|Title:||On the identification of cohesive parameters for printed metal-polymer interfaces||Authors:||Heinrich, Felix
Langner, Hauke H.
|Language:||en||Subject (DDC):||Infrastruktur||Issue Date:||2017||Document Type:||Article||Source:||In: Smart materials and structures. - Bristol : IOP Publ., 1992. - Online-Ressource . - 26.2017, 10S. Nr. 05025||Journal / Series / Working Paper (HSU):||Smart materials and structures||Volume:||26||Issue:||5||Page Start:||55025||Page End:||55025||Abstract:||
The mechanical behavior of printed electronics on fiber reinforced composites is investigated. A methodology based on cohesive zone models is employed, considering interfacial strengths, stiffnesses and critical strain energy release rates. A double cantilever beam test and an end notched flexure test are carried out to experimentally determine critical strain energy release rates under fracture modes I and II. Numerical simulations are performed in Abaqus 6.13 to model both tests. Applying the simulations, an inverse parameter identification is run to determine the full set of cohesive parameters.
|Organization Units (connected with the publication):||Mechanik||URL:||https://ub.hsu-hh.de/DB=1.8/XMLPRS=N/PPN?PPN=1006066101||DOI:||10.1088/1361-665X/aa699f|
|Appears in Collections:||Publications of the HSU Researchers|
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