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Cornering force

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Find sources: "Cornering force" – news · newspapers · books · scholar · JSTOR (October 2021)

'Deflected' tread path, sideslip velocity and slip angle

Graph of cornering force vs slip angle

Cornering forceorside force is the lateral (i.e., parallel to wheel axis) force produced by a vehicle tire during cornering.^[1]

Cornering force is generated by tire slip and is proportional to slip angle at low slip angles. The rate at which cornering force builds up is described by relaxation length.^[2] Slip angle describes the deformation of the tire contact patch, and this deflection of the contact patch deforms the tire in a fashion akin to a spring.

As with deformation of a spring, deformation of the tire contact patch generates a reaction force in the tire; the cornering force. Integrating the force generated by every tread element along the contact patch length gives the total cornering force. Although the term, "tread element" is used, the compliance in the tire that leads to this effect is actually a combination of sidewall deflection and deflection of the rubber within the contact patch. The exact ratio of sidewall compliance to tread compliance is a factor in tire construction and inflation pressure.^[3]

Because the tire deformation tends to reach a maximum behind the center of the contact patch, by a distance known as pneumatic trail, it tends to generate a torque about a vertical axis known as self aligning torque.

The diagram is misleading because the reaction force would appear to be acting in the wrong direction. It is simply a matter of convention to quote positive cornering force as acting in the opposite direction to positive tire slip so that calculations are simplified, since a vehicle cornering under the influence of a cornering force to the left will generate a tire slip to the right.

The same principles can be applied to a tire being deformed longitudinally, or in a combination of both longitudinal and lateral directions. The behaviour of a tire under combined longitudinal and lateral deformation can be described by a traction circle.

References[edit]

^ Pacejka, Hans B. (2006). Tire and Vehicle Dynamics (2nd ed.). Society of Automotive Engineers. ISBN 0-7680-1702-5.

^ Clark, S.K. (1971). Mechanics of Pneumatic Tires (1st ed.). NHTSA. Retrieved 26 February 2023.

^ Trzesniowski, Michael (2010-04-28). Rennwagentechnik: Grundlagen, Konstruktion, Komponenten, Systeme (in German). Springer-Verlag. ISBN 978-3-8348-9667-4.

v t e Tires
Types	Tubeless tire Radial tire Low rolling resistance tire Run-flat tire Michelin PAX System Airless tire Tweel Rain tyre Snow tire All-terrain tire Bar grip Knobby tire Large tire Mud-terrain tire Paddle tire Orange oil tires Whitewall tire Aircraft tire Tundra tire Bicycle tire Tubular tire Lego tire Motorcycle tyre Tractor tire Racing slick Formula One tyres Spare tire Continental tire
Components	Bead Beadlock Tread Siping (rubber) Valve stem Dunlop valve Presta valve Schrader valve
Attributes	Camber thrust Circle of forces Cold inflation pressure Contact patch Cornering force Ground pressure Pacejka's Magic Formula Pneumatic trail Relaxation length Rolling resistance Self aligning torque Slip angle Steering ratio Tire balance Tire load sensitivity Tire uniformity Lateral Force Variation Radial Force Variation Traction (engineering) Treadwear rating
Behaviors	Aquaplaning Groove wander Slip (vehicle dynamics) Tramlining
Maintenance	Tire maintenance Tire rotation Bicycle pump Central Tire Inflation System Tire mousse Tire-pressure monitoring system Tire-pressure gauge Direct TPMS Bead breaker Tire changer Tire iron
Life cycle	Tire manufacturing List of tire companies Retread Waste tires Tire recycling Tire fire Blowout Flat tire Ozone cracking
Organizations	European Tyre and Rim Technical Organisation Tire Society Tire Science and Technology
Identification	Tire code Plus sizing Tire label Uniform Tire Quality Grading (UTQG)
Outline of tires Category

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