Investigation of Thickness Influences on Energy Absorption for Side Doors and B Pillar in Euro NCAP Pole Side Impact Test

To assess a car under the Euro New Car Assessment Program (Euro-NCAP), Adult Occupant Protection is one out of three parameters which need to be calculated with a weight factor of 50% while the other parameters, Child Occupant Protection and Pedestrian Occupant Protection, have a weight factor of 20%. The Pole Side Impact Test, beside two other tests, Side & Front Impact, is also required to calculate the Adult Occupant Protection. It shows how important the Pole Side Impact Test is and what an effective role it has in the car rating assessment. In this paper, the objective is to evaluate the effect of thickness on the energy absorbed by the side doors and the B pillar and its crashworthiness in a Pole Side Impact Test based on the Euro NCAP. In this matter, a vehicle model has been designed and prepared using CATIA and meshed using Hypermesh. Five thicknesses have been chosen including 0.6 mm, 1 mm, 1.2 mm, 1.4 mm and the original thickness of the side doors, 0.75 mm. The simulations have been repeated, using LS DYNA solver, assigning each of five thicknesses to the side doors and the B pillar of the vehicle. Initial conditions defined by the Euro NCAP, including velocity and directions, have been applied to the model. A total of 5 simulations have been conducted. The results showed that changing the thickness of the side doors and the B pillar does not necessarily have a direct influence on energy absorbed. The conclusion is that there are different proper thicknesses for each part which will result in optimized energy absorption.

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Crashworthiness Determination of Side Doors and B Pillar of a Vehicle Subjected to Pole Side Impact

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.663.552 ◽

2014 ◽

Vol 663 ◽

pp. 552-556 ◽

Cited By ~ 3

Author(s):

A.H. Lilehkoohi ◽

A.A. Faieza ◽

B.B. Sahari ◽

A.A. Nuraini ◽

M. Halali

Keyword(s):

Impact Test ◽

Simulation Method ◽

Side Impact ◽

Occupant Protection ◽

Euro Ncap ◽

Assessment Program ◽

Static Object ◽

Object Based ◽

Crash Tests

Pole Side Impact Test is one out of three crash tests described by Euro NCAP standard for star rating of a vehicle and is required for assessing the Adult Occupant Protection. In this paper the goal is to determine the crashworthiness of side doors and B pillar in a Pole Side Impact Test based on Euro New Car Assessment Program (Euro-NCAP) using computer and simulation method. In this matter, a vehicle model has been prepared and meshed using Hypermesh and CATIA. The velocity of 29 km/h has been assigned to the vehicle which was on top of a cart while the pole has been assigned as a rigid static object based on Euro NCAP requirements specifically. Results show that different amounts of energy will be absorbed by each part, such as the side doors and the B pillar, and each part has a different effect on the crashworthiness of the vehicle in a Pole Side Impact Test. It can be concluded that to increase the amount of absorbed energy in a Pole Side Impact Test, the part which has more influence should be taken into greater consideration.

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Investigation on Adult Occupant Protection in Car Pole Side Impact Using Various Material and Thickness of Side Doors and B Pillar

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.663.579 ◽

2014 ◽

Vol 663 ◽

pp. 579-584 ◽

Cited By ~ 2

Author(s):

A.H. Lilehkoohi ◽

A.A. Faieza ◽

B.B. Sahari ◽

Abdul Aziz Nuraini ◽

M. Halali

Keyword(s):

High Strength Steel ◽

High Strength ◽

Total Weight ◽

Side Impact ◽

Vehicle Model ◽

Absorbed Energy ◽

Occupant Protection ◽

Euro Ncap ◽

Assessment Program ◽

Proper Material

In this paper the objective is to study the effect of the material and thickness of the side doors and B pillar on crashworthiness and the energy absorbed in order to select a proper material and an optimized thickness to approach a five star car concept based on the Euro New Car Assessment Program (Euro-NCAP) testing Pole Side Impact. In this matter, four materials and five thicknesses have been chosen for the vehicle model and a total of twenty simulations have been conducted. The results showed that the best selected materials and thicknesses were high strength Steel 204M with a thickness of 1.2mm for side doors and 0.65mm for the B pillar, however, it is important to note that this selection is to maximize the absorbed energy not necessarily to reduce the total weight of the vehicle.

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Road vehicles. Injury risk curves for the evaluation of occupant protection in side impact tests

10.3403/30216117 ◽

2013 ◽

Keyword(s):

Injury Risk ◽

Side Impact ◽

Road Vehicles ◽

Occupant Protection ◽

Impact Tests ◽

Risk Curves

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Impact test procedures for road vehicles. Seating and positioning procedures for anthropomorphic test devices. Procedure for the WorldSID 5Oth percentile male side-impact dummy in front outboard seating positions

10.3403/30266980 ◽

2013 ◽

Keyword(s):

Impact Test ◽

Side Impact ◽

Road Vehicles ◽

Test Procedures ◽

Male Side ◽

Seating And Positioning

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Child Occupant Protection In Motor Vehicles

Pediatrics in Review ◽

10.1542/pir.18.12.413 ◽

1997 ◽

Vol 18 (12) ◽

pp. 413-423

Author(s):

Phyllis Agran ◽

Diane Winn ◽

Craig Anderson

Keyword(s):

Motor Vehicles ◽

Occupant Protection ◽

Child Occupant

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Analysis of mechanics of side impact test defined in UN/ECE Regulation 129

Traffic Injury Prevention ◽

10.1080/15389588.2017.1378813 ◽

2017 ◽

Vol 19 (3) ◽

pp. 256-263 ◽

Cited By ~ 2

Author(s):

Pawel Baranowski ◽

Krzysztof Damaziak ◽

Lukasz Mazurkiewicz ◽

Jerzy Malachowski ◽

Artur Muszynski ◽

...

Keyword(s):

Impact Test ◽

Side Impact ◽

Un Ece

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A Side Impact Test Procedure for Composite Sandwich Panels

10.4271/962506 ◽

1996 ◽

Cited By ~ 1

Author(s):

Alan Browne ◽

Hannes Fuchs ◽

Nancy Johnson ◽

Patrick Watling ◽

John Melvin ◽

...

Keyword(s):

Impact Test ◽

Test Procedure ◽

Sandwich Panels ◽

Side Impact ◽

Composite Sandwich Panels ◽

Composite Sandwich

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The Analysis and Improvement for Side Impact of Car Body Structure

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.456.38 ◽

2013 ◽

Vol 456 ◽

pp. 38-42

Author(s):

Ai Hong Gong ◽

Ming Mao Hu

Keyword(s):

Side Impact ◽

Fe Model ◽

Body Structure ◽

Impact Performance ◽

Car Body ◽

Euro Ncap ◽

Virtual Test ◽

Structure Improvement ◽

Moving Deformable Barrier ◽

The Impact

Based on the finite element (FE) model and Moving Deformable barrier (MDB) model of a car side impact, the virtual test of the side impact was conducted with HYPERWORK software according to Euro-NCAP regulation. Then the impact performance was evaluated in both deformation and response curve of the car body, and the problem of the crashworthiness in designing the side structure was analyzed. Finally, the structure improvement with CATIA for the side crashworthiness was proposed. Keywords: CAE analyze, Side impact, Improvement

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Math-Based Performance Evaluation of an Experimental Car: Side Impact Protection

Volume 2: 28th Design Automation Conference ◽

10.1115/detc2002/dac-34076 ◽

2002 ◽

Author(s):

Yih-Charng Deng ◽

Chin-Hsu Lin ◽

J. T. Wang

Keyword(s):

Finite Element ◽

Performance Evaluation ◽

Side Impact ◽

Finite Element Models ◽

Occupant Protection ◽

Potential Benefits ◽

Impact Protection

This study used finite element models to assess potential benefits of selected unconventional features implemented in this study for occupant protection in side impact. These features include door lockdown, gullwing door with a corrugated aluminum panel and cross-car beams. The intrusion and intrusion velocity of the B-pillar were used as the parameters for measuring side impact protection performance. No attempt was made here to assess manufacturablity, design feasibility, mass implications or market interest.

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Crash Tests and the Loads over Driver Head in Different Side Impact Cases

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.823.181 ◽

2016 ◽

Vol 823 ◽

pp. 181-186 ◽

Cited By ~ 2

Author(s):

Nicolae Ispas ◽

Mircea Nastasoiu

Keyword(s):

Head Injury ◽

Real World ◽

Traffic Accidents ◽

Side Impact ◽

Passive Safety ◽

Occupant Safety ◽

The Real ◽

Occupant Protection ◽

Head Injury Criterion ◽

Crash Tests

Car occupant protection in traffic accidents is a key target of today cars manufacturers. Known as active or passive safety, many technological solutions were developing over the time for an actual better car’s occupant safety. In the real world, in traffic accidents are often involved cars from different generations with various safety historical solutions. The aims of these papers are to quantify the influences over the car driver head loads in cases of different generation of cars involved in side crashes. For each case the experimental load results can be future used to calculate Head Injury Criterion (HIC) [1]

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