TY - RPRT A1 - Ackermann, Timo A1 - Hauck-Bauer, Eva A1 - Jäger, Johannes A1 - Köster, Heinrich A1 - Krause, Harald A1 - Mayr, Wolfgang A1 - Mysliwetz, Birger A1 - Niedermaier, Peter A1 - Ober, Thorsten A1 - Pfaffenberger, Ulrich A1 - Stauss, Kilian A1 - Werndl, Peter A1 - Zscheile, Matthias T1 - Jahresbericht 2017, Forschung - Entwicklung - Innovation N2 - Mit dem jährlich erscheinenden Forschungsbericht möchte die Hochschule Rosenheim einen Einblick in ihre vielfältigen Projekte und Aktivitäten der angewandten Forschung und Entwicklung geben. Im Jahresbericht 2017 wird über Vorhaben im Jahr 2017 berichtet. T3 - Schriftenreihen - Forschungsbericht - 6 KW - Forschung Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:861-opus4-12278 ER - TY - RPRT A1 - Ackermann, Timo A1 - Angermeier, Martin A1 - Auer, Veronika A1 - Beneken, Gerd A1 - Bernhardt, Andreas A1 - Botsch, Rafael A1 - Bücker, Dominikus A1 - Hager, Ralf A1 - Hauck-Bauer, Eva A1 - Heigl, Martin A1 - Hirschmüller, Sebastian A1 - Höllmüller, Janett A1 - Karlinger, Peter A1 - Köster, Heinrich A1 - Krause, Harald A1 - Kucich, Martin A1 - Matthias, Kira A1 - Patzl, Victoria A1 - Plönnigs, René A1 - Posch, Georg A1 - Schanda, Ulrich A1 - Scheerer, Josua A1 - Schlecht, Johannes A1 - Schmidt, Jochen A1 - Stichler, Markus A1 - Uhl, Cornelius A1 - Viehhauser, Peter A1 - Weber, Gabriel A1 - Wolf, Christopher A1 - Zagler, Stefan A1 - Zentgraf, Peter T1 - Forschungsbericht 2013 N2 - Mit dem jährlich erscheinenden Forschungsbericht möchte die Hochschule Rosenheim einen Einblick in ihre vielfältigen Projekte und Aktivitäten der angewandten Forschung und Entwicklung geben. Im Forschungsbericht 2013 wird über Vorhaben im Jahr 2013 berichtet. T3 - Schriftenreihen - Forschungsbericht - 2 KW - Forschung Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:861-opus4-12324 ER - TY - THES A1 - Ackermann, Timo T1 - Entwicklung eines faltbaren Werkstoffverbundes auf Furnierbasis N2 - The growing demand for durable, sustainable, regionally and "fairly" produced products has been rising steadily since the early 2000s, especially products made of wood are becoming more and more popular. Against this background, together with the company Josef Wochner GmbH & Co KG, Rosenfeld Heiligenzimmern, the idea was born to develop a material based on real wood veneers of alder (Alnus glutinosa L) and oak (Quercus petraea (matt) Liebl. respectively Quercus robur L. ), bonded with a flexible middle layer, which can be used in the packaging environment. In order to ensure the highest possible dimensional stability, a 5-layer structure was aimed at, each consisting of two cross-glued veneer sheets on a flexible middle layer. This composite material named „Faltfurnier“ and its basic materials were investigated and evaluated with regard to their mechanical-technological and chemical properties. A material combination of veneers and a PVC foil in the middle layer was selected. A PVAc-based adhesive and a thermoplastic adhesive film on PU basis were used for bonding the different layers. In a first step, the tensile strength of the PVC foil used was investigated under different starting conditions. Here it was shown that the direction of production has a significant influence on the tensile strength. Thus, parallel to the direction of production significantly higher strengths than perpendicular to the direction of production were found. An influence of the process temperature could not be proven. Within different test series the surface soundness was used as a criterion to define an optimal pressing time, to evaluate the quality of the bonding by means of thermoplastic adhesive film of the veneers on PVC film as well as the bonding of the cross grain and face veneers by means of the adhesive systems PVAc and adhesive film. The tests resulted in an optimal pressing time of 120 s and incomparison significantly lower surface soundness in the test series with oak than with alder on PVC foil. Furthermore it could be shown that the bonding of the cross grain and face veneers can be replaced by a thermoplastic adhesive film, but leads to lower strengths. A positive aspect here is that the more economic production using the one-shot process would thus be possible. Due to the differences in the strength of the bond between alder and oak, the veneers were chemically characterised with regard to their pH values, buffer capacities and extractives, and reasons for the lower strength of oak on PVC film were determined. An influence of the surface structure of the veneers on the surface soundness could not be proven with certainty. Finally, a 5-layer overall composite of alder veneer on PVC foil was produced and examined with regard to its bending strength and bending modulus of elasticity, durability of the folding groove as well as its behaviour in strong alternating climate. The tests showed that the bending strength and bending modulus of elasticity were significantly higher when tested perpendicular to the grain direction of the face veneer than when tested parallel to the grain direction. Cracks and signs of fatigue in the folding groove only became apparent on average after 4,436 repetitions of the folding process using a door testing machine, and the material remained dimensionally stable except for slight warping on its head sides when stored in a highly variable climate. KW - veneer KW - foldable veneer KW - adhesive film on PU basis KW - material composite KW - material composite based on veneer Y1 - 2021 UR - https://hdl.handle.net/21.11130/00-1735-0000-0008-5936-8 ER -