Go-Kart Chassis Design Using Finite Element Analysis and Multibody Dynamic Simulation

Sampayo, D.; Luque, Pablo; Mántaras, Daniel Álvarez; Rodríguez, Enrique Oltra

doi:10.2507/ijsimm20-2-555

Cited by 5 publications

(6 citation statements)

References 19 publications

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“…Based on the principle of virtual work, Huang et al [21,22] analysed the influence of the time-varying characteristics of the contact section of old and new concrete on the shear-lag effect in composite beams and reasonably predicted the long-term performance of composite beams, which helps in the life-cycle design and service performance analysis of composite bridges. Sampayo et al [23] analysed the chassis design using finite element analysis and multibody dynamic simulation.…”

Section: State Of the Artmentioning

confidence: 99%

Shear Lag Effect Study of a Composite Girder Cable-Stayed Bridge During Construction

She¹,

Chen²,

Yan³

et al. 2022

Int. j. simul. model.

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To investigate the shear-lag effect in the main girder of a composite twin-box girder cable-stayed bridge during construction, a full-bridge model and a local spatial model were established using the finite element software MIDAS/Civil and ABAQUS, respectively, for the main span of the Chibi Yangtze River Bridge in Hubei Province, China, as an engineering example. On this basis, the shear-lag effect in the composite twin-box girder under multiple typical construction conditions was analysed through numerical simulation, and the accuracy of the model was verified by field measurements at the construction site. Results demonstrate that as the balanced cantilever construction progresses, the stress in the deck slabs near the junction of the anchor plate and the outer web of the side box girder and at the location of small longitudinal beams changes substantially. However, the stress at other girder sections is gradually uniformly distributed, the shear-lag coefficient tends to be stable, and a phenomenon of positive and negative shear-lag effect conversion occurs in the deck slab sections of the main girder.

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Section: State Of the Artmentioning

confidence: 99%

Shear Lag Effect Study of a Composite Girder Cable-Stayed Bridge During Construction

She¹,

Chen²,

Yan³

et al. 2022

Int. j. simul. model.

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“…Gonçalves [17] researched the comfort and handling optimization of body models by modifying the parameters of the suspension system. Sampayo [18] investigates a coupled simulation methodology in the design of the kart frame, emphasizing the role of frame stiffness due to the lack of a suspension system. The present study also aims to have a validated simulation model.…”

Section: Introductionmentioning

confidence: 99%

Development of a multibody model for go-karts considering frame flexibility

Horváth,

Zelei

2024

Pollack

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This study focuses on the optimization dynamics of racing go-karts, which is heavily influenced by the frame's stiffness. Lacking suspensions and differentials, go-karts rely on the frame stiffness for wheel balancing and skid prevention by lifting the inner rear wheel during turns. Utilizing a rigid-flexible model in MSC Software ADAMS View, validated by frame deformation measurements, this research integrates finite element analysis with multibody techniques. The model, leverages computer aided design files for frame geometry and employs finite element analysis for frame validation. It facilitates evaluating go-kart dynamics through simulations, aiding in maneuver testing and design optimization. This approach provides a comprehensive framework for advancing go-kart designs.

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“…En el mercado peruano existen tipos de mototaxi, una de ellas es la de la marca BAJAJ, el modelo torito, este modelo fue desarrollado con ingeniería japonesa, en comparación con el otro modelo comercial de mototaxi de las marcas Lifan, Zongshen, Wanxing, etc. Estas se ensamblan de manera empírica, no cuentan con un análisis de ingeniería previa respaldados con cálculos dinámicos, estáticos, estabilidad [9].…”

Section: Introductionunclassified

“…Según [12] en su estudio presenta un nuevo índice de vuelco para triciclos, considerando parámetros como la altura del centro de gravedad del chasis, el freno diferencial en las ruedas traseras, demostrando su eficacia en la predicción y detección del riesgo del vehículo a las volcaduras e incluso de forma estática, el análisis se realizó mediante simulaciones numéricas que describen el comportamiento dinámico utilizando el software comercial llamado CARSIM. La investigación [9] estableció el modelo dinámico espacial del vehículo para determinar la fuerza vertical Fz, para detectar el límite inminente de las volcaduras.…”

Section: Introductionunclassified

Proposal for the structural design of the three-wheeled vehicle to improve the quality of life of the citizen

Anticona Valderrama,

Garcia Alvarez,

Mendoza Damas

et al. 2023

Proceedings of the 3rd LACCEI International Multiconference on Entrepreneurship, Innovation and Regional Development (LEIRD 202

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Vehicle traffic accidents are a big problem because they cause deaths and damage to citizens. To solve this problem, new vehicle designs must be better every day in terms of safety, reducing accidents, sustainable, and emitting low levels of greenhouse gases. , since this destroys and pollutes the environment. For this reason, in the present work, a pre-experimental study was carried out on the proposal of a structure for a three-wheeled vehicle to transport and improve the quality of life of people through finite element analysis using the ANSYS software. Static analysis to find deformations, stresses, and safety factors, and dynamic analysis, such as modal analysis to find natural frequencies, vibration modes, and mass participation factor, were evaluated. In addition, a harmonic analysis (superposition of modes) was carried out to estimate the deformations and stresses promoted by the sinusoidal forces generated by the loads of the passengers and vehicle components. The results show that the three-wheeled vehicle is designed with low efforts and minimal deformations;In the modal analysis, the natural frequencies of vibration mode 1 is 15.89Hz, with a mass participation of 30%, due to its low mass participation factor resonance cannot enter, in the harmonic analysis they were obtained in the same way. Low stresses and deformations. It was concluded that the structure of the three-wheeled vehicle was adequately designed to operate safely, guaranteeing its correct functioning while transporting people.

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Go-Kart Chassis Design Using Finite Element Analysis and Multibody Dynamic Simulation

Cited by 5 publications

References 19 publications

Shear Lag Effect Study of a Composite Girder Cable-Stayed Bridge During Construction

Shear Lag Effect Study of a Composite Girder Cable-Stayed Bridge During Construction

Development of a multibody model for go-karts considering frame flexibility

Proposal for the structural design of the three-wheeled vehicle to improve the quality of life of the citizen

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