@misc{MalikovOssenbrinkViehwegeretal., author = {Malikov, Viatcheslav and Ossenbrink, Ralf and Viehweger, Bernd and Michailov, Vesselin}, title = {Investigation of air bending of structured sheet metals by multistage FE simulation}, series = {The International Journal of Advanced Manufacturing Technology}, volume = {63}, journal = {The International Journal of Advanced Manufacturing Technology}, number = {5-8}, issn = {1433-3015}, doi = {10.1007/s00170-012-3927-4}, pages = {449 -- 455}, language = {en} } @book{MichailovDoynovOssenbrink, author = {Michailov, Vesselin and Doynov, Nikolay and Ossenbrink, Ralf}, title = {Sensibilit{\"a}tsanalyse der thermomechanischen FE-Schweißsimulation}, publisher = {Shaker}, address = {Aachen}, isbn = {978-3-8440-1016-9}, pages = {137}, language = {de} } @misc{GenchevDreibatiOssenbrinketal., author = {Genchev, Gancho Vladimirov and Dreibati, Ossama and Ossenbrink, Ralf and Doynov, Nikolay and Michailov, Vesselin}, title = {Physical and Numerical Simulation of the Heat-affected Zone of Multi-pass Welds}, series = {Materials Science Forum}, journal = {Materials Science Forum}, number = {Vol. 762}, issn = {0255-5476}, pages = {544 -- 550}, abstract = {The paper presents a numerical and experimental approach for the quantification of the thermo-mechanical properties in multi-pass weld's heat affected zone (HAZ) of low alloy steel "S355J2+N". First, the characteristic temperature cycles for multi-pass welds were identified by FE temperature field simulations of welding. Based on the identified temperature cycles, the microstructure in the HAZ has been physically simulated with the simulation and testing system Gleeble 3500 to investigate the influence of multi thermal exposure on the thermo-mechanical properties. Thus, the thermo-mechanical material properties including thermal strain and temperature dependent stress strain behaviour as function of peak temperatures and cooling rates have been determined. These material properties were used to calibrate a developed model for numerical prediction of the material properties of multi-pass weld HAZ.}, language = {en} } @incollection{GenchevOssenbrinkDoynovetal., author = {Genchev, Gancho Vladimirov and Ossenbrink, Ralf and Doynov, Nikolay and Michailov, Vesselin}, title = {Gef{\"u}geeigenschaften in der W{\"a}rmeeinflusszone von Mehrlagenschweißungen aus S355J2+N}, series = {Fortschritte in der Metallographie}, booktitle = {Fortschritte in der Metallographie}, editor = {Keßler, Olaf}, publisher = {Inventum}, address = {Bonn}, isbn = {978-3-88355-392-4}, pages = {167 -- 172}, language = {de} } @inproceedings{GenchevDoynovOssenbrinketal., author = {Genchev, Gancho Vladimirov and Doynov, Nikolay and Ossenbrink, Ralf and Michailov, Vesselin}, title = {Simulation des Mehrlagenschweißens unter Ber{\"u}cksichtigung der Gef{\"u}geumwandlungen}, series = {Conference proceedings, 2012 - ANSYS Conference \& 30. CADFEM Users' Meeting, 24. - 26. Oktober 2012, Kassel}, booktitle = {Conference proceedings, 2012 - ANSYS Conference \& 30. CADFEM Users' Meeting, 24. - 26. Oktober 2012, Kassel}, publisher = {CADFEM GmbH}, address = {Grafing}, pages = {Art. 2.2.9}, abstract = {Der Konferenzvortrag stellt das entwickelte M-STAAZ Modell vor. Mit dem M-STAAZ l{\"a}sst sich in der FE-Simulation die {\"A}nderung der Werkstoffkennwerte bei mehrmaliger Temperaturbelastung wie in der WEZ von Mehrlagenschweißungen ber{\"u}cksichtigen.}, language = {de} } @inproceedings{GenchevDoynovOssenbrinketal., author = {Genchev, Gancho Vladimirov and Doynov, Nikolay and Ossenbrink, Ralf and Michailov, Vesselin}, title = {Bewertung der relevanten Einflussfaktoren auf die Gef{\"u}geumwandlungen und thermomechanischen Eigenschaften bei komplexen Temperaturbelastungen}, series = {ANSYS Conference \& 29. CADFEM Users' Meeting 2011, conference proceedings, 19. - 21. October 2011, Stuttgart, ICS}, booktitle = {ANSYS Conference \& 29. CADFEM Users' Meeting 2011, conference proceedings, 19. - 21. October 2011, Stuttgart, ICS}, publisher = {CADFEM GmbH}, address = {Grafing}, isbn = {3-937523-08-1}, abstract = {Der Vortrag stellt die Identifizierung und Bewertung der relevanten Einflussfaktoren auf die Gef{\"u}geumwandlungen und auf die thermomechanischen Werkstoffkennwerte bei komplexen Temperaturbelastungen vor. Dies erfolgt durch physikalische Simulation der Gef{\"u}ge in der WEZ von Mehrlagenschweißungen und Aufnahme von Dilatometerkurven und Spannungs-Dehnungskurven. Es wurden einflussarme Kombination von Temperaturzyklen und weitere mit starkem Einfluss auf die Gef{\"u}geumwandlung identifiziert. Hinweise zu den erforderlichen Werkstoffkennwerten f{\"u}r die numerische Schweißsimulation wurden gegeben.}, language = {de} } @book{MichailovKarkhinPetrov, author = {Michailov, Vesselin and Karkhin, Victor A. and Petrov, Peter}, title = {Grundlagen der Schweißtechnik}, publisher = {Bauwesen}, address = {Sofia}, isbn = {978-954-90912-6-7}, pages = {197}, language = {mul} } @inproceedings{SasseOssenbrinkMichailov, author = {Sasse, Ina and Ossenbrink, Ralf and Michailov, Vesselin}, title = {Welding of structured sheet metals with high power fiber laser}, series = {Międzynarodowa Sesja Studencka, 30. Mai 2012, Częstochowa/Polen}, booktitle = {Międzynarodowa Sesja Studencka, 30. Mai 2012, Częstochowa/Polen}, address = {Częstochowa}, isbn = {978-83-87745-69-1}, pages = {285 -- 290}, language = {en} } @inproceedings{GenchevOssenbrinkDoynovetal., author = {Genchev, Gancho Vladimirov and Ossenbrink, Ralf and Doynov, Nikolay and Michailov, Vesselin}, title = {Material Properties of the HAZ of Multi-Pass Welded Joints from low alloyed Steel}, series = {Junior Euromat 2012, Paperlist}, booktitle = {Junior Euromat 2012, Paperlist}, pages = {A297}, language = {en} } @incollection{OssenbrinkBrandMichailov, author = {Ossenbrink, Ralf and Brand, M. and Michailov, Vesselin}, title = {Numerische Simulation der Eigenspannungen und des Bauteilverzugs beim Schweißen mit Ber{\"u}cksichtigung des Umwandlungsverhaltens}, series = {Große Schweißtechnische Tagung, Schweissen und Schneiden, 2003}, booktitle = {Große Schweißtechnische Tagung, Schweissen und Schneiden, 2003}, publisher = {DVS-Verlag}, address = {D{\"u}sseldorf}, isbn = {3-87155-683-1}, pages = {279 -- 283}, language = {de} } @inproceedings{BrandPetzTutschetal., author = {Brand, M. and Petz, M. and Tutsch, R. and Wohlfahrt, Helmut and Michailov, Vesselin}, title = {Numerische Simulation und Verifikation des Bauteilverzugs beim Schweißen unter Verwendung optischer Feldmeßmethoden}, series = {Conference proceedings, 21st CAD-FEM Users' Meeting 2003, International Congress on FEM Technology, 12. - 14. November 2003, im Hotel Dorint Sanssouci Berlin, Potsdam}, booktitle = {Conference proceedings, 21st CAD-FEM Users' Meeting 2003, International Congress on FEM Technology, 12. - 14. November 2003, im Hotel Dorint Sanssouci Berlin, Potsdam}, publisher = {CAD-FEM GmbH}, address = {Grafing bei M{\"u}nchen}, isbn = {3-937523-00-6}, language = {de} } @misc{MichailovStadtaus, author = {Michailov, Vesselin and Stadtaus, Marc}, title = {Einige Probleme der FE-Simulation zur Wasserstoff- und Stickstoffverteilung beim Schweißen}, series = {Zeitschrift f{\"u}r Metallkunde}, volume = {92}, journal = {Zeitschrift f{\"u}r Metallkunde}, number = {3}, issn = {0044-3093}, pages = {247 -- 252}, language = {de} } @misc{ZhangDoynovWolfetal., author = {Zhang, Wei and Doynov, Nikolay and Wolf, Matthias and Dreibati, Ossama and Ossenbrink, Ralf and Michailov, Vesselin}, title = {Investigation of the Thermal Shock Behavior of Ceramic Using a Combination of Experimental Testing and FE-Simulation Methods}, series = {Advanced engineering materials}, volume = {15}, journal = {Advanced engineering materials}, number = {6}, issn = {1527-2648}, doi = {10.1002/adem.201200241}, pages = {480 -- 484}, abstract = {Thermal shock behavior of ceramics plays a decisive role in their broad industrial applications. For enhanced understanding of damage and failure mechanism under thermal shock loading, in the present work, a combination of experimental testing and numerical simulation methods has been used. The thermal shock behavior of the alumina (99.7\%) disk samples has been investigated by using a plasma test stand: the bottom of the ceramic disks were locally heated in the center by plasma beam; during the heat treatment the temperature distribution at the top of the sample was recorded with a thermographic system. To characterize the thermal shock resistance, a thermomechanical simulation was subsequently carried out. It calculates the temperature and stress distribution within the ceramic disks. The calculated critical thermal tension stresses are reported, which led to the failure of the ceramic disks under thermal shock loading. The effect of the sample thickness on the temperature and stress distribution is presented. Compared with the experimental results the simulated results show excellent agreement. As conclusion, it is possible to determine the thermal shock behavior of ceramic materials by the combination of experimental testing and numerical simulation.}, language = {en} }