Minimum invasive production-related SLS specimen manufacturing for interface characterization of hybrid materials made by RTM

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Minimum invasive production-related SLS specimen manufacturing for interface characterization of hybrid materials made by RTM. / Hergan, Patrick; Lechner, Christoph; Fauster, Ewald et al.
In: International Journal of Advanced Manufacturing Technology, Vol. 102.2019, No. 5-8, 15.01.2019, p. 1963-1972.

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@article{92690867a8ce4102979da41dd6085cdf,
title = "Minimum invasive production-related SLS specimen manufacturing for interface characterization of hybrid materials made by RTM",
abstract = "This work shows a new way of single lap shear specimen production for hybrid metal-composite materials, which can be used to characterize process-induced interface property variations. Due to this special procedure, the specimen manufacturing can be done production-related and with a homogenization of the thermal stresses occurring in the joint area of the hybrid at each specimen. The exemption process of the specimen is kept in a minimum invasive way, not affecting the interface in the tested zone. The influence of the metal surface structure specifically created by micro form milling as well as the influence of the curing temperature on the maximum shear strength of the interface, were investigated. Finally, the driving failure mechanisms were identified and described.",
keywords = "Hybrid Metal-CFRP Composites, Interface Characterisation, Single Lap Shear Test, Resin Transfer Moulding, Processing of Composites",
author = "Patrick Hergan and Christoph Lechner and Ewald Fauster and Gerald Pilz and Ralf Schledjewski",
year = "2019",
month = jan,
day = "15",
doi = "10.1007/s00170-018-3179-z",
language = "English",
volume = "102.2019",
pages = "1963--1972",
journal = "International Journal of Advanced Manufacturing Technology",
issn = "0268-3768",
publisher = "Springer",
number = "5-8",

}

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TY - JOUR

T1 - Minimum invasive production-related SLS specimen manufacturing for interface characterization of hybrid materials made by RTM

AU - Hergan, Patrick

AU - Lechner, Christoph

AU - Fauster, Ewald

AU - Pilz, Gerald

AU - Schledjewski, Ralf

PY - 2019/1/15

Y1 - 2019/1/15

N2 - This work shows a new way of single lap shear specimen production for hybrid metal-composite materials, which can be used to characterize process-induced interface property variations. Due to this special procedure, the specimen manufacturing can be done production-related and with a homogenization of the thermal stresses occurring in the joint area of the hybrid at each specimen. The exemption process of the specimen is kept in a minimum invasive way, not affecting the interface in the tested zone. The influence of the metal surface structure specifically created by micro form milling as well as the influence of the curing temperature on the maximum shear strength of the interface, were investigated. Finally, the driving failure mechanisms were identified and described.

AB - This work shows a new way of single lap shear specimen production for hybrid metal-composite materials, which can be used to characterize process-induced interface property variations. Due to this special procedure, the specimen manufacturing can be done production-related and with a homogenization of the thermal stresses occurring in the joint area of the hybrid at each specimen. The exemption process of the specimen is kept in a minimum invasive way, not affecting the interface in the tested zone. The influence of the metal surface structure specifically created by micro form milling as well as the influence of the curing temperature on the maximum shear strength of the interface, were investigated. Finally, the driving failure mechanisms were identified and described.

KW - Hybrid Metal-CFRP Composites

KW - Interface Characterisation

KW - Single Lap Shear Test

KW - Resin Transfer Moulding

KW - Processing of Composites

UR - http://www.scopus.com/inward/record.url?scp=85060145328&partnerID=8YFLogxK

U2 - 10.1007/s00170-018-3179-z

DO - 10.1007/s00170-018-3179-z

M3 - Article

VL - 102.2019

SP - 1963

EP - 1972

JO - International Journal of Advanced Manufacturing Technology

JF - International Journal of Advanced Manufacturing Technology

SN - 0268-3768

IS - 5-8

ER -