Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests

Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests

Research for innovative composite material solutions for impact absorbers is focused on the analysis of their ability to absorb impact energy. For this purpose, aramid fiber laminate with DCPD resin matrix was prepared. Laminate samples were tested on the drop test and were subjected to ballistic lo...

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Main Authors: Bocian Miroslaw, Pach Joanna, Jamroziak Krzysztof, Kosobudzki Mariusz, Polak Slawomir, Pyka Dariusz, Kurzawa Adam, Kurowski Janusz
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201711204013
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spelling doaj-92d0028a783f421d91a70d0da0a997152021-02-02T04:26:01ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-011120401310.1051/matecconf/201711204013matecconf_imane2017_04013Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact testsBocian Miroslaw0Pach Joanna1Jamroziak Krzysztof2Kosobudzki Mariusz3Polak Slawomir4Pyka Dariusz5Kurzawa Adam6Kurowski Janusz7Wroclaw University of Science and Technology, Department of Mechanics, Materials Science and EngineeringWroclaw University of Science and Technology, Chair of Foundry, Polymers and Automation, Laboratory of PlasticsWroclaw University of Science and Technology, Department of Mechanics, Materials Science and EngineeringGeneral Tadeusz Kosciuszko Military Academy of Land ForcesWroclaw University of Science and Technology, Department of Metal Forming and MetrologyWroclaw University of Science and Technology, Department of Metal Forming and MetrologyWroclaw University of Science and Technology, Chair of Foundry, Polymers and Automation, Laboratory of PlasticsThe company IM/kompozytyResearch for innovative composite material solutions for impact absorbers is focused on the analysis of their ability to absorb impact energy. For this purpose, aramid fiber laminate with DCPD resin matrix was prepared. Laminate samples were tested on the drop test and were subjected to ballistic loads. The laminate structure was modeled with ABAQUS software with the objective to optimize and estimate the ability to absorb impact energy in the range of high speeds (350m/s).https://doi.org/10.1051/matecconf/201711204013
collection DOAJ
language English
format Article
sources DOAJ
author Bocian Miroslaw
Pach Joanna
Jamroziak Krzysztof
Kosobudzki Mariusz
Polak Slawomir
Pyka Dariusz
Kurzawa Adam
Kurowski Janusz
spellingShingle Bocian Miroslaw
Pach Joanna
Jamroziak Krzysztof
Kosobudzki Mariusz
Polak Slawomir
Pyka Dariusz
Kurzawa Adam
Kurowski Janusz
Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests
MATEC Web of Conferences
author_facet Bocian Miroslaw
Pach Joanna
Jamroziak Krzysztof
Kosobudzki Mariusz
Polak Slawomir
Pyka Dariusz
Kurzawa Adam
Kurowski Janusz
author_sort Bocian Miroslaw
title Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests
title_short Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests
title_full Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests
title_fullStr Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests
title_full_unstemmed Experimental and numerical analysis of aramid fiber laminates with DCPD resin matrix subjected to impact tests
title_sort experimental and numerical analysis of aramid fiber laminates with dcpd resin matrix subjected to impact tests
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2017-01-01
description Research for innovative composite material solutions for impact absorbers is focused on the analysis of their ability to absorb impact energy. For this purpose, aramid fiber laminate with DCPD resin matrix was prepared. Laminate samples were tested on the drop test and were subjected to ballistic loads. The laminate structure was modeled with ABAQUS software with the objective to optimize and estimate the ability to absorb impact energy in the range of high speeds (350m/s).
url https://doi.org/10.1051/matecconf/201711204013
work_keys_str_mv AT bocianmiroslaw experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT pachjoanna experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT jamroziakkrzysztof experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT kosobudzkimariusz experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT polakslawomir experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT pykadariusz experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT kurzawaadam experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
AT kurowskijanusz experimentalandnumericalanalysisofaramidfiberlaminateswithdcpdresinmatrixsubjectedtoimpacttests
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