Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications

Composite multi-material structures for the automotive industry are another step forward. This is because they contribute to a significant reduction in the weight of structural elements, and thus to energy savings and, consequently, lower emissivity of toxic gases. The paper presents research on a n...

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Autores principales: Tomasz Osiecki, Tristan Timmel, Marek Jałbrzykowski, Robert E. Przekop, Zbigniew Oksiuta
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/3718b334afd440b984fbcd4946de1b24
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spelling oai:doaj.org-article:3718b334afd440b984fbcd4946de1b242021-11-25T17:19:03ZInverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications10.3390/cryst111113742073-4352https://doaj.org/article/3718b334afd440b984fbcd4946de1b242021-11-01T00:00:00Zhttps://www.mdpi.com/2073-4352/11/11/1374https://doaj.org/toc/2073-4352Composite multi-material structures for the automotive industry are another step forward. This is because they contribute to a significant reduction in the weight of structural elements, and thus to energy savings and, consequently, lower emissivity of toxic gases. The paper presents research on a new multi-material system made of fiber-reinforced thermoplastics (FRP) combined with metal elements. To improve the adhesion between the metal insert and the fiber-reinforced plastic, an innovative combination of mechanical fit and adhesive was used. As a result, a targeted use of the excellent mechanical properties of the proposed structure was achieved. Additionally, the proposed method shows advantages in mass production processes of mass-optimized products with high stiffness and load-bearing capacity. The paper presents the results of a new material bending test.Tomasz OsieckiTristan TimmelMarek JałbrzykowskiRobert E. PrzekopZbigniew OksiutaMDPI AGarticlemetal/composite laminatefiber reinforced plasticsinverse hybrid laminateflexural propertiesthree point bending testlightweight structureCrystallographyQD901-999ENCrystals, Vol 11, Iss 1374, p 1374 (2021)
institution DOAJ
collection DOAJ
language EN
topic metal/composite laminate
fiber reinforced plastics
inverse hybrid laminate
flexural properties
three point bending test
lightweight structure
Crystallography
QD901-999
spellingShingle metal/composite laminate
fiber reinforced plastics
inverse hybrid laminate
flexural properties
three point bending test
lightweight structure
Crystallography
QD901-999
Tomasz Osiecki
Tristan Timmel
Marek Jałbrzykowski
Robert E. Przekop
Zbigniew Oksiuta
Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications
description Composite multi-material structures for the automotive industry are another step forward. This is because they contribute to a significant reduction in the weight of structural elements, and thus to energy savings and, consequently, lower emissivity of toxic gases. The paper presents research on a new multi-material system made of fiber-reinforced thermoplastics (FRP) combined with metal elements. To improve the adhesion between the metal insert and the fiber-reinforced plastic, an innovative combination of mechanical fit and adhesive was used. As a result, a targeted use of the excellent mechanical properties of the proposed structure was achieved. Additionally, the proposed method shows advantages in mass production processes of mass-optimized products with high stiffness and load-bearing capacity. The paper presents the results of a new material bending test.
format article
author Tomasz Osiecki
Tristan Timmel
Marek Jałbrzykowski
Robert E. Przekop
Zbigniew Oksiuta
author_facet Tomasz Osiecki
Tristan Timmel
Marek Jałbrzykowski
Robert E. Przekop
Zbigniew Oksiuta
author_sort Tomasz Osiecki
title Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications
title_short Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications
title_full Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications
title_fullStr Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications
title_full_unstemmed Inverse Fiber Reinforced Polymer/Metal-Hybrid Laminates for Structural Lightweight Applications
title_sort inverse fiber reinforced polymer/metal-hybrid laminates for structural lightweight applications
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/3718b334afd440b984fbcd4946de1b24
work_keys_str_mv AT tomaszosiecki inversefiberreinforcedpolymermetalhybridlaminatesforstructurallightweightapplications
AT tristantimmel inversefiberreinforcedpolymermetalhybridlaminatesforstructurallightweightapplications
AT marekjałbrzykowski inversefiberreinforcedpolymermetalhybridlaminatesforstructurallightweightapplications
AT roberteprzekop inversefiberreinforcedpolymermetalhybridlaminatesforstructurallightweightapplications
AT zbigniewoksiuta inversefiberreinforcedpolymermetalhybridlaminatesforstructurallightweightapplications
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