From numerical calculations to materials testing homologation: a biaxial fatigue reliability prediction methodology for structural components

Scozzafave, Caio de Carvalho; Spinelli, Dirceu; Filho, Waldek Wladimir Bose

doi:10.1590/s1516-14392013005000119

Cited by 4 publications

(3 citation statements)

References 9 publications

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“…It would also be worthwhile to crosscheck the present results with analytical or numerical models, to investigate the influence of tire stiffness and mass upon the developed structural vibration modes. Spinelli et al [19] recently discussed the interplay between finite element modeling and physical tests for vehicle project validation. Also, a classification of the load events as the one recently introduced by Yunoh et al [20] could be attempted.…”

Section: Resultsmentioning

confidence: 99%

Influence of tire sizes over automobile body spectrum loads and fatigue damage accumulation

Angelo

Machado²,

Schön

2015

Materials & Design

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Section: Resultsmentioning

confidence: 99%

Influence of tire sizes over automobile body spectrum loads and fatigue damage accumulation

Angelo

Machado²,

Schön

2015

Materials & Design

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“…The Swing Motion Bogie with sufficient fatigue strength can be used up to the endurance life of a freight car, and the maximum stress in bolster area is Von-Mises stress on side frame [14]. Additionally, the biaxial fatigue reliability prediction methodology and some fatigue safety life assessment research related to large complex structural parts, like the aircraft engine support structure, can also be used as references in the structural safety evaluation of the bolster in the near future [15,16].…”

Section: Introductionmentioning

confidence: 99%

Structural safety evaluation of a subway bolster based on numerical simulation and experimental test

Xie

Liu³

et al. 2018

J Braz. Soc. Mech. Sci. Eng.

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The structural safety of a subway bolster is studied by fatigue strength testing and numerical simulation. A novel approach is proposed to determine the loading scheme in the fatigue test. This method identifies the loads accurately and allows for efficient yet economical fatigue test. Full-scale fatigue test of the bolster is carried out up to 1 × 10 7 load cycles under normal atmospheric conditions. The finite element model is validated based on the stresses measured by strain gauges. The fatigue life of the bolster is evaluated by Goodman diagram and nondestructive test since it is modeled as a series system of weak points. The results demonstrate that this bolster satisfies the structural safety requirement and its fatigue life is more than 1 × 10 7 load cycles with 90% reliability.

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“…Research on multi-axial loading equipment has been recently reported, including biaxial tension and compression tests (Zhang and Zhang, 2013;Smoger et al, 2012;O'Connell et al, 2012, biaxial fatigue tests (Spinelli et al, 2013), triaxial tension and compression test (Feng et al, 2010;Lee et al, 2013;Soroush and Jannatiaghdam, 2012;Cil and Alshibli, 2014). Most of the mentioned biaxial and triaxial material tests are based on the composing of orthogonal uniaxial load cell actuated by hydraulic or electric motors.…”

Section: Introductionmentioning

confidence: 99%

Development of a material testing machine with multi-dimensional loading capability

Guo

Wang

Chen

et al. 2016

JAMDSM

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This paper presents a multi-dimensional loading material testing machine based on a hexapod parallel mechanism. We designed a model-based PID closed-loop control method using feedbacks from six uniaxial force sensors installed on limbs. Three simulations were proceeded to estimate the feasibility of this control method. Furthermore, we established two series of experiments, including multi-dimensional loading experiments and standard tension tests. The former experiment results demonstrate the multi-axial loading capacity since the actual multi-axial output wrench has the deviation less than 5% of the desired ones. The latter experiments reveal that the uniaxial tension test is not considerably influenced by the redundant degree of freedoms, because the tensile-test results are relatively identical to those results achieved by universal material testing machine. Both experimental results suggest that this proposed material testing machine are feasible to perform multi-dimensional material tests, as well as standard uniaxial tests.

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From numerical calculations to materials testing homologation: a biaxial fatigue reliability prediction methodology for structural components

Cited by 4 publications

References 9 publications

Influence of tire sizes over automobile body spectrum loads and fatigue damage accumulation

Influence of tire sizes over automobile body spectrum loads and fatigue damage accumulation

Structural safety evaluation of a subway bolster based on numerical simulation and experimental test

Development of a material testing machine with multi-dimensional loading capability

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