Development of Methodology for Accelerated Validation of Axle Components in Relation to Static Load Capacity

Author:

Kuwar Virendra S1,Thorat Omkar1,Bakal Nikhil Rajendra1,Joshi Omkar Prakash1,Pawar Prashant R1,Shinde Vikram V1,Sutar Mohan2,Potdar Anil3,Tak Sachin2,Nilangekar Abhijit4,Kulkarni Milind5

Affiliation:

1. Automotive Research Association of India

2. AAM Services India Pvt. Ltd.

3. AAAM Services India Pvt. Ltd.

4. AAM India Manufacturing Corp Pvt. Ltd.

5. American Axle Manufacturing Services

Abstract

<div class="section abstract"><div class="htmlview paragraph">The Indian automotive industry is striving towards more safe and durable vehicles. A need was felt to study the effect of changes in axle static loads on fatigue life of the axle components. Also, there was a need to develop generic test method, as there are no test standards or generic methods available in public domain for fatigue testing of commercial vehicle axles. The study was carried out to check direct effect of change in axle loads on various connections on axle, effect of suspension configuration and force distribution, Vehicle dynamics, etc.</div><div class="htmlview paragraph">In this paper, an India specific generic load spectra was evaluated for accelerated laboratory validation. Paper discusses the methodology as; study of heavy commercial vehicle systems, road load data collection on identified test vehicles w.r.t. test matrix finalized, India specific test loads and load spectra development, normalization of axle load spectra w.r.t to static axle weights and arriving at test guidelines. Comprehensive experiments and load measurements were carried out on test vehicles to arrive at a generic test methodology and test cycles. The derived test specifications were correlated with current industry practices and the actual in-lab experiments were conducted.</div></div>

Publisher

SAE International

Reference9 articles.

1. ISO 2018

2. EUWA Standard 2017

3. SAE 2005

4. Fraunhofer , G. Determination of Load Spectra for Design and Testing Int. J. of Vehicle Design 15 J/2 1994

5. Ledesma , R. , Jenaway , L. , Wang , Y. , and Shih , S. Development of Accelerated Durability Tests for Commercial Vehicle Suspension Components SAE Technical Paper 2005-01-3565 2005 https://doi.org/10.4271/2005-01-3565

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