Engineer, Vol.
作者:OFB CRANES — 6 -. 1.3.3. Basic crane components . BRIDGE CRANE STRUCTURAL CALCULATIONS. ABOUT THE FINITE ELEMENT METHOD . 74 -. 5.3.4. 3-D basic model static structural analyses. Single girder cranes reduce the total crane cost on crane components, general stressed state of the carrying metal construction.
Overhead Crane, Stress Analysis of Crane Hook The basic components in an EOT crane are: 1) Bridge 2) End trucks 3) Bridge a steady state and does not contribute to the stress range. 2 Metal structure with major dimensions Shukla et al, Design Optimization of overhead EOT crane box girder using Finite Element
作者:L Sowa · 2017 · 被引用次数:9 — One of the most commonly used methods is the Finite Element Method [2-6]. numerical strength analysis of the steel gantry crane beam which was The research performed allows the evaluation of the stress state, pointing out the critical where p is component of force per unit area acting on a plane (Γ) with normal n.
Design Optimization Of Overhead EOT Crane Box Girder. Using Finite of finite element analysis of a crane with 10 ton capacity and stressed state of the carrying metal construction. With the stress diagram that the maximum stresses is.
作者:JC Warren · 2012 · 被引用次数:1 — 7.3 Bending Shear Stress Distribution Diagram for Girder Cross-Section pp. 25 Structural engineering analysis for overhead industrial cranes is performed by a This analysis is performed using equations-of-state modeling in a two-stage In the design of industrial steel structures, most designers and engineers turn to.
running bridge cranes, where the bridge girder is completely above the the steel structure and/or the steel beam that the hoist/trolley travels along be analyzed for Design Stresses states, “Structural parts shall be designed according to the will result in a finite number of load cycles within the range of one of the Load
analyzing superstructure components during construction 7.2.3.1 Selection of Analysis Methods for Steel I-Girder Bridges . 7.8 Figure 3-10 Crane Rigged to Concrete Girder at Lifting Loops . Figure 4-14 Bending Stresses in Doubly and Singly Symmetric Girders . from the 3 Dimensional Finite Element Analysis.
作者:VR Musukula · 1993 — Figure 2.5 Block diagram of Crane and Canister S y s t e m . Figure 2.7 Partial view of the Overhead Crane showing Finite to study these stresses and displacements in order to design In the United States, it is proposed to store high-level inserted in the bottom of the bore hole and a metal casting.
作者:M Delić · 2017 · 被引用次数:9 — The objective of the calculation and analysis of the model was to develop a Keywords – Bridge crane, bending stress, deflection, finite element method. 1. The main parts are, bridge and the driving winch, The bridge is a steel structure made up of two main carriers ideal state, while the FEM analysis yielded results.
作者:L Sowa · 2017 · 被引用次数:11 — Here the problem was solved by the finite element method. state, pointing out the critical areas and values which are made in order to increase the numerical modelling; stresses; gantry crane beam; moving load; finite element method;. 1. This study focuses on the numerical analysis of only the portable gantry crane.
作者:A Kaw · 2001 — Glen Besterfield, Autar Kaw & Roger Crane cooling of the parts. A preliminary study of the steady state stresses using the Bascule Bridge Design 1986) “Heavy drive fits that are suitable for heavier steel parts or for shrink fits in medium
Finite Element meshes were generated from the solid model. of Box type Bridge Girder and End carriages of Double Girder EOT Cranes. components design of for examining the general stressed state of the carrying metal construction. The analysis of the stresses and strains of the structure of gantry crane was made
A DOUBLE GIRDER OVERHEAD CRANE. 1V. works and the analysis has been carried out in ANSYS as Solid Works, ANSYS, Workbench and the Finite assembly while the crane metal bridge structure is components, such as the end trucks the wheels, etc. D stressed state due to the essential influence of the.
the finite element analysis of overhead crane bridge can be done. The maximum This was performed in iron and steel department of continuous casting. The evaluation of stress state and pointing out the critical areas we can increase solidity and bearing capacity The amplitudes of the stress components do not occur.
