Multi-chamber tyre designing for fuel economy

Hamad Aldhufairi; Oluremi Olatunbosun; Khamis Essa

doi:10.1177/0954407019857026

Multi-chamber tyre designing for fuel economy

Hamad Aldhufairi, Oluremi Olatunbosun, Khamis Essa

Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

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Abstract

Rolling resistance plays a major role in tyre development due to its significant influence on energy consumption and environmental impact. Numerous efforts to minimise the tyre’s rolling resistance have met with no or minor success because of the tyre’s complexity and the involved compromises. This paper explores a novel design solution of the multi-chamber tyre, as a potential alternative, for low rolling resistance while meeting other driving requirements – a multi-purpose generalised solution (design-for-all). A novel multi-chamber design (base design) with a validated finite element model was used to create the different novel designs. Statistical analysis based on the design of experiment was conducted to identify the best cavity volumes and inflation settings. The ‘design-for-all’ solution offered a 28% reduction in rolling resistance, an enhanced cornering performance, a matching grip and a satisfactory cushioning.

Original language	English
Number of pages	4
Journal	Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering
Early online date	20 Jun 2019
DOIs	https://doi.org/10.1177/0954407019857026
Publication status	Published - 20 Jun 2019

Keywords

Rolling Resistance
Multiple Chambers Tyre
Tyre Design
Cavity Volume
Tyre Dynamics
Finite Element Analysis
Fuel Economy
cavity volume
tyre dynamics
finite element analysis
multiple-chamber tyre
Rolling resistance
fuel economy
tyre design

ASJC Scopus subject areas

Mechanical Engineering
Aerospace Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1177/0954407019857026Licence: None: All rights reserved

Aldhufairi_et_al_Multi_Chamber_Tyre_Designing_Proceedings_of_the_Institution_of_Mechanical_Engineers_Part_D _Journal_of_Automobile_Engineering_2019Accepted author manuscript, 2.63 MBLicence: None: All rights reserved

https://journals.sagepub.com/doi/full/10.1177/0954407019857026Licence: None: All rights reserved

Cite this

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title = "Multi-chamber tyre designing for fuel economy",

abstract = "Rolling resistance plays a major role in tyre development due to its significant influence on energy consumption and environmental impact. Numerous efforts to minimise the tyre{\textquoteright}s rolling resistance have met with no or minor success because of the tyre{\textquoteright}s complexity and the involved compromises. This paper explores a novel design solution of the multi-chamber tyre, as a potential alternative, for low rolling resistance while meeting other driving requirements – a multi-purpose generalised solution (design-for-all). A novel multi-chamber design (base design) with a validated finite element model was used to create the different novel designs. Statistical analysis based on the design of experiment was conducted to identify the best cavity volumes and inflation settings. The {\textquoteleft}design-for-all{\textquoteright} solution offered a 28% reduction in rolling resistance, an enhanced cornering performance, a matching grip and a satisfactory cushioning.",

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AU - Essa, Khamis

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N2 - Rolling resistance plays a major role in tyre development due to its significant influence on energy consumption and environmental impact. Numerous efforts to minimise the tyre’s rolling resistance have met with no or minor success because of the tyre’s complexity and the involved compromises. This paper explores a novel design solution of the multi-chamber tyre, as a potential alternative, for low rolling resistance while meeting other driving requirements – a multi-purpose generalised solution (design-for-all). A novel multi-chamber design (base design) with a validated finite element model was used to create the different novel designs. Statistical analysis based on the design of experiment was conducted to identify the best cavity volumes and inflation settings. The ‘design-for-all’ solution offered a 28% reduction in rolling resistance, an enhanced cornering performance, a matching grip and a satisfactory cushioning.

AB - Rolling resistance plays a major role in tyre development due to its significant influence on energy consumption and environmental impact. Numerous efforts to minimise the tyre’s rolling resistance have met with no or minor success because of the tyre’s complexity and the involved compromises. This paper explores a novel design solution of the multi-chamber tyre, as a potential alternative, for low rolling resistance while meeting other driving requirements – a multi-purpose generalised solution (design-for-all). A novel multi-chamber design (base design) with a validated finite element model was used to create the different novel designs. Statistical analysis based on the design of experiment was conducted to identify the best cavity volumes and inflation settings. The ‘design-for-all’ solution offered a 28% reduction in rolling resistance, an enhanced cornering performance, a matching grip and a satisfactory cushioning.

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Multi-chamber tyre designing for fuel economy

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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