Application of Finite Element Analysis for Structural Strength Assessment of Road Facilities Subjected to Complex Load Conditions

The finite element model of the concrete mixing truck’s frame is builded by using shell as basic element, and the process of building the finite element model of the balance suspension is introduced in detail. Based on this, frame’s stress on five types of typical operating conditions are calculated by using the finite element analysis software, NASTRAN, and results can show the dangerous position and the maximum stress position on the frame. The analysis result on structural strength can provide the basis for further improving the frame structure.

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Fatigue Strength Study on Radial Bogie Vice Frame Based on Finite Element Analysis

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.723.96 ◽

2015 ◽

Vol 723 ◽

pp. 96-99

Author(s):

Xiao Wei Wang ◽

Mao Xiang Lang

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Fatigue Life ◽

Fatigue Strength ◽

Structural Strength ◽

Simulation Software ◽

Experimental Result ◽

Element Analysis ◽

The Finite Element Analysis ◽

The Stability

The vice frame bears and transfers the forces and loads between the bogie and the vehicle body.The strength of the vice frame relates directly to the stability and smoothness of the vehicle. In this study, finite element analysis is utilized first to analyse the structural strength and fatigue life of the vice frame, and the recognize the weak parts of its structure in order to enhance its structural strength in the following design work.The finite element analysis is performed on a simulation software Ansys. Then an experiment is designed to test the fatigue strength of the vice frame. The experimental result indicates that the fatigue strength of the object corresponds to the standards and the finite element analysis has high feasibility in solving this kind of problem.

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Induction motor rotor quantities at load conditions: Finite Element analysis and experimental validation

INTERMAG 2006 - IEEE International Magnetics Conference ◽

10.1109/intmag.2006.375448 ◽

2006 ◽

Author(s):

A. Bellini ◽

O. Bottauscio ◽

M. Chiampi ◽

C. Tassoni ◽

M. Zucca

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Induction Motor ◽

Experimental Validation ◽

Element Analysis ◽

Load Conditions

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Evaluation of Mechanical Strength Characteristics of Double Ducted Unmanned Amphibious Aerial Vehicle using Finite Element Analysis

International Journal of Mathematical Engineering and Management Sciences ◽

10.33889/ijmems.2019.4.2-034 ◽

2019 ◽

Vol 4 (2) ◽

pp. 420-431 ◽

Cited By ~ 3

Author(s):

Gokul Raj P. ◽

Balasubramanian Esakki ◽

Surendar Ganesan

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Land Surface ◽

Water Surface ◽

Structural Strength ◽

Strength Characteristics ◽

Element Analysis ◽

Vehicle Structure ◽

Payload Capacity ◽

Aerial Vehicle

Unmanned Aerial Vehicles are extensively exploited for diverse applications importantly surveillance, defence and military, photography. Development of unmanned amphibious vehicle with integrating features of hovercraft principles and multirotor to navigate along and above the water surface, land surface and flying in the air is challenging demand. This article presents conceptual design of amphibious vehicle for the payload capacity of 7 kg with an endurance of 20 minutes and provision for mounting water sampler to collect water samples in remote water bodies. Structural strength characteristics of each part of the amphibious vehicle and integrity of same are analysed by Finite Element Analysis. FEA results indicated that the designed amphibious vehicle structure is well within the stress limit and minimal displacement is obtained. Based on structural analysis materials for various parts of the amphibious vehicle are determined and integrated structure is analysed.

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Thermal Stress Analysis of Process Piping System Installed on LNG Vessel Subject to Hull Design Loads

Journal of Marine Science and Engineering ◽

10.3390/jmse8110926 ◽

2020 ◽

Vol 8 (11) ◽

pp. 926

Author(s):

Se-Yun Hwang ◽

Min-Seok Kim ◽

Jang-Hyun Lee

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Stress Analysis ◽

Evaluation Model ◽

Element Model ◽

Piping System ◽

Wave Load ◽

Element Analysis ◽

Expansion Joints ◽

Load Conditions

In this paper, the procedure for the strength evaluation of the piping system installed on liquefied natural gas (LNG) carriers is discussed. A procedure that accounts for the ship’s wave load and hull motion acceleration (as well as the deformation due to the thermal expansion and contraction experienced by the hull during seafaring operations) is presented. The load due to the temperature and self-weight of the piping installed on the deck is also considered. Various operating and load conditions of the LNG piping system are analyzed. Stress analysis is performed by combining various conditions of sustained, occasional, and expansion loads. Stress is assessed using finite element analysis based on beam elements that represent the behavior of the piping. The attributes of the piping system components (such as valves, expansion joints, and supports) are represented in the finite element model while CAESAR-II, a commercial software is used for finite element analysis. Component modeling, load assignment, and load combinations are presented to evaluate pipe stresses under various load conditions. An evaluation model is selected for the piping arrangement of LNG and the evaluated stress is compared with the allowable stress defined by the American Society of Mechanical Engineers (ASME).

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