Development and Validation of Transportation Methodology by Predicting Dynamic Behavior of Container for Safe Transportation

A deep groove ball bearing is a rotary element designed for supporting a radial as well as axial load, low friction, and widely used due to little noise and vibration which supports high rotational speeds. In this article, the author carried out a structural analysis (using FE Simulation) of a single row deep groove ball bearing for estimating contact stress and total deformation for three grades of materials viz. Silicon Nitride (Si3N4), 440C Stainless Steel, and AISI 4140 Alloy Steel. Under the scope of the study, modeling is done using Autodesk Platform and analyzed using ANSYS as an FEA tool. The natural boundary conditions were applied to estimate the fatigue life of bearings under standard operating conditions. The obtained results indicate Silicon nitride material was found to be more significant amongst all materials taken for considerations.

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“…The bearing failure causes economical loss. Various analysis protocols are well articulated for industrial components for structural loading [7].…”

Section: Introductionmentioning

confidence: 99%

Modelling and Comparative Study for Deep Groove Ball Bearing Based on Structural Analysis using FE Simulation

Galande¹,

Pachpore²,

Pawar³

2022

J. Engg. Res. & Sci.

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Topology Optimization of Disc Brake

Shrey,

Pawar,

Pachpore

2023

Lecture Notes in Mechanical Engineering

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Comparative Analysis for Titanium alloy and Silicon Nitride (Si3N4) of Thermal Analysis for Deep Groove Ball Bearing

Khalotia,

Buddi

et al. 2024

E3S Web Conf.

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In this paper, the analysis of the directional heat flux and total heat flux for the bearing balls of Titanium alloy and Silicon Nitride has been demonstrated across a temperature range between 150 to 250 degree celcius. The obtained data allowed comparing the values of total heat flux and various directional heat flux. By comparing directional and total flux of heat in materials it enables the choice of the best-suited material creating bearings with regard to the performance needed. The use of the findings of the current comparison is to ensure efficiency and durability in particular operations. The data presented in the paper helped to analyze the patterns of heat distribution and see the differences between the materials and results a better material for ball bearing. Titanium alloy has excellent mechanical properties like mechanical strength and corrosion resistance. Silicon Nitride is characterized by thermal stability and high thermal resistance and also has excellent wear properties. Thus, using the results of the analysis allows choosing the material for bearing production for high-velocity and high-load operation based on a profound comparison to select the right material. The choice of right material will allow for a more efficient and durable bearing in an industrial setting.

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Development and Validation of Transportation Methodology by Predicting Dynamic Behavior of Container for Safe Transportation

Cited by 3 publications

References 5 publications

Modelling and Comparative Study for Deep Groove Ball Bearing Based on Structural Analysis using FE Simulation

Modelling and Comparative Study for Deep Groove Ball Bearing Based on Structural Analysis using FE Simulation

Topology Optimization of Disc Brake

Comparative Analysis for Titanium alloy and Silicon Nitride (Si3N4) of Thermal Analysis for Deep Groove Ball Bearing

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