TY - CHAP A1 - Binninger, Karsten A1 - Kortüm, Christian A1 - Scholz, Frieder ED - Schajer, Gary T1 - Investigation of tool wear of the trimming unit and resulting quality in the edgebanding process T2 - Proceedings of the 25th International Wood Machining Seminar N2 - The edgebanding process, i.e. the covering of the raw edge of the laminated particleboard by means of decorative plastic or real wood veneer bands, is an important process step in the manufacture of furniture components. The quality of the final product is significantly influenced by this production step. The manufacturing process step within the edgebanding machine begins with the milling of the raw edge. The quality of the edgebanding process is determined by a large number of process input variables, such as the tool used and the cutting geometry, the type of laminate used for the wood-based material, adhesives, etc. The quality of the edgebanding process is also determined by the type of material processed. Particularly with regard to the materials, the increased use of recycled wood in the particleboard sector and different types of adhesives (with reduced formaldehyde emissions) results in increased demands on the milling process. Due to this developments, most of the earlier investigations (in the years 1990 - 2000) are not comparable with today’s general conditions. The mechanical and optical properties of the edge applied to the end product are decisively influenced by the quality of this joint. The milling technology used, as well as the tool used for this purpose and its condition, is a decisive influencing factor in the formation of quality. Tests on the indication of various influencing variables in the edgebanding process at the Rosenheim Technical University of Applied Sciences showed that in the case of chipboard milling, a decrease in the electrical power required for the cutting process can take place with increasing tool wear. It was also demonstrated that previous process steps in furniture production, such as panel dividing by means of sawing or milling/nesting, generally have a significantly different influence on the subsequent joining process during edge banding process. Furthermore, a direct correlation was determined between the mechanical properties of the end product and the condition of the tool used, which can be used as a measurable indicator. In addition to the effect of the tool condition on the mechanical properties of the edge banding, this also has an impact on the optical quality characteristics. Accordingly, it could be demonstrated here that an increase in the size and number of chippings takes place in the laminate of the board material to be processed. KW - edgebanding process KW - tool wear KW - trimming KW - product quality Y1 - 2023 ER - TY - RPRT A1 - Barth, Simon A1 - Benecken, Gerd A1 - Betz, Andreas A1 - Binninger, Karsten A1 - Graule, Verena A1 - Hack, Andreas A1 - Haegele, Rainer A1 - Hartmann, Markus A1 - Hauck-Bauer, Eva A1 - Haut, Sandra A1 - Jäger, Johannes A1 - Kagerl, Andreas A1 - Karlinger, Peter A1 - Konle, Elke A1 - Köster, Heinrich A1 - Krause, Harald A1 - Krommes, Sandra A1 - Meissner, Thomas A1 - Michanickl, Andreas A1 - Sandor, Viktor A1 - Schanda, Ulrich A1 - Schemme, Michael A1 - Sebald, Daniela A1 - Spindler, Uli A1 - Stauss, Kilian A1 - Strobl, Thomas A1 - Sussmann, Monika A1 - Versen, Martin A1 - Voit, Johann A1 - Wambsganß, Mathias A1 - Wellisch, Ulrich A1 - Zauner, Johannes T1 - Forschungsbericht 2015 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 2015 wird über Vorhaben im Jahr 2015 berichtet. T3 - Schriftenreihen - Forschungsbericht - 4 KW - Forschung Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:861-opus4-12304 ER -