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Composite Material for Development of Stabilizer Bar for Light Weight Vehicle
Technical Paper
2019-26-0167
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The selection of material in automotive design is one of the most important factors. There are variety of materials that can be used in automotive Body and Chassis system design. However challenge is to select a right kind of material to meet functional requirement of a component or system. Some of the criterions that a material should meet are lightweight, economic effectiveness, safety, recyclability and life cycle requirements. Some of these criterions are result of regulatory, vehicle performance or customer needs. However, some of these requirements would be conflicting to each other, therefore optimization is need of the hour.
In today’s scenario automotive engineers are being challenged to use lightweight materials considering all design and commercial conditions. As industry is moving towards electrification of vehicles, we need to have light weight vehicles in order to meet range requirement. In this paper I would be presenting my research on stabilizer bar development using various composite materials in place of steel considering all design, manufacturing and economic analysis.
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Sharma, P., "Composite Material for Development of Stabilizer Bar for Light Weight Vehicle," SAE Technical Paper 2019-26-0167, 2019, https://doi.org/10.4271/2019-26-0167.Data Sets - Support Documents
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References
- Nadaf , H.J. and Naniwadekar , A.M. Analysis of Anti-Roll Bar of Passenger Car for Its Nonlinear Behavior with Help of CAE
- Czaja , I. and Hijawi , M. Automotive Stabilizer Bar System Design and Reliability SAE Technical Paper 2004-01-1550 2004 10.4271/2004-01-1550
- Gummadi , L.N.B. , Cai , H. , Lin , S. , Fan , X. et al. Bushing Characteristics of Stabilizer BARS SAE Technical Paper 2003-01-0239 2003 10.4271/2003-01-0239
- Wittek , A.M. , Richter , H.C. , and Łazarz , B. Stabilizer Bars: Part 1. Calculations and Construction Transport Problems 5 4 135 143 2010
- Gupta , J.K. and Khurmi , R.S. A Text Book of Machine Design S. Chand Twenty Fifth
- Frydmann , S. and Łętkowska , B. Properties of Boron Steel after Different Heat Treatments MTM Machine Technol. Mater 6 9 44 46 2012
- Ariyawiriyanan , W. , Nuinu , J. , Sae-heng , K. , and Kawahara , S. The Mechanical Properties of Vulcanized Deproteinized Natural Rubber Energy Procedia 34 728 733 2013
- Gillespie , T.D. Fundamentals of Vehicle Dynamics 114 SAE International 1992
- Shinde , P. and Patnaik , M.M.M. Parametric Optimization to Reduce Stress Concentration at Corner Bends of Solid and Hollow Stabilizer Bar Int J Res Aeronaut Mech Eng 1 4 1 15 2013
- Inoue , K. Design of the Hollow Stabilizer Transactions of Japan Society of Spring Engineers 28 46 54 1983 1983