Crane hook design calculation. dimension, material, overload.

Crane hook design calculation. A crane hook is a device used for lifting and grabbing up the loads by means of a crane. The review of previous enable to conclude that components with complex geometry as crane hooks require a more extensive investigation in view of the fact that a very few articles have been published so far regarding stress analysis of this curved beam (crane hook). Jan 10, 2022 · The goal of this paper is to select a suitable crane hook for a single girder bridge crane with a load capacity of 500 kg and a strength analysis of the selected crane hook. The modeling is done using the design calculation from the modeling the analysis of hook is done in FEA software (ANSYS). Crane hooks with circular, trapezoidal, rectangular and triangular cross section are commonly used. The results are then used for improving the design of the crane hook. ANSYS WORKBENCH is a specific environment consisting of different set of Abstract In this paper the design of the hook is done by analytical method and design is done for the different materials like forged steel and high tensile steel. Solidworks 2019 facilities the design tasks to export to different other interface of software like ANSYS WORKBENCH. Crane hook is very significant component used for lifting the load with the help of chain or wire ropes. Nov 12, 2018 · Crane Hook Design and Analysis G Bhagyaraj 1, K Suryaprakash 2, K Subba Rao 3 1 M. Failure of a crane hook mainly depends on three major factors i. 5 Tones for Trapezoidal, Rectangular and Circular cross-sections. The dimensions of the hook have been determined for a load capacity between 9 to 12. CAD/CAM, Godavari Institute of Engineering and Technology, Rajahmundry Feb 21, 2023 · Design a crane hook to carry a load, keep stress below the yield strength of steel, and minimize the steel volume to manufacture the hook. Generally material type and Key words: Crane hook, Self-Weight, Stress concentration, cross section area and radius are design parameter that ANSYS, optimization affects the weight of crane hook. One reason is that such an excavator is convenient since they can perform the conventional digging tasks as well as the suspension works. Recently, excavators having a crane-hook are widely used in construction works site. Tech. This Abstract In this paper the design of the hook is done by analytical method and design is done for the different materials like forged steel, wrought iron and high tensile steel. Keywords:- crane Hook, design Crane hooks are the components which are generally used to elevate the heavy load in industries and constructional sites. In this project the design of EOT crane hook has been carried out. After the analytical meth-od design and modeling of hook is done in modeling soft-ware (solid edge) . Area of cross section, material and radius of crane hook are the design parameters for crane hook. It is basically a hoisting fixture designed to engage a link of a lifting chain or the pin of a cable socket. Crane hook stress can be reduced by altering the shape of the crane hook in comparison to a standard crane hook. This may causes fatigue failure of the crane hook. 3. Crane hooks are liable components subjected to failure due to stress in accumulation of heavy loads. . Crane hooks are highly liable components and are always subjected to bending stresses which leads to the failure The design parameters for crane hook are area of cross section, material and radius of crane hook. The hook's cross section was used as a major parameter in this study to optimise its design for a given weight. MODELLING OF CRANE HOOK USING SOLIDWORKS Several models of crane hook are designed using solid work 2019 software and then designed model were imported to ANSYS for Finite element structural analysis. dimension, material, overload. e. Figure-3 Model of Triangular Hook The crane hook models designed with the help of Pro/ENGINEER are then subjected to analysis and simulation in real world environment to analyze different stresses developed and also the critical zones, where there are more chances of failure. cyvi joydh sokcse xfkr trd hjtiudk kljt ssajfv vghat ncbl