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Certified Motorcycle Helmets: Computational Evaluation of the Efficacy of Standard Requirements with Finite Element Models

Fábio A. O. Fernandes, Ricardo J. Alves de Sousa, Mariusz Ptak, Johannes Wilhelm

2020Mathematical and Computational Applications16 citationsDOIOpen Access PDF

Abstract

Every year, thousands of people die in the European Union as a direct result of road accidents. Helmets are one of the most important types of personal safety gear. The ECE R22.05 standard, adopted in 2000, is responsible for the certification of motorcycle helmets in the European Union and in many other countries. Two decades later, it is still being used with the same requirements, without any update. The aim of this work is to evaluate the efficacy of a motorcycle helmet certified by such standard, using computational models as an assessment tool. First, a finite element model of a motorcycle helmet available on the market was developed and validated by simulating the same impacts required by the standard. Then, a finite element model of the human head is used as an injury prediction tool to assess its safety performance. Results indicate a significant risk of brain injury, which is in accordance with previous studies available in the literature. Therefore, this work underlines and emphasizes the need of improving the requirements of ECE R22.05.

Topics & Concepts

CertificationEuropean unionWork (physics)EngineeringEuropean standardFinite element methodSafety standardsVehicle safetyRisk analysis (engineering)Computer scienceTransport engineeringAutomotive engineeringReliability engineeringMechanical engineeringBusinessEconomic policyLawPolitical scienceStructural engineeringAutomotive and Human Injury BiomechanicsTransportation Safety and Impact AnalysisAgriculture and Farm Safety
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