Vehicle Evaluation During Sustained Solid Axle Tramp: Part 2 — Application of Methodology to Shock Absorber Design Strategies

Semones, Paul T.; Roberts, H. Alex; Renfroe, David A.

doi:10.1115/imece2015-51833

Volume 12: Transportation Systems 2015

DOI: 10.1115/imece2015-51833

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Vehicle Evaluation During Sustained Solid Axle Tramp: Part 2 — Application of Methodology to Shock Absorber Design Strategies

Paul T. Semones

H. Alex Roberts

David A. Renfroe

Abstract: EI Consultants (formerly The Engineering Institute) has, for over a decade, researched and tested methods of mitigating the controllability effects of solid rear axle tramp by optimizing rear axle rotational damping. This optimization has explored the balance between increasing the damping forces of the shock absorbers and increasing the distance between the shock absorbers positioned along the axle. Axle tramp is detrimental to vehicle handling and stability, since the reduction in normal force at the rear ti… Show more

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Cited by 2 publications

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Bifurcation analysis of a rear axle tramp car model

Smith¹,

Knowles²,

Mason³

et al. 2023

Nonlinear Dyn

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Axle tramp is a self-sustaining vibration in the driven axle of a vehicle with a beam axle layout, known to occur under heavy braking or acceleration. A 6DOF mathematical model of this phenomenon is used to identify how the key parameters of driveline stiffness, axle mass and fore/aft stiffness change the system’s dynamics. A bifurcation analysis is performed to study this nonlinear system’s dynamics. Four Hopf bifurcations in the underlying equilibria, along with a fold bifurcation in the outermost limit cycle branch, are shown to bound the parameter space where tramp occurs. The severity of tramp was found to be minimised by increasing drivetrain stiffness, reducing axle mass or increasing fore/aft stiffness: the trade-off for minimising tramp severity is that it may be easier to excite tramp when the drivetrain stiffness is increased, and the speed range over which tramp can occur is increased as fore/aft stiffness is increased. A key outcome from this work is that future electrified powertrains may experience more tramp, albeit at a reduced magnitude, than their combustion-powered counterparts.

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Bifurcation analysis of a rear axle tramp car model

Smith¹,

Knowles²,

Mason³

et al. 2023

Nonlinear Dyn

View full text Add to dashboard Cite

show abstract

Technical Analysis of a Proposed Shock Absorber Design Standard

Tandy

Hanba

Pascarella

2016

SAE Int. J. Passeng. Cars - Mech. Syst.

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Vehicle Evaluation During Sustained Solid Axle Tramp: Part 2 — Application of Methodology to Shock Absorber Design Strategies

Cited by 2 publications

References 7 publications

Bifurcation analysis of a rear axle tramp car model

Bifurcation analysis of a rear axle tramp car model

Technical Analysis of a Proposed Shock Absorber Design Standard

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