References
- Ahmed, D., Gottlöber, C. and Röbenack, K. (2014) Active trajectory tracking of cutting edge in peripheral milling. In 58th Ilmenau Scientific Colloquium, 8–12 September 2014, Technische Universität Ilmenau, Germany.
- Brown, N. and Parkin, R. M. (1999) Improving wood surface form by modification of the rotary machining process—A mechatronic approach. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 213 (3), 247–260. doi: 10.1243/0954405991516732
- Deutsche Forschungsgemeinschaft. (2003) DFG Schwer-punkt-pro-gramm1156 “Adaptronik für Werkzeugmaschinen” [online]. Accessed 13 March 2015, available at: http://gepris.dfg.de/gepris/projekt/5471969
- Fischer, R. and Gottlöber, C. (1998) Verbesserung der Oberflächenbearbeitung von Holz mit geometrisch bestimmten Schneiden durch lineare Schnittbewegung. Final Report, AiF project 10811 B / 1, Technische Universität Dresden.
- Fischer, R. and Rehm, K. (1995) Einrichtung zur spanenden Bearbeitung von Werkstücken aus Holz, Kunststoffen oder dgl. German Petty Patent 195 17 596.4, 13 May 1995.
- German Institute for Standardization. (1982) DIN 4760: 1982. Gestaltabweichungen – Begriffe, Ordnungssystem.
- Gottlöber, C. (2014) Zerspanung von Holz und Holzwerkstoffen: Grundlagen – Systematik – Modellierung – Prozessgestaltung. 1st ed. (Munich: Carl Hanser).
- Gottlöber, C., Röbenack, K., Ahmed, D. and Eckhardt, S. (2012) An approach for actuator controlled motion of peripheral milling tools on wood. International Journal of Engineering Research and Applications, 2 (6), 1208–1213.
- Hoadley, B. R. (2000) Understanding wood: A craftsman's guide to wood technology. 2nd ed. (Newtown, CT: The Taunton Press).
- Hynek, P. (2004) Wood surface form improvement by real time displacement of tool trajectory. Thesis (PhD). Loughborough University.
- International Organization for Standardization. (1998a) ISO 4288: 1998. Geometrical product specifications (GPS) – Surface texture: Profile method – Rules and procedures for the assessment of surface texture.
- International Organization for Standardization. (1998b) ISO 13565: 1998. Geometrical product specifications (GPS) – Surface texture: Profile method – Surfaces having stratified functional properties.
- International Organization for Standardization. (2005) ISO 4287: 2005. Geometrical product specifications (GPS) – Surface texture: Profile method – Terms, definitions and surface texture parameters.
- Jackson, M. R., Hynek, P. and Parkin, R. M. (2005) Active timber machining: From theory to reality. In 50. Internationales Wissenschaftliches Kolloquium, 19–23 September 2005, Technische Universität Ilmenau, Germany.
- Krondorfer, H. (1998) Verfahren zur Schwingungsidentifikation aus gefrästen Massivholzoberflächen. Thesis (PhD), Universität Stuttgart.
- Ledinek, P. (1994) Apparatus for smoothing and thicknessing wooden work pieces of any size, particularly short and thin pieces. European Patent EP 0382877. 12 January 1994.
- Niemeyer, W. H. and Niemann, R. (2014) Welches CNC-Futter ist ideal? HOB Die Holzbearbeitung, 61 (10), 52–55.
- Röbenack, K., Ahmed, D., Eckhardt, S. and Gottlöber, C. (2013) Peripheral milling of wooden materials without cutter-marks – A mechatronic approach. WSEAS Transactions on Applied and Theoretical Mechanics, 8 (2), 170–179.
- Schimpfle, V. (1960) Grundlagen des richtigen Einsatzes von Fräswerkzeugen. In R. Weinbrenner (ed.) Holzbearbeitungswerkzeuge, Holzwirtschaftliches Jahrbuch Nr. 10 (Stuttgart: Holz-Zentralblatt Verlags GmbH), pp. 137–138.
- The Association of German Engineers. (2014) VDI 3414-3 Draft: 2014. Quality evaluation of wooden surfaces – Milled, sawn, planed, drilled and turned surfaces.
- Thiele, J., Urban, F., von Löwis, J. and Rudolph, J. (2001) Neue Anwendungen für magnetgelagerte Spindeln. Werkstatt und Betrieb, 134 (7/8), 127–129.
- Weinig, A. G. (2015) Jointing technology [online]. Accessed 24 March 2015, Available at: http://www.weinig.com/en/solid-wood/tools/jointing-technology.html