Development of a direct process for the production of long glass fiber reinforced phenolic resins
Maertens, Robert
1; Liebig, Wilfried
1; Weidenmann, Kay André; Elsner, Peter 1
1 Institut für Angewandte Materialien – Werkstoffkunde (IAM-WK), Karlsruher Institut für Technologie (KIT)
1; Liebig, Wilfried
1; Weidenmann, Kay André; Elsner, Peter 11 Institut für Angewandte Materialien – Werkstoffkunde (IAM-WK), Karlsruher Institut für Technologie (KIT)
Abstract:
Parts made from phenolic molding compounds reinforced with glass fibers have a good heat resistance, a high
dimensional accuracy, and an excellent chemical resistance. However, these parts typically have a low elongation at break
and a low impact toughness. Conventional glass fiber-reinforced phenolic molding compounds have an average fiber length
which is below the critical fiber length for this material combination. To increase the fiber length in the molded parts, a
new injection molding process was developed, which allows the direct feeding of long glass fibers into the plasticizing unit
of the injection molding machine. For opening and dispersing long fiber bundles, a thermoset-specific screw mixing
element was developed and compared to the conventional conveying screw geometry. The process stability was quantified
by analyzing the plasticizing work and injection work. Despite the increased fiber shortening when using the mixing
element, the dynamical mechanical properties were improved compared to the standard conveying screw geometry, which
is attributed to the better fiber-matrix homogenization.
dimensional accuracy, and an excellent chemical resistance. However, these parts typically have a low elongation at break
and a low impact toughness. Conventional glass fiber-reinforced phenolic molding compounds have an average fiber length
which is below the critical fiber length for this material combination. To increase the fiber length in the molded parts, a
new injection molding process was developed, which allows the direct feeding of long glass fibers into the plasticizing unit
of the injection molding machine. For opening and dispersing long fiber bundles, a thermoset-specific screw mixing
element was developed and compared to the conventional conveying screw geometry. The process stability was quantified
by analyzing the plasticizing work and injection work. Despite the increased fiber shortening when using the mixing
element, the dynamical mechanical properties were improved compared to the standard conveying screw geometry, which
is attributed to the better fiber-matrix homogenization.
| Zugehörige Institution(en) am KIT | Institut für Angewandte Materialien – Werkstoffkunde (IAM-WK) |
| Publikationstyp | Proceedingsbeitrag |
| Publikationsdatum | 28.05.2024 |
| Sprache | Englisch |
| Identifikator | ISSN: 0094-243X KITopen-ID: 1000171866 |
| Erschienen in | The 2nd International Symposium on Plastics Technology, Aachen, 5th–6th September 2022 |
| Veranstaltung | 2nd International Symposium on Plastic Technology (2022), Aachen, Deutschland, 05.09.2024 – 06.09.2024 |
| Verlag | AIP Publishing |
| Seiten | Art.-Nr.: 020012 |
| Serie | AIP Conference Proceedings ; 3012 |
| Nachgewiesen in | OpenAlex Scopus Dimensions |