Finite-Element Analysis on Lightweight Material of Drive Axle Housing

Fang, Zhao

doi:10.18280/rcma.310106

Cited by 5 publications

(4 citation statements)

References 12 publications

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“…The housing of the impact resistance stand is the basic element and serves to establish the pneumatic and electrical subsystems of the assembled unit [12]. The standard does not define specific requirements for the housing of the stand.…”

Section: Methodsmentioning

confidence: 99%

Designing a Laboratory Stand for Testing Impact Resistance of Plastic Films by Free-Falling Dart Drop According Astm D1709

Sabev,

Chukalov,

Bakardzhiev

2024

ETR

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In this article, the process of designing a laboratory stand for testing impact resistance of plastic films using free-falling dart drop method according to ASTM D1709, type A will be followed. It will be analyzed the all stages of designing-synthesis of project solutions, analysis and optimization, assessment and presentation of tasks. The purpose of the article is to create a designing basis for the variable design of impact resistance stands to be used in the design of non-standardized laboratory equipment.

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Section: Methodsmentioning

confidence: 99%

Designing a Laboratory Stand for Testing Impact Resistance of Plastic Films by Free-Falling Dart Drop According Astm D1709

Sabev,

Chukalov,

Bakardzhiev

2024

ETR

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“…When the lateral force exceeds the ground adhesion, the vehicle will slip. All gravity and lateral forces of the fully loaded vehicle will be concentrated on the slippage side of the vehicle, which will create a huge impact on the driving axle, making the driving axle directly damaged and scrapped, so it is necessary to perform load calculation and analysis under this working condition [12].…”

Section: Stress Calculation Of the Axle Housing Under The Maximum Lateral Forcementioning

confidence: 99%

“…By substituting the known parameters into Eqs. ( 10), ( 11), (12), there are: 𝐹 = 9800 N, 𝐹 = 9800 N, 𝐹 = 343 N.…”

Section: Stress Calculation Of the Axle Housing Under The Maximum Lateral Forcementioning

confidence: 99%

Integrated design of the torsion beam electric driving axle

Shi¹,

Liu²,

Shi³

2022

J. vibroeng.

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In view of the problems in the use of wheel side drive system, torsion beam type electric driving axle is proposed for the solution. First, with the vehicle parameters of a certain electric vehicle as a sample, the torsion beam driving axle is matched and designed and the three-dimensional model was drawn with the help of CATIA; secondly, the stiffness and strength of the driving axle are analyzed with the help of ANSYS software under five working conditions; finally, the modal analysis of the driving axle structure is carried out. It is verified from the three aspects of stress, deformation and inherent mode that the designed driving axle can meet the limit requirements of China's national standards for vehicle driving axles, which proves the rationality and effectiveness of the design scheme.

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“…While automobiles bring convenience to people's travel, they also have three major problems: fuel consumption, safety and environmental protection. The automotive industry unanimously believes that automobile lightweight is an effective means and method to solve these three major problems [1] . During the driving process of the vehicle, the axle housing always bears complex alternating loads, and the reasonable design of the axle housing can make it reduce the weight while still having sufficient strength, stiffness and good structural properties, which is of great benefit to reducing the weight of the vehicle and reducing the dynamic load of the vehicle [2] .…”

Section: Introductionmentioning

confidence: 99%

Lightweight design and research of liquid expansion axle housing based on response surface method-GA

Pan

2023

Second International Conference on Electronic Information Engineering, Big Data, and Computer Technology (EIBDCT 2023)

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In this paper, the lightweight design and research are carried out for a certain type of hydraulic bulging axle housing. In this paper, the local wall thickness of the axle housing is used as the optimization variable, and the maximum stress of the axle housing under the shock load condition is the response constraint. The Box-Behnken test design method is used to determine the best test point and conduct the test, and the response surface function of the liquid expansion axle housing is established. Then the genetic algorithm (GA for short) is used to solve the response surface function, and finally the goal of optimizing the axle housing quality is achieved. The optimized axle housing meets the design requirements while reducing the mass by 7.4Kg, and the weight reduction rate reaches 10.11%.

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Finite-Element Analysis on Lightweight Material of Drive Axle Housing

Cited by 5 publications

References 12 publications

Designing a Laboratory Stand for Testing Impact Resistance of Plastic Films by Free-Falling Dart Drop According Astm D1709

Designing a Laboratory Stand for Testing Impact Resistance of Plastic Films by Free-Falling Dart Drop According Astm D1709

Integrated design of the torsion beam electric driving axle

Lightweight design and research of liquid expansion axle housing based on response surface method-GA

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