Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance

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Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance. / Stelzer, Steffen; Ucsnik, Stephan; Pinter, Gerald Gerhard.
Materials Science Forum. Band 825-826.2015 2015. S. 883-890 (Materials Science Forum).

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Buch/SammelbandForschung

Harvard

Stelzer, S, Ucsnik, S & Pinter, GG 2015, Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance. in Materials Science Forum. Bd. 825-826.2015, Materials Science Forum, S. 883-890. https://doi.org/10.4028/www.scientific.net/MSF.825-826.883

APA

Stelzer, S., Ucsnik, S., & Pinter, G. G. (2015). Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance. In Materials Science Forum (Band 825-826.2015, S. 883-890). (Materials Science Forum). https://doi.org/10.4028/www.scientific.net/MSF.825-826.883

Vancouver

Stelzer S, Ucsnik S, Pinter GG. Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance. in Materials Science Forum. Band 825-826.2015. 2015. S. 883-890. (Materials Science Forum). doi: 10.4028/www.scientific.net/MSF.825-826.883

Author

Stelzer, Steffen ; Ucsnik, Stephan ; Pinter, Gerald Gerhard. / Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance. Materials Science Forum. Band 825-826.2015 2015. S. 883-890 (Materials Science Forum).

Bibtex - Download

@inbook{17f2fabf2ae6404581bd74fb7e89ff49,
title = "Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance",
abstract = "A novel composite-composite joining technology based on metal pins oriented in through thickness direction of the composites is presented. A defined pin geometry, which is capable of establishing a through-thickness form-fit connection between composites and the metal reinforcement, is created on thin metal sheets in an automated pin production process. Based on numerical simulations of the fracture of unreinforced single lap shear (SLS) composite specimens, optimum locations for the pin reinforcement were found. Tests on reinforced SLS specimens proved that an enhanced damage tolerance can be achieved by the use of cold metal transfer welded pins (CMT pins) as through-the-thickness reinforcement of the joint area. This paper investigates the mechanisms responsible for the load transfer and failure of such through-the-thickness reinforced composite-composite joints during monotonic loading.",
author = "Steffen Stelzer and Stephan Ucsnik and Pinter, {Gerald Gerhard}",
year = "2015",
month = jul,
doi = "10.4028/www.scientific.net/MSF.825-826.883",
language = "English",
volume = "825-826.2015",
series = "Materials Science Forum",
publisher = "Trans Tech Publications",
pages = "883--890",
booktitle = "Materials Science Forum",

}

RIS (suitable for import to EndNote) - Download

TY - CHAP

T1 - Composite-Composite Joining with through the Thickness Reinforcements for Enhanced Damage Tolerance

AU - Stelzer, Steffen

AU - Ucsnik, Stephan

AU - Pinter, Gerald Gerhard

PY - 2015/7

Y1 - 2015/7

N2 - A novel composite-composite joining technology based on metal pins oriented in through thickness direction of the composites is presented. A defined pin geometry, which is capable of establishing a through-thickness form-fit connection between composites and the metal reinforcement, is created on thin metal sheets in an automated pin production process. Based on numerical simulations of the fracture of unreinforced single lap shear (SLS) composite specimens, optimum locations for the pin reinforcement were found. Tests on reinforced SLS specimens proved that an enhanced damage tolerance can be achieved by the use of cold metal transfer welded pins (CMT pins) as through-the-thickness reinforcement of the joint area. This paper investigates the mechanisms responsible for the load transfer and failure of such through-the-thickness reinforced composite-composite joints during monotonic loading.

AB - A novel composite-composite joining technology based on metal pins oriented in through thickness direction of the composites is presented. A defined pin geometry, which is capable of establishing a through-thickness form-fit connection between composites and the metal reinforcement, is created on thin metal sheets in an automated pin production process. Based on numerical simulations of the fracture of unreinforced single lap shear (SLS) composite specimens, optimum locations for the pin reinforcement were found. Tests on reinforced SLS specimens proved that an enhanced damage tolerance can be achieved by the use of cold metal transfer welded pins (CMT pins) as through-the-thickness reinforcement of the joint area. This paper investigates the mechanisms responsible for the load transfer and failure of such through-the-thickness reinforced composite-composite joints during monotonic loading.

U2 - 10.4028/www.scientific.net/MSF.825-826.883

DO - 10.4028/www.scientific.net/MSF.825-826.883

M3 - Chapter

VL - 825-826.2015

T3 - Materials Science Forum

SP - 883

EP - 890

BT - Materials Science Forum

ER -

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