Detalhes do Documento

Nanostructure evolution mechanisms during slow load-cycling of oriented HDPE/PA...

Autor(es): Zeinolebadi, Ahmad cv logo 1 ; Stribeck, N. cv logo 2 ; Ganjaee-Sari, Morteza cv logo 3 ; Dencheva, Nadya Vasileva cv logo 4 ; Denchev, Z. cv logo 5 ; Botta, Stephan cv logo 6

Data: 2012

Identificador Persistente: http://hdl.handle.net/1822/20767

Origem: RepositóriUM - Universidade do Minho

Assunto(s): Compatibilization; Composites; Fatigue analysis; SAXS; Structure-property relations


Descrição
Oriented precursors of MFCs consisting of HDPE and PA6 or PA12 are studied during strain-controlled slow load-cycling. In the PA6-containing blends a strongly retarded nanostrain response is detected. Compatibilization induces nanostrain heterogenization. Stress fatigue is lower in the PA12 blends, but hardly decreased by the compatibilizer. Selective migration of the compatibilizer into a disordered semi-crystalline fraction of the HDPE matrix can explain the findings. The semi-crystalline HDPE entities in PA6 blends appear more disordered than in PA12-blends. An analysis of the HDPE nanostructure evolution during cycling reveals epitaxial strain crystallization. Uncompatibilized PA6 blends cycled about high pre-strain show plastic flow but nanoscopic shrinkage in the semi-crystalline stacks.
Tipo de Documento Artigo
Idioma Inglês
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    Financiadores do RCAAP
Fundação para a Ciência e a Tecnologia Universidade do Minho   Governo Português Ministério da Educação e Ciência Programa Operacional da Sociedade do Conhecimento União Europeia