@misc{13701, abstract = {{In times of crisis and conflict, the importance of sustainable and efficiently producible emergency shelters, which enable a life in safety and dignity, in-creases. The construction of such accommodation must meet the require-ments of various areas, including minimum standards of humanitarian organ-ization, structural requirements and manufacturing restrictions. The shelter solution presented here, which results from these requirements, is intended to be a sustainable alternative to existing emergency accommodation, especially tents. In order to actually replace tents in some scenarios, the accommoda-tion must be able to be manufactured industrially in large series. Various concept studies were carried out for this purpose. The principle was: “form follows function & follows production”}}, author = {{Riegel, Adrian}}, booktitle = {{Advances in Wood Machining : Selected Chapters from the 26th International Wood Machining Seminar (IWMS26)}}, editor = {{Goli, Giacomo and Sandak, Jakub and Schajer, Gary and Zanetti, Michaela and Bounamici, Francesco}}, isbn = {{978-3-032-17308-9}}, keywords = {{Refugee Shelter, Emergency accommodation, sustainability, serial produc-tion, timber frame construction}}, location = {{Florenz}}, pages = {{186--192}}, publisher = {{Springer Verlag GmbH}}, title = {{{High volume semi automatized on-site production of sustainable refugee shelters}}}, volume = {{26}}, year = {{2026}}, } @misc{13703, abstract = {{Mostly in the furniture industry the quality approach is anecdotical. A sys-tematic convergence of specifications for claims of functions and design is missing. A system has now been drafted or agreed in accordance with the aforementioned German standards, which follows the Geometrical Product Specification (GPS, ISO 8015) system and offers new possibilities for coding on technical drawings, as well as in the downstream chain of standards for measuring, testing and process capability analysis. DIN 919-2 as a new drafted German standard for technical drawing in wood industry is opening up the whole tool set of GPS coding elements. DIN 68100 is adding a geomet-rical tolerance system including swelling or shrinkage. DIN68100-2 will pro-pose statistical tolerancing to convolute variances in geometry caused e.g. by production with distributions in moisture con- tent or shrinkage coefficients. VDI 3414 is offering specifications and corresponding verifications for at-tributive quality characteristics of wooden surfaces including a naming and coding system. Finally VDI 3415-2 is referring to measuring and production capability analysis esp. for the wood industry and related research. As far as possible the German standardization activities will be presented in the paper. The selected use case will be the edge banding and profile wrapping where the new guideline VDI 3412 will assist the practitioners and scientists concern-ing specification, verification but as well in trouble shooting.}}, author = {{Riegel, Adrian and Kortüm, Christian and Scholz, Frieder and Binninger, Karsten}}, booktitle = {{Advances in Wood Machining : Selected Chapters from the 26th International Wood Machining Seminar (IWMS26) }}, editor = {{Goli, Giacomo and Sandak, Jakub and Schajer, Gary and Zanetti, Michaela and Bounamici, Fransesco}}, isbn = {{ ‎ 978-3032173089}}, keywords = {{technical drawing, geometrical product specification and verifica-tion GPS, process capability, standards and guidelines, edge banding}}, location = {{Florenz}}, pages = {{100--103}}, publisher = {{Springer Verlag GmbH}}, title = {{{Systematic and comprehesive quality specification and verfication for furniture industry - DIN 919, DIN 68100, VDI 3414, VDI 3415}}}, volume = {{26}}, year = {{2026}}, } @misc{11374, author = {{Lambertz, Henning and Riegel, Adrian and Waldmann, Franka}}, booktitle = {{Tagungsband des 21. Holztechnischen Kolloquiums Dresden 18.-19. April 2024}}, editor = {{Wagenführ, André}}, isbn = {{978-3-86780-774-6}}, keywords = {{Notunterkunft, Nachhaltigkeit, serielles Bauen}}, location = {{Dresden}}, pages = {{100--108}}, publisher = {{Selbstverlag TU Dresden}}, title = {{{Nachhaltige Schutzhütten für Flüchtlinge - Automatisierte Produktion vor Ort}}}, volume = {{42}}, year = {{2024}}, } @misc{11375, author = {{Riegel, Adrian and Röllecke, Melwin}}, booktitle = {{Tagungsband des 21. Holztechnischen Kolloquiums Dresden 18.-19. April 2024}}, editor = {{Wagenführ, André}}, isbn = {{978-3-86780-774-6}}, keywords = {{Lastenrad, Sperrholz, Auslegung, Do-It-Yourself-Projekt}}, location = {{Dresden}}, pages = {{127--135}}, publisher = {{Selbstverlag TU Dresden}}, title = {{{Lastenräder aus Holz - eine ingenieurwissenschaftliche Annäherung}}}, volume = {{42}}, year = {{2024}}, } @article{3783, author = {{Riegel, Adrian and Kortüm, Christian and Hinrichsen, Sven}}, issn = {{0018-3822}}, journal = {{HOB, Holzbearbeitung}}, number = {{4}}, pages = {{29 -- 33}}, title = {{{Industrie 4.0 - Potenziale in der Holz- und Möbelindustrie (Teil 1)}}}, volume = {{61}}, year = {{2014}}, } @article{3784, author = {{Riegel, Adrian and Kortüm, Christian and Hartweg, Elmar}}, issn = {{0018-3822}}, journal = {{HOB, Holzbearbeitung}}, number = {{5}}, pages = {{77 -- 80}}, title = {{{Industrie 4.0 - Integration in verkettete Prozessketten der Holz- und Möbelindustrie (Teil 2)}}}, volume = {{61}}, year = {{2014}}, } @inproceedings{3786, author = {{Riegel, Adrian and Dekomien, Kerstin and Huxol, Andrea}}, booktitle = {{Tagungsband des 16. Holztechnologischen Kolloquiums}}, isbn = {{978-3-86780-385-4}}, pages = {{76 -- 89}}, publisher = {{TU Dresden, Institut für Holz- und Papiertechnik}}, title = {{{Beitrag zur sensorischen Gütebestimmung von rohen und beschichteten Holz- und Holzwerkstoffoberflächen}}}, year = {{2014}}, } @article{3790, author = {{Riegel, Adrian and Krause, Benjamin and Solbrig, Konrad}}, journal = {{Holz-Zentralblatt}}, number = {{24}}, pages = {{585 -- 586}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Berechnung von Korpuseckverbindungen : Vereinfachte Festigkeitsauslegung für verdübelte Verbindungen möglich}}}, volume = {{140}}, year = {{2014}}, } @inproceedings{3792, author = {{Dekomien, Kerstin and Huxol, Andrea and Schulz, Sebastian and Riegel, Adrian}}, booktitle = {{Production Engineering and Management. Proceedings 4th International Conference. 25.- 26.09.2014 in Lemgo}}, editor = {{Padoano, Elio and Villmer, Franz-Josef}}, isbn = {{978-3-941645-10-3}}, location = {{Lemgo}}, number = {{10}}, pages = {{155 -- 166}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{LEARNING FROM GEOGRAPHY - TOPOGRAPHY AS A BASIS FOR QUALITY ASSESSMENT OF HIGH GLOSS SURFACES}}}, volume = {{10}}, year = {{2014}}, } @inproceedings{3794, author = {{Kortüm, Christian and Riegel, Adrian}}, booktitle = {{Production Engineering and Management. Proceedings 4th International Conference. 25.- 26.09.2014 in Lemgo}}, editor = {{Padoano, Elio and Villmer, Franz-Josef}}, isbn = {{978-3-941645-10-3}}, location = {{Lemgo}}, number = {{12}}, pages = {{7 -- 18}}, title = {{{INDUSTRY 4.0 - CHALLENGES FOR INTERLINKED PROCESS GMAINS}}}, volume = {{10}}, year = {{2014}}, } @article{3796, author = {{Huxol, Andrea and Dekomien, Kerstin and Schulz, Sebastian and Riegel, Adrian}}, issn = {{0930-3847}}, journal = {{European Coatings Journal}}, number = {{11}}, pages = {{18 -- 22}}, title = {{{Beyond the human eye. Developing topographical measurements to assess high gloss surfaces for furniture.}}}, year = {{2014}}, } @article{3798, author = {{Riegel, Adrian and Huxol, Andrea and Dekomien, Kerstin and Schulz, Sebastian}}, issn = {{0014-7699}}, journal = {{Farbe und Lack}}, number = {{8}}, pages = {{44 -- 51}}, publisher = {{Vincentz}}, title = {{{Subjektiv wahrnehmen - objektiv messen. Hochglanzbeschichtungen - Qualitätsprüfung der Anmutungsleistung von Hochglanzoberflächen}}}, volume = {{120}}, year = {{2014}}, } @inproceedings{3806, abstract = {{The networking of production processes by means of information technologies (IT) has become a major field of development within industry and research. The main target is to interlink autonomous production systems to an intelligent production line, where products itself organise and control their manufacturing. This new attempt in production is -actual in Germany described under the definition "Industry 4.0", the fourth industrial revolution. Basically, the essential hardware and software to meet this objectives has been developed in other branches and is able to upgrade machines and handling systems to cyber-physical systems. The crucial issue to design an autonomous, intelligent production line is to generate the exact process data for each production step, to verify this data and to transfer it into the individual machine control. The characteristics of this main problem increases with the degree of interactions between the processes in the production line. In the woodworking industry, the process chain of profiling has a high degree of interactions. The individual production steps are strictly based on another and the result of a process effects the subsequent one respectively. To network these processes and add IT, an integrated IT system with individual CAD/CAM system for each process type is needed. The estimation of the interactions is done by the simulation of the whole process chain in a virtual reality before the real production. This enables to verify the process data, and to benefit from simultaneous engineering. Besides the essential algorithms to calculate the process data for the different process types and estimate the geometry corruptions due to systematic errors and manufacturing tolerances, the consideration of the material behaviour during the production is the determining factor to get valid data for the process chain. The shrinking and swelling of wood and woodbased materials due to a change of moisture content causes a geometry corruption and requires algorithms to simulate this behaviour in the virtual real ity. The result of these algorithms for the processes and the material behaviour are the exact process data for a specific profile. The database for the calculations and the data storage is a developed product data model. This product data model forms the gateway for the simulation in the virtual reality to the machine controls.}}, author = {{Böhm, Fabian and Burlon, Fabio and Kortüm, Christian and Riegel, Adrian}}, booktitle = {{Production engineering and management proceedings 3rd international conference 26th and 27th September 2013 Trieste, Italy}}, editor = {{Padoano, Elio and Villmer, Franz-Josef}}, isbn = {{978-3-941645-09-7}}, location = {{Trieste, Italy}}, number = {{1}}, pages = {{39 -- 53}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{PROCESS CHAIN SIMULATION : VIRTUAL REALITY TO MACHINE-VR2M}}}, volume = {{9}}, year = {{2014}}, } @inproceedings{3808, abstract = {{Time and resources are already an important issue in wooden industry and handicraft tl1at will become more and more important the next years. Components for furniture production, particularly in the industrial sector, are usually manufactured in automated process chains. State- of-the-art for drilling is the usage of systems with bevels, belt drives, angle gears and rigid drilling units. Due to the operating direction and slow working cycles, drilling processes are the bottleneck of production. These rigid drilling gears are currently very intensive in maintenance and inflexible because their spindles are usually mechanically coupled , which leads to unnecessary and excessive energy consumption. Another problem with systems currently in use is the huge amount of setup costs. They are required to adjust drilling units on different components. This leads to an impairment of productivity of the entire manufacturing process. At this point the question arises how quality and efficiency of the drilling process can be increased. lt is obvious that the drilling process must be made more intelligent and more flexible. An approach for an optimized drilling process is the use of self-optimizing spindles in future. Therefore a detailed analysis of drilling processes and the development of an eligible feed control are required. According to these requirements a laboratory machine was developed and furthermore the theoretical and practical state-of-the-art of drilling processes were analyzed. To develop a self-optimization for drilling spindles a research project is currently being realized in cooperation between the Laboratory for Woodworking Technologies and Machinery (HS-OWL, Germany)), the Laboratory for Power Electronics and Electrical Drives (HS-OWL, Germany) and the Wittenstein motion control GmbH (Bad Pyrrnont, Germany).}}, author = {{Bursch, Dennis and Riegel, Adrian and Borcherding, Holger and Akemeier, Volker}}, booktitle = {{Production engineering and management proceedings 3rd international conference 26th and 27th September 2013 Trieste, Italy}}, editor = {{Padoano, Elio and Villmer, Franz-Josef}}, isbn = {{978-3-941645-09-7}}, location = {{Trieste, Italy}}, number = {{3}}, pages = {{91 -- 102}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{INTELLIGENT DRILLING- DIRECT-DRIVEN, SELFOPTIMIZING HIGH-SPEED DRILLING SPINDLES FOR FURNITURE INDUSTRY}}}, volume = {{9}}, year = {{2014}}, } @inproceedings{3810, abstract = {{The quality sensation regarding to high gloss surfaces is mainly influenced by the optical impression. For the evaluation of this multifactorial property currently no standard methodical procedure is defined. Present some measurement as well as sensory evaluations are used for the quality assessment of high gloss surfaces. Regarding to Six Sigma, for proper customer satisfaction the voice of the customer needs to be transferred into specific product criteria which are measurable. Associated to the research project "Development of a global quality concept for furniture high gloss surfaces" at the University of Applied Science Ostwestfalen-Lippe possible customers were asked to rank some high gloss samples according to their quality perception. In addition these high gloss surfaces were gauged by common measurements. Building up the basis for a comprehensive quality scale by the analysis of correlations between the measured values and the quality impression of the customers is the subject matter. The waviness of a high gloss surface seems to be an appropriate indicator for perceive quality. For end users brilliance an even surface and the absence of errors are attributes of an upmarket high gloss surface. Whatever the suface is not the tangible criterion for the purchase decision of furniture in general, design, production quality and price, which are directly affected by surface properties, are more clinches.}}, author = {{Herzberg, Katharina and Dekomien, Kerstin and Huxol, Andrea and Riegel, Adrian}}, booktitle = {{Production engineering and management proceedings 3rd international conference 26th and 27th September 2013 Trieste, Italy}}, editor = {{Padoano, Elio and Villmer, Franz-Josef}}, isbn = {{978-3-941645-09-7}}, location = {{Trieste, Italy}}, number = {{7}}, pages = {{207 -- 218}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{HIGH GLOSS SURFACES: VALID QUALITY EVALUATION}}}, volume = {{9}}, year = {{2014}}, } @inproceedings{3812, author = {{Krause, Benjamin and Riegel, Adrian and Solbrig, Konrad}}, booktitle = {{Production engineering and management proceedings 3rd international conference 26th and 27th September 2013 Trieste, Italy}}, editor = {{Padoano, Elio and Villmer, Franz-Josef}}, isbn = {{978-3-941645-09-7}}, location = {{Trieste, Italy}}, number = {{8}}, pages = {{219 -- 230}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{A STRENGTH DESIGN APPROACH FOR CARCASS FURNITURE}}}, volume = {{9}}, year = {{2014}}, } @article{3801, author = {{Riegel, Adrian and Dekomien, Kerstin}}, issn = {{0930-3847}}, journal = {{European Coatings Journal}}, number = {{4}}, pages = {{122 -- 125}}, publisher = {{Vincentz}}, title = {{{Quantifying surface quality : Improving quality assessment of appearance of furniture surfaces}}}, year = {{2013}}, } @article{3803, author = {{Riegel, Adrian}}, issn = {{0018-3881}}, journal = {{Holztechnologie}}, number = {{1}}, pages = {{52 -- 54}}, publisher = {{Institut für Holztechnologie}}, title = {{{A contribution to explain the tracheid effect}}}, volume = {{54}}, year = {{2013}}, } @inproceedings{3816, abstract = {{Connected process chains are standard for the production of many different products -also in woodworking industry. The process chain of profiling for the production of profiled strips, beams etc. includes several different processes as moulding, sanding and coating. The information technologies (IT) for this process chain are not well developed and established. To integrate IT and CAD-CAM-systems into the process chain of profiling firstly a product data model is needed, which is able to-store all relevant data for the production of the profile and to link the processes with consistent data. To link the processes it is important that a subsequent process in the chain is able to obtain all data about the process results of the previous processes to adapt to the profile geometry in this production stage. Therefore the CAM-modules, which also need to be developed individually for .each process type, must consi?er the corruption of the pr~file geometry and estimate the process result w1th the output geometry as 1nput data for the next process step. Due to the material behaviour of wood and wood based materials concerning the shrinking and swelling it is also necessary to calculate the geometry corruptions in case of a change in moisture content of the profile. The product data model together with CAM-modules and a tool to calculate the material behaviour generate all potentials of a modern IT system like the generating of all processing data, process simulations and simultaneous engineering.}}, author = {{Kortüm, Christian and Riegel, Adrian}}, booktitle = {{Production engineering and management for furniture industry : proceedings 2nd international conference 27th and 28th September 2012 Lemgo, Germany}}, editor = {{Riegel, Adrian and Nicolich, Marino}}, isbn = {{978-3-941645-08-0}}, location = {{Lemgo}}, number = {{1}}, pages = {{67 -- 79}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{IT IN PROFILING - LINKED FEATURES FOR EVERY PROCESS STEP}}}, volume = {{8}}, year = {{2013}}, } @inproceedings{3818, abstract = {{The qualities of surfaces are mainly defined by various performance measurements of resistance and the exclusion of surface defects. Especially the appearance of high gloss surfaces are mainly consulted for the purchase decision of customers, but these attributes are usually evaluated by the number of surface defects, the distinctness of image and gloss unites over 80. Characteristics of the esthetical quality are rarely defined. For the quality management of furniture producers this is an unsatisfying situation, because there are minor possibilities to intervene early in the process and the surface quality in the multi-stage production process cannot be controlled. This obscure process system is the reason for a less continuous surface quality, rising process and reclamation costs, particularly with regard to prepared wood or wood-based substrates. The development of a complete quality concept of high gloss surfaces is the subject matter in the current research project at the University of Applied Sciences Ostwestfalen-Lippe. The precise research approaches are based on an exact definition of each characteristics and their physical behaviour to disturb the appearance quality. To describe and evaluate the whole surface quality existing measurement methods and sensory quality assessments are combined. The consolidation of common measurement methods and sensory quality assessments will lead to one quality scale.}}, author = {{Dekomien, Kerstin and Riegel, Adrian}}, booktitle = {{Production engineering and management for furniture industry : proceedings 2nd international conference 27th and 28th September 2012 Lemgo, Germany}}, editor = {{Riegel, Adrian and Nicolich, Marino}}, isbn = {{978-3-941645-08-0}}, location = {{Lemgo}}, number = {{2}}, pages = {{117 -- 128}}, publisher = {{Hochschule Ostwestfalen-Lippe, Fachbereich Produktion und Wirtschaft}}, title = {{{HIGH GLOSS - HJGHL Y SOPHISTICATED BUT NO MEASURING METHOD TO TEST IT COMPLETELY?}}}, volume = {{8}}, year = {{2013}}, } @inproceedings{3824, abstract = {{The process chain for the production of profiled strips, beams and panels includes a number of processes as mould design, fixing the number of cutting passes, tool grinding, tool measurement, moulding, sanding, profile-wrapping, coating and different types of quality assessment. This chain is still not consistently connected by means of information technologies. The design and the setup for each process in the chain are mostly done manually, using the experience of the operator. Computer aided systems (CAD/CAM) as widely used in the furniture industry are not in this field. The procedures are more complex and could not be automatized by the state of the art feature based algorithms. One attempt to solve the problem is the creation of a product data model that contains all information for the whole production process - not only geometrical data and tolerances but also semantic information (e.g. material, coating, batch size, etc.). Every process in the chain is now transforming the profile in a systematic and stochastic way. Both can be computed by the use of rules of artificial intelligence and tolerance calculations by means of statistical methods. Special CAM modules, which generate the specific process data, give also back the transformed profile and other necessary information to the superordinate product data model. The actual specific process data, for example for the process of profiling (e.g. setting parameters, pitch) can then be computed by a post processer using actual inputs as the geometry of the specified machine. The whole process chain can so be simulated before the real setup. The tools and processes can so be designed simultaneously in advance. The time for the production process can be reduced. This systematic is generating the same potentials as feature based CAD/CAM systems in the carcase furniture industry. The implementation of IT in the profiling process chain is accelerated and coordinated by the introduction of the linking product model.}}, author = {{Riegel, Adrian and Kortüm, Christian}}, booktitle = {{Proceedings of the 20th International Wood Machining Seminar}}, isbn = {{978-91-7439-264-7}}, pages = {{520 -- 527}}, publisher = {{Luleå Univ. of Technology}}, title = {{{A product data model and computer aided manufacturing for the process chain of profiling}}}, year = {{2013}}, } @article{3814, author = {{Riegel, Adrian and Kortüm, Christian and Bursch, Dennis}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{17}}, pages = {{449 -- 450}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Ähnlichkeitssuche in der Profilleistenherstellung : Hochschule OWL: Optimierung der Arbeitsabläufe und der Datenverwaltung mittels ähnlichkeitssuche möglich.}}}, volume = {{138}}, year = {{2012}}, } @inproceedings{3820, author = {{Riegel, Adrian and Baade, Jan Christian and Dekomien, Kerstin}}, booktitle = {{DFO-Tag der Holzbeschichtung : 17. Februar 2011, Bad Salzuflen}}, isbn = {{978-3-89943-081-3}}, location = {{Bad Salzuflen}}, pages = {{25 -- 29}}, publisher = {{DFO Service}}, title = {{{Gut geschliffen ist halb lackiert - Aber was ist gut?}}}, year = {{2011}}, } @article{3822, author = {{Riegel, Adrian and Kortüm, Christian and Dekomien, Kerstin}}, issn = {{0018-3881}}, journal = {{Holztechnologie}}, number = {{2}}, pages = {{38 -- 43}}, publisher = {{Institut für Holztechnologie}}, title = {{{Qualitätskriterien und Bewertungsmethoden für Hochglanzoberflächen}}}, year = {{2011}}, } @article{3828, author = {{Riegel, Adrian and Schneider, Benedikt}}, issn = {{0018-3881}}, journal = {{Holztechnologie}}, number = {{1}}, pages = {{27 -- 33}}, publisher = {{Institut für Holztechnologie}}, title = {{{Verfahrensintegration Kehlen - Schleifen. Prozessauslegung über ein Prozessmodell}}}, volume = {{51}}, year = {{2010}}, } @article{3830, author = {{Riegel, Adrian and Solbrig, Konrad}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{21}}, pages = {{527 -- 528}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Mit Maßtoleranzen systematisch umgehen : Teil 1: Warum Toleranzen nur bedingt akzeptiert und eingeführt sind - was kann die DIN 68101 in der Praxis leisten?}}}, volume = {{136}}, year = {{2010}}, } @article{3832, author = {{Riegel, Adrian}}, isbn = {{0018-3881}}, journal = {{Holztechnologie}}, number = {{4}}, pages = {{52}}, publisher = {{Institut für Holztechnologie}}, title = {{{Beurteilung von Holz- und Holzwerkstoffoberflächen. Richtlinien für die Güteüberwachung}}}, volume = {{51}}, year = {{2010}}, } @article{3836, author = {{Riegel, Adrian and Solbrig, Konrad}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{22}}, pages = {{546}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Mit Maßtoleranzen systematisch umgehen : Teil 2: Toleranzrechnungsmethode aus der Automobilindustrie ist auch in der Holzindustrie einsetzbar.}}}, volume = {{136}}, year = {{2010}}, } @article{3826, author = {{Riegel, Adrian and Hoffmeister, Hans-Werner and Horstmann, Sebastian and Strauss, Henning}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{1/2}}, pages = {{67 -- 69}}, publisher = {{A.G.T.-Verlag}}, title = {{{CAM Ummanteln. Automatisiertes Off-Line-Rüsten (Teil 2)}}}, volume = {{57}}, year = {{2009}}, } @article{3838, author = {{Riegel, Adrian and Hoffmeister, Hans-Werner and Horstmann, Sebastian and Strauss, Henning}}, issn = {{0018-3768}}, journal = {{Die Holzbearbeitung}}, number = {{12}}, pages = {{72 -- 75}}, publisher = {{A.G.T.-Verlag}}, title = {{{CAM Ummanteln (Teil 1)}}}, volume = {{56}}, year = {{2009}}, } @article{3840, author = {{Riegel, Adrian and Kortüm, Christian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung}}, number = {{7/8}}, pages = {{49 -- 51}}, publisher = {{A.G.T.-Verlag}}, title = {{{Ein Gefühl für Oberflächen. Sensorische Prüfverfahren zur Gütebestimmung von Holzoberflächen (Teil 1)}}}, volume = {{56}}, year = {{2009}}, } @article{3843, author = {{Riegel, Adrian and Kortüm, Christian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung}}, number = {{9}}, pages = {{73 -- 75}}, publisher = {{A.G.T.-Verlag}}, title = {{{Ein Gefühl für Oberflächen. Sensorische Prüfverfahren zur Gütebestimmung von Holzoberflächen (Teil 2)}}}, volume = {{56}}, year = {{2009}}, } @article{3845, author = {{Riegel, Adrian and Diedrich, Stefan}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{29}}, pages = {{769 -- 770}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Kantenschartigkeitsmessung mit Laservorhang : Noch ist die ideale Lösung für die Qualitätsüberwachung des Fräsens von KF-Spanplatte nicht gefunden}}}, volume = {{135}}, year = {{2009}}, } @article{3847, author = {{Riegel, Adrian and Horstmann, Sebastian}}, issn = {{2192-8681}}, journal = {{Adhäsion - Kleben & Dichten}}, number = {{3}}, pages = {{28--32, 34--40}}, publisher = {{Springer}}, title = {{{Ummantelungsverfahren besser verstehen : Prozesssicherheit beim Fügen}}}, volume = {{52}}, year = {{2008}}, } @article{3849, author = {{Riegel, Adrian and Horstmann, Sebastian}}, issn = {{0018-3881 }}, journal = {{Holztechnologie}}, number = {{3}}, pages = {{26 -- 30}}, publisher = {{Institut für Holztechnologie}}, title = {{{Temperaturverlauf des Schmelzklebstoffes beim Ummanteln : Gegenüberstellung von näherungsweisen Berechnungen mit Online Messungen}}}, volume = {{49}}, year = {{2008}}, } @inproceedings{3851, abstract = {{Ummanteln ist eine Fertigungstechnologie, deren Bedeutung noch immer w~chst. Mit ihr werden Holzwerkstoffprofile und Kaschierungen mit Schmelzklebstoffen gefügt Zu deutlich geringeren Kosten werden Profjlelemente erzeugt, die heute ihren Vorbildern aus Massivholz oder Metallen in Optik und Haptik gleichkommen oder einen eigenständigen Charme aufweisen. Allerdings müssen beim Ummantelungsprozess eine Vielzahl an Andruckrollen und ggf. Heißluftdüsen entlang des durchlaufenden Profils angeordnet werden, um die meist nur eingeschränkt formbare, mit heißem Schmelzkleber beschichtete Kaschierung mit dem Profilkern zu fügen. Da die Maschinen im Stillstand manuell gerüstet werden, reduziert die dafür benötigte Rüstzeit deutlich die Produktivität der Ummantelungsanlagen. Daher muss das Rüsten off-line, parallel zu den Fertigungsaufträgen. an einem separaten ROststand erfolgen und sich somit die Belegungszeit der Anlage auf das Einwechseln der Rollensätze beschränken. Basierend auf einer umfangreichen Prozessbetrachtung wurde ein Prozessmodell entwickelt, welches mittels Geometriedaten, Rüstregeln sowie Informationen über Material, Werkzeug und Ummantelungsmaschine ein virtuelles Bild der Rollenpositionierung erzeugt Die daraus gewonnenen Positionen und Anstellwinkel der einzelnen Rollen werden dann Ober einen Postprozessor an einen roboterunterstutzten Rüstplatz weitergegeben, welcher die benötigten Rollenhalter automatisiert rüstet.}}, author = {{Riegel, Adrian and Hoffmeister, Hans-Werner and Horstmann, Sebastian and Strauß, Henning}}, booktitle = {{ 2. Internationale Konferenz zur Automation in der Holzwirtschaft : 18. und 19. September 2008}}, isbn = {{ 9783952319857}}, location = {{Biel, Schweiz}}, pages = {{137 -- 145}}, publisher = {{Berner Fachhochschule, Architektur, Holz und Bau}}, title = {{{Automatisiertes Off-Line-Rüsten von Ummantelungsanlagen}}}, year = {{2008}}, } @inbook{3853, abstract = {{Beim Schleifen von Holz und Holzwerkstoffen mit konstantem Druck (Holz-und lackzwischenschliff) ergibt sich das Spanungsvolumen aus der Kombination der Eingangsgrößen und kann nicht direkt eingestellt werden. Das Prozessergebnis selbst (Oberflächengüte) kann nur extrem aufwendig und kaum vollständig durch skalierte Messgrößen und auch nur unzureichend durch online arbeitende Sensortechnik erfasst werden. Prozessmcdelle. mit denen die Zusammenhänge beim Schleifen prinzipiell erklärt werden können. wurden in der Vergangenheit entwickelt und könnten für eine Prozessoptimierung bzw. -regelung herangezogen werden. Eine direkte Regelung der Qualitätsmerkmale scheite.rt aber derzeit an der nicht verfügbaren Sensortechnik. Durch methodische sensorische Prüfverfahren. bei denen aus visuellen und haptischen Eindrücken mehrer Prüfer durch statistische Tests eine objektive Aussage erzeugt wird. können aussagekräftige Kenngrößen für die eigentriche ZieJgröße erzielt werden. Diese sind nur offline verfügbar. können aber mit indirekten, online verfügbaren Prozesskenngrößen korreliert werden. Ein Reglerentwurf ist daher auf Basis quantitativer Zusammenhänge möglich. Das schwankende Verschleissverhalten der Schleifbänder zwingt aber vermutlich zu adaptiven Regelungen auf Basis unscharfer Logik. Eine autonom agierende ••intelligente" Schleifmaschine scheint möglich.}}, author = {{Riegel, Adrian and Hellmann, Torben and Kortüm, Christian}}, booktitle = {{2. Internationale Konferenz zur Automation in der Holzwirtschaft : 18. und 19. September 2008}}, isbn = {{ 9783952319857}}, pages = {{83 -- 92}}, publisher = {{Berner Fachhochschule, Architektur, Holz und Bau}}, title = {{{Reproduzierbare Gütebestimmung von Holzoberflächen als Basis für eine Prozessregelung beim Schleifen}}}, year = {{2008}}, } @article{3855, author = {{Riegel, Adrian and Küster, Klaus}}, issn = {{0018-3881}}, journal = {{Holztechnologie}}, number = {{5}}, pages = {{23 -- 26}}, publisher = {{Institut für Holztechnologie}}, title = {{{Fotografische Dokumentation von bearbeiteten Holzoberflächen}}}, volume = {{49}}, year = {{2008}}, } @article{3857, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung}}, number = {{9}}, pages = {{71 -- 73}}, publisher = {{A.G.T.-Verlag}}, title = {{{Flexibel und sicher. Optimierung des Kantenanleimens auf Bearbeitungszentren}}}, volume = {{55}}, year = {{2008}}, } @article{3859, author = {{Riegel, Adrian}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{2}}, pages = {{45}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Maschinenkonzepte deutlich optimieren : Was ist nach über einer Dekade Total Productive Maintenance in der Branche angekommen}}}, volume = {{134}}, year = {{2008}}, } @article{3861, author = {{Riegel, Adrian and Horstmann, Sebastian and Stüttgen, Benjamin and Wittenstein, Kirsten}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung}}, number = {{10}}, pages = {{86 -- 88}}, publisher = {{A.G.T.-Verlag}}, title = {{{Wohl temperiert. Temperaturmessungen bei Schmelzklebstoff- und mittels thermisch aktivierbaren Klebstoffapplikationen (Teil 2)}}}, volume = {{54}}, year = {{2007}}, } @article{3863, author = {{Riegel, Adrian and Horstmann, Sebastian}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{42}}, pages = {{1184}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Funktionierende- Lieferketten werden immer wichtiger : Studenten aus aller Welt erlernen die 'Supply chain in furniture industry' an der Fachhochschule Lippe und Höxter}}}, volume = {{133}}, year = {{2007}}, } @article{3865, author = {{Riegel, Adrian and Hoffmeister, Hans-Werner}}, journal = {{DGfH aktuell}}, number = {{100}}, pages = {{2 -- 3}}, publisher = {{DGfH}}, title = {{{Rüstzeit- und Prozessoptimierung beim Ummanteln}}}, year = {{2007}}, } @article{3867, author = {{Riegel, Adrian and Hellmann, Torben}}, issn = {{0341-3659}}, journal = {{BM :Fachmagazin für Innenausbau, Möbel, Bauelemente}}, number = {{5}}, pages = {{120 -- 124}}, publisher = {{Vereinigte Fachverl.}}, title = {{{Gütebestimmung geschliffener Holzoberflächen : Gut geschliffen ist halb lackiert}}}, volume = {{62}}, year = {{2007}}, } @article{3869, author = {{Riegel, Adrian}}, journal = {{TRAFO-Forschungsreport}}, pages = {{156 -- 157}}, publisher = {{AIF Otto von Guericke}}, title = {{{Optimierung des Kantenanleimens auf Bearbeitungszentren}}}, year = {{2006}}, } @article{3871, author = {{Riegel, Adrian}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff}}, number = {{5}}, pages = {{431 -- 432}}, publisher = {{Springer}}, title = {{{Temperaturverlauf bei der Schmalflächenbeschichtung}}}, volume = {{64}}, year = {{2006}}, } @article{3874, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung}}, number = {{10}}, pages = {{70 -- 72}}, publisher = {{A.G.T.-Verlag}}, title = {{{Der Materialtyp entscheidet. Eigenschaften von bearbeiteten Oberflächen mitteldichter Faserplatten im Hinblick auf eine 3D-Folienkaschierung (Teil 1)}}}, volume = {{52}}, year = {{2006}}, } @article{3876, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung}}, number = {{11}}, pages = {{54 -- 57}}, publisher = {{A.G.T.-Verlag}}, title = {{{Der Materialtyp entscheidet. Eigenschaften von bearbeiteten Oberflächen mitteldichter Faserplatten im Hinblick auf eine 3D-Folienkaschierung (Teil 2)}}}, volume = {{52}}, year = {{2006}}, } @article{3878, author = {{Riegel, Adrian and Simon, Christian and Wittenstein, Kirsten}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{24}}, pages = {{721 -- 722}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Braucht die Holzindustrie eine Prozessqualifikation? : Eine Annäherung an das Thema am Beispiel des Kantenanleimens auf Bearbeitungszentren}}}, volume = {{132}}, year = {{2006}}, } @article{3880, author = {{Riegel, Adrian}}, issn = {{0018-3881}}, journal = {{Holztechnologie}}, number = {{5}}, pages = {{45 -- 48}}, publisher = {{Institut für Holztechnologie}}, title = {{{Beanspruchung von 3D-kaschierten MDF-Fronten}}}, volume = {{47}}, year = {{2006}}, } @article{3884, author = {{Riegel, Adrian and Nußbaum, Daniel}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, number = {{48}}, pages = {{645}}, publisher = {{Holz-Zentralblatt-Verl.}}, title = {{{Holztechnik im Zentrum Europas : Deutsch-polnische Begegnung an der Fachhochschule Lippe und Höxter}}}, volume = {{131}}, year = {{2005}}, } @inproceedings{3886, author = {{Riegel, Adrian and Kohlhase, Matthias and König, M. and Schreiber, Lisa}}, booktitle = {{Maschinengestelle aus Mineralguss}}, location = {{Göppingen}}, pages = {{87 -- 94}}, title = {{{Erfahrungen mit Mineralguss als Gestellwerkstoff in Drehmaschinen}}}, year = {{2001}}, } @article{3889, author = {{Riegel, Adrian and Kohlhase, Matthias and Schreiber, Leo}}, issn = {{0043-2792}}, journal = {{Werkstatt + Betrieb: WB ; Zeitschrift für spanende Fertigung }}, number = {{6}}, pages = {{39 -- 44}}, publisher = {{Hanser}}, title = {{{Was bringt Mineralguss als Drehmaschinenbett?}}}, year = {{2001}}, } @misc{3891, author = {{Riegel, Adrian}}, title = {{{Tangentialdrehen - drallfreies Drehen}}}, year = {{2000}}, } @misc{3892, author = {{Riegel, Adrian}}, title = {{{Schleifverfahren und Vorrichtung zur Durchführung}}}, year = {{2000}}, } @misc{3893, author = {{Riegel, Adrian}}, title = {{{Schleifvorrichtung}}}, year = {{2000}}, } @misc{3894, author = {{Riegel, Adrian}}, title = {{{Gedämpftes Werkzeug}}}, year = {{1999}}, } @article{3895, author = {{Riegel, Adrian and Hoffmeister, H.-W.}}, issn = {{0018-3792}}, journal = {{Holzbau-Magazin: Architektur & Holz }}, number = {{2}}, pages = {{80 -- 83}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Oberflächenfinish mit rotierenden Schleifmittelstreifen. Teil 1}}}, volume = {{33}}, year = {{1998}}, } @article{3897, author = {{Riegel, Adrian and Hoffmeister, H.-W.}}, issn = {{0018-3792}}, journal = {{Holzbau-Magazin: Architektur & Holz }}, number = {{3}}, pages = {{80 -- 83}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Oberflächenfinish mit rotierenden Schleifmittelstreifen. Teil 2}}}, volume = {{33}}, year = {{1998}}, } @article{3899, author = {{Riegel, Adrian and Hoffmeister, Hans-Werner}}, issn = {{0935-0144}}, journal = {{HK}}, number = {{2}}, pages = {{80 -- 83}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Oberflächenfinish mit rotierenden Schleifmittelstreifen (1)}}}, volume = {{33}}, year = {{1998}}, } @article{3901, author = {{Riegel, Adrian and Hoffmeister, Hans-Werner}}, issn = {{0935-0144}}, journal = {{HK}}, number = {{3}}, pages = {{46 -- 48}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Oberflächenfinish mit rotierenden Schleifmittelstreifen (2)}}}, volume = {{33}}, year = {{1998}}, } @article{3903, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{5}}, pages = {{44 -- 51}}, publisher = {{A.G.T.-Verlag}}, title = {{{Neue Maschinenkonzepte für die Stationärbearbeitung}}}, volume = {{44}}, year = {{1997}}, } @article{3905, author = {{Riegel, Adrian}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff: European journal of wood and wood products }}, pages = {{111 -- 117}}, publisher = {{Springer}}, title = {{{Gefügeschädigungen durch spanende Bearbeitung - Stand der Erkenntnisse und mögliche Messmethoden}}}, volume = {{55}}, year = {{1997}}, } @article{3907, author = {{Riegel, Adrian and Westkämper, E. and Kisselbach, Andreas}}, issn = {{0018-3792}}, journal = {{Holzbau-Magazin: Architektur & Holz }}, number = {{9}}, pages = {{43 -- 45}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Gefügeschädigungen als Standzeitkriterium? Teil 2}}}, volume = {{32}}, year = {{1997}}, } @article{3909, author = {{Riegel, Adrian and Westkämper, E. and Kisselbach, Andreas}}, issn = {{0018-3792}}, journal = {{Holzbau-Magazin: Architektur & Holz }}, number = {{10}}, pages = {{47 -- 49}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Gefügeschädigungen als Standzeitkriterium? Teil 1}}}, volume = {{32}}, year = {{1997}}, } @phdthesis{3911, author = {{Riegel, Adrian}}, pages = {{152}}, publisher = {{Technische Universität Dresden}}, title = {{{Holz- und Lackzwischenschliff : Beitrag zur Prozeßmodellierung}}}, year = {{1997}}, } @article{3912, author = {{Riegel, Adrian and Westkämper, E. and Kisselbach, Andreas and Schadoffsky, Olaf}}, issn = {{0935-0144}}, journal = {{HK}}, number = {{11}}, pages = {{80 -- 82}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Gefügeschädigungen als Standzeitkriterium. Beschichten nach dem Fräsen und Schleifen (Teil 3)}}}, volume = {{32}}, year = {{1997}}, } @article{3914, author = {{Riegel, Adrian and Westkämper, E.}}, journal = {{DGfH aktuell}}, pages = {{7}}, publisher = {{DGfH}}, title = {{{Schleifen von Konturen in plattenförmigen Bauteilen aus Holz und Holzwerkstoffen (F-94/15)}}}, volume = {{68}}, year = {{1997}}, } @article{3916, author = {{Riegel, Adrian and Hoffmeister, H.-W.}}, issn = {{0018-3822 }}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{3}}, pages = {{108 -- 117}}, publisher = {{A.G.T.-Verlag}}, title = {{{Schleifprozesse, -werkzeuge und -maschinen}}}, volume = {{43}}, year = {{1996}}, } @article{3918, author = {{Riegel, Adrian and Hoffmeister, H.-W.}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{4}}, pages = {{62 -- 67}}, publisher = {{A.G.T.-Verlag}}, title = {{{Optimierung des Lackzwischenschliffes}}}, volume = {{43}}, year = {{1996}}, } @article{3920, author = {{Riegel, Adrian}}, issn = {{1438-1672}}, journal = {{Woodworking international}}, number = {{1}}, pages = {{11 -- 13}}, publisher = {{Harnisch}}, title = {{{Tool life during sanding on wood - wear model and possible improvements}}}, volume = {{14}}, year = {{1996}}, } @inproceedings{3922, author = {{Riegel, Adrian and Westkämper, E.}}, booktitle = {{Proceedings of the 2nd International Conference on the Development of Wood Science Technology and Forestry}}, location = {{Sopron, Hungary}}, pages = {{14}}, title = {{{Wear and surface formation during sanding of spruce with different tools}}}, year = {{1996}}, } @inproceedings{3924, author = {{Riegel, Adrian and Dreyer, K.-P.}}, booktitle = {{Join t Wood-Base d Panel s Symposium : 3rd EUROWOOD Symposium and 4th FESYP Technical Conference}}, location = {{Braunschweig}}, pages = {{1 -- 4}}, title = {{{Machining Property of Coated Wood Based Materials}}}, year = {{1996}}, } @article{3926, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0341-3659}}, journal = {{Bau + Möbelschreiner: BM}}, number = {{10}}, pages = {{59 -- 62}}, publisher = {{Konradin-Verl.}}, title = {{{Weniger Staub dank antistatischer Schleifmittel}}}, year = {{1995}}, } @article{3928, author = {{Riegel, Adrian}}, issn = {{0018-3822 }}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{5}}, pages = {{126 -- 130}}, publisher = {{A.G.T.-Verlag}}, title = {{{Antistatische Werkzeuge - Auswirkungen antistatischer Behandlung des Schleifmittels auf die Staubemission}}}, volume = {{42}}, year = {{1995}}, } @article{3932, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, pages = {{761 -- 762, 772}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Staub- und Späneerfassung auf CNC-Oberfräsen}}}, volume = {{121}}, year = {{1995}}, } @article{3934, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3792}}, journal = {{Holz-Zentralblatt}}, pages = {{394 -- 395}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Auslegung von Staub- und Späneerfassungseinrichtungen}}}, volume = {{121}}, year = {{1995}}, } @article{3936, author = {{Riegel, Adrian}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff: European journal of wood and wood products }}, pages = {{288}}, publisher = {{Springer}}, title = {{{Phänomenologie von Kantenausbrüchen beim Fräsen von KF-Spanplatten}}}, volume = {{53}}, year = {{1995}}, } @article{3938, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff: European journal of wood and wood products}}, pages = {{281 -- 287}}, publisher = {{Springer}}, title = {{{Standzeitverhalten von Schleifwerkzeugen beim Schleifen von Fichte}}}, volume = {{53}}, year = {{1995}}, } @article{3940, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{10}}, pages = {{44 -- 48}}, publisher = {{A.G.T.-Verlag}}, title = {{{Fünfachsiges NC-Formschleifen}}}, volume = {{41}}, year = {{1994}}, } @article{3942, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0172-7117 }}, journal = {{industriebedarf : IB ; Fachberichte und Produktinformationen für den Maschinen- und Werkzeug-Fachhandel / Fachverband des Deutschen Maschinen- und Werkzeug-Großhandels }}, number = {{2}}, pages = {{63 -- 66}}, publisher = {{Sachon}}, title = {{{Systematische Strategie - Schleifaggregate für CNC-Holzoberfräsen}}}, year = {{1994}}, } @inproceedings{3944, author = {{Riegel, Adrian}}, booktitle = {{Marktorientiert, schlank und umweltgerecht : Recycling und ökologische Aspekte ; 9. Holztechnisches Kolloquium 1994}}, editor = {{Westkämper, E.}}, isbn = {{ 978-3802786198}}, location = {{Braunschweig}}, pages = {{18.1 -- 18.23}}, title = {{{Komplettbearbeitung durch Integration des Schleifens in Bearbeitungszentren}}}, year = {{1994}}, } @article{3946, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{1438-1672 }}, journal = {{Woodworking international}}, number = {{4}}, pages = {{20 -- 21}}, publisher = {{Harnisch}}, title = {{{Sanding on machining centers}}}, year = {{1994}}, } @article{3948, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3822 }}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{11}}, pages = {{106 -- 114}}, publisher = {{A.G.T.-Verlag}}, title = {{{Einsatz von Schleifwerkzeugen auf CNC-Bearbeitungszentren}}}, volume = {{40}}, year = {{1993}}, } @article{3950, author = {{Riegel, Adrian}}, issn = {{0018-3822 }}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{1/2}}, pages = {{50 -- 53}}, publisher = {{A.G.T.-Verlag}}, title = {{{Trends in der Membranpress-Technologie. Teil 2}}}, volume = {{40}}, year = {{1993}}, } @article{3952, author = {{Riegel, Adrian}}, journal = {{International Conference on Woodworking Technologies: Proceedings}}, pages = {{23.1 -- 23.10}}, title = {{{Quality measurement in surface technologies}}}, year = {{1993}}, } @article{3954, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff : European journal of wood and wood products }}, pages = {{27 -- 30}}, publisher = {{Springer}}, title = {{{Qualitätskriterien für feingehobelte Holzoberflächen}}}, volume = {{51}}, year = {{1993}}, } @article{3956, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff: European journal of wood and wood products}}, pages = {{121 -- 125}}, publisher = {{Springer}}, title = {{{Qualitätskriterien für geschliffene Massivholzoberflächen}}}, volume = {{51}}, year = {{1993}}, } @article{3958, author = {{Riegel, Adrian and Westkämper, E. and Dreyer, K.-P.}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{10}}, pages = {{52 -- 53}}, publisher = {{A.G.T.-Verlag}}, title = {{{Systematisches Vorgehen bei der Entwicklung von Prüftechniken am Beispiel der Rauheitsmessung}}}, volume = {{39}}, year = {{1992}}, } @article{3960, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{12}}, pages = {{48 -- 51}}, publisher = {{A.G.T.-Verlag}}, title = {{{Trends in der Membranpress-Technologie. Teil 1}}}, volume = {{39}}, year = {{1992}}, } @article{3962, author = {{Riegel, Adrian and Westkämper, E.}}, issn = {{0018-3768}}, journal = {{Holz als Roh- und Werkstoff: European journal of wood and wood products}}, pages = {{475 -- 478}}, publisher = {{Springer}}, title = {{{Rauheitsmessungen an Holzoberflächen}}}, volume = {{50}}, year = {{1992}}, } @article{3964, author = {{Riegel, Adrian}}, issn = {{0018-3822}}, journal = {{Die Holzbearbeitung : HOB ; fertigungstechnische Fachzeitschrift für die Holzbearbeitung}}, number = {{10}}, pages = {{36 -- 38}}, publisher = {{A.G.T.-Verlag}}, title = {{{Trends beim Formfräsen und -schleifen}}}, volume = {{39}}, year = {{1992}}, } @article{3966, author = {{Riegel, Adrian}}, issn = {{0947-6237}}, journal = {{HK: Fachzeitschrift für die Holz- und Möbelindustrie ; internationale Fachzeitschrift für Unternehmer und Führungskräfte der Holz- und Möbelindustrie }}, pages = {{1566--1569}}, publisher = {{DRW-Verl. Weinbrenner}}, title = {{{Qualitätssicherungssysteme in der Holzindustrie}}}, volume = {{26}}, year = {{1991}}, }