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2006

  1. Development of a Generalized Parameter Window for Cold Spray Deposition Externer Link: Development of a Generalized Parameter Window for Cold Spray Deposition (http://dx.doi.org/10.1016/j.actamat.2005.10.005) Link wird in einem neuen Fenster geöffnet, T. Schmidt, F. Gärtner, H. Assadi, H. Kreye: Acta Materialia 54 (2006), p. 729-742

  2. Bonding Mechanisms and Applications of Cold Spraying, F. Gärtner, H. Assadi, H. Kreye, T. Schmidt, T. Stoltenhoff: Proc. SMT 18, Dijon, November 15th – 17th 2004, “Surface Modification Technologies XVIII”, Eds. T. S. Sudarshan, M. Jeandin, J.J. Stiglich, Maney Publishing, London, UK, 2006, p. 35-43

  3. Two-body Abrasive Wear of Nano- and Microcrystalline TiC-Ni-Based Thermal Spray Coatings Externer Link: Two-body Abrasive Wear of Nano- and Microcrystalline TiC-Ni-Based Thermal Spray Coatings (http://dx.doi.org/10.1016/j.surfcoat.2005.05.007) Link wird in einem neuen Fenster geöffnet, X. Qi, N. Eigen, E. Aust, F. Gärtner, T. Klassen, R. Bormann: Surface and Coatings Technology 200 (2006), p. 5037-5047

  4. Microstructures and Key Properties of Cold-sprayed and Thermally Sprayed Copper Coatings Externer Link: Microstructures and Key Properties of Cold-sprayed and Thermally Sprayed Copper Coatings (http://dx.doi.org/10.1016/j.surfcoat.2005.05.011) Link wird in einem neuen Fenster geöffnet, T. Stoltenhoff, C. Borchers, F. Gärtner, H. Kreye: Surface Coating Technology, Surface and Coatings Technology 200 (2006), p. 4947-4960

  5. TiC-Based Cermet-Coatings: Advanced Wear Performance by Nanocrystalline Microstructure, X. Qi, E. Aust, N. Eigen, T. Klassen, R. Bormann, F. Gärtner: Advanced Engineering Materials 8 (2006), p. 427-433

  6. The Cold Spray Process and its Potential for Industrial Applications Externer Link: The Cold Spray Process and its Potential for Industrial Applications (http://link.springer.com/article/10.1361/105996306X108110) Link wird in einem neuen Fenster geöffnet,F. Gärtner, T. Stoltenhoff, T. Schmidt, H. Kreye: J. Thermal Spray Technology 15 (2006), p. 223-232

  7. New Developments in Cold Spray Based on Higher Gas- and Particle Temperatures, T. Schmidt, F. Gärtner, H. Kreye: “Thermal Spray 2006: Science, Innovation, and Application”, Eds. B. R. Marple, C. Moreau, ASM International, Materials Park, OH, USA, 2006, ISBN 0-87170-809-4, on CD, article no.: s2_2-12003

  8. The Cold Spray Process and its Optimization, H. Kreye, T. Schmidt, F. Gärtner, T. Stoltenhoff: “Thermal Spray 2006: Science, Innovation, and Application”, Eds. B. R. Marple, C. Moreau, ASM International, Materials Park, OH, USA, 2006, ISBN 0-87170-809-4, on CD, article no.: s2_1-12011, Also in: Journal of Thermal Spray Technology 15 (2006), p. 488-494

  9. Recent Developments and Potential Applications of Cold Spraying Externer Link: Recent Developments and Potential Applications of Cold Spraying (http://dx.doi.org/10.1002/adem.200600048) Link wird in einem neuen Fenster geöffnet, F. Gärtner, R. Schmidt, T. Stoltenhoff, H. Kreye: Advanced Engineering Materials 8 (2006), p. 611-618

  10. Mechanical Properties of Cold Sprayed and Thermally Sprayed Copper Coatings Externer Link: Mechanical Properties of Cold Sprayed and Thermally Sprayed Copper Coatings (http://dx.doi.org/10.1016/j.surfcoat.2005.10.007) Link wird in einem neuen Fenster geöffnet, F. Gärtner, T. Stoltenhoff, J. Voyer, H. Kreye, S. Riekehr, M. Koçak, Surface and Coatings Technology 200 (2006), p. 6770-6782

  11. Advances in Cold Spraying Externer Link: Advances in Cold Spraying (http://dx.doi.org/10.1179/174329406X108906) Link wird in einem neuen Fenster geöffnet, F. Gärtner, invited guest editorial for Surface Engineering (2006), Vol. 22, No. 3, p. 161-163

  12. Characteristics of Particle Bonding and Material Deposition in Cold Spraying, H. Assadi, T. Schmidt, F. Gärtner, H. Kreye: Proc. of Aerospace Materials and Manufacturing Processes: Emerging Materials, Processes, and Repair Techniques, Eds. M. Jahazi, M. Elboujdaïni and P. Patnaik, COM 2006, 1-4 October 2006, Montreal, Canada, pp. 49-59

  13. Influence of impact velocity on the extent of bonded interfaces in cold gas spraying, H. Assadi, F. Gärtner 2*, C. Borchers, T. Stoltenhoff, H. Kreye: in preparation.

  14. Simulation of Solid Particle Impact Behavior for Spray Processes, K. Yokoyama, M. Watanabe, S. Kuroda, Y. Gotoh, T. Schmidt, F. Gärtner: Materials Transactions(2006) p. 1697-1702

  15. Kaltgasspritzen - Vom thermischen Spritzen zum kinetischen Spritzen / Cold Spraying – From Thermal Spraying to Kinetic Spraying, H. Kreye, F. Gärtner, T. Schmidt, T. Klassen, in: Proc. 7. Kolloquium Hochgeschwindigkeits-Flammspritzen, Erding 2006, November 9-10, 2006 (ed.: P. Heinrich), Gemeinschaft Thermisches Spritzen e.V., Unterschleißheim, Germany, (2006), S. 9-16

  16. Mikrostruktur und Eigenschaften von Kaltgas-Spritzschichten / Microstructure and Properties of Cold Sprayed Coatings,T. Schmidt, F. Gärtner, H. Kreye, T. Klassen, in: Proc. 7. Kolloquium Hochgeschwindigkeits-Flammspritzen, Erding 2006, November 9-10, 2006 (ed.: P. Heinrich), Gemeinschaft Thermisches Spritzen e.V., Unterschleißheim, Germany, (2006), S. 17-28

  17. HVOF Spritzen mit Pulver und Draht / HVOF Spraying with powder and wire, F. Gärtner, H. Kreye, H.J. Richter, in: Proc. 7. Kolloquium Hochgeschwindigkeits-Flammspritzen, Erding 2006, November 9-10, 2006 (ed.: P. Heinrich), Gemeinschaft Thermisches Spritzen e.V., Unterschleißheim, Germany, (2006), S. 739-56

  18. Tribology of Titanium Coatings Fabricated by Warm Spray Process with in-situ Zircon Beads Addition,S. Krebs, J. Kawakita, S. Kuroda, F. Gärtner, in: Proceedings of 114th Meeting of the Surface Finishing Society Japan 2006, p.156-157

  19. Chemical and microstructural study of the oxygen passivation behaviour of nanocrystalline Mg and MgH2,O. Friedrichs, J.C. Sanchez-Lopez, C. Lopez-Cartes, M. Dornheim, T. Klassen, R. Bormann, A. Fernandez: Applied Surface Science 252 (2006), p. 2334-2345

  20. MgH2 with Nb2O5 as additive, for hydrogen storage: Chemical, structural and kinetic behavior with heating,O. Friedrichs, F. Aguey-Zinsou, J.R. Ares Fernandez, J.C. Sanchez-Lopez, A. Justo, T. Klassen, R. Bormann, A. Fernandez: Acta Materialia 54 (2006), p. 105-110

  21. Hydrogen sorption improvement of nanocrystalline MgH2 by Nb2O5 nanoparticles,O. Friedrichs, T. Klassen, J.C. Sanchez-Lopez, R. Bormann, A. Fernandez: Scripta Materialia 54 (2006), p. 1293-1297

  22. ASAXS study of the catalyst distribution in nanostructured MgH2/MexOy, P.K. Pranzas, M. Dornheim, J.R. Ares, K.-F. Aguey-Zinsou, V. Leiner, T. Klassen, A. Schreyer, G. Goerigk: DESY-Berichte 2006

  23. Structural characterisation of nanocrystalline MgH2 for reversible storage of hydrogen using SAXS/USAXS, M. Dornheim, P.K. Pranzas, J.R. Ares, K.-F. Aguey-Zinsou, T. Klassen, A. Schreyer, R. Gehrke: DESY-Berichte

  24. Nanocrystalline Light Metal Hydrides For Hydrogen Storage, T. Klassen: Kapitel in: “Nanostructure Control of Materials”, ed. by R. Hannink, A. Hill (ISBN-10: 1-85573-933-X, Woodhead Publishing, Cambridge, England, 2006) p. 266-302

  25. SANS/USANS investigations of nanocrystalline MgH2for reversible storage of hydrogen, P.K. Pranzas, M. Dornheim, D. Bellmann, K.-F. Aguey-Zinsou, T. Klassen, A. Schreyer: Physica B: Condensed Matter 385-386 (2006), p. 630-632

  26. Mechanical and thermal decomposition of LiAlH4 with metal halides, J. R. Ares Fernandez, F. Aguey-Zinsou, M. Elsaesser, X.Z. Ma, M. Dornheim, T. Klassen, R. Bormann: International Journal of Hydrogen Energy, in Press, Corrected Proof, Available online 18 September 2006

  27. Using MgO to improve the (de)hydriding properties of magnesium,K.-F. Aguey-Zinsou, J. R. Ares Fernandez, T. Klassen, R. Bormann: Materials Research Bulletin 41, (2006), p. 1118-1126

  28. The catalytic effect of Nb2O5 on the electrochemical hydrogenation of nanocrystalline magnesium, D. Zander, L. Lyubenova, U. Köster, M. Dornheim, F. Aguey-Zinsou, T. Klassen: Journal of Alloys and Compounds 413 (2006), p. 298-301

  29. Nb2O5 "pathway effect" on hydrogen sorption in Mg Externer Link: Nb2O5 "pathway effect" on hydrogen sorption in Mg (http://pubs.acs.org/doi/abs/10.1021/jp0574495?prevSearch=%255BContrib%253A%2BThomas%2BKlassen%255D&searchHistoryKey=) Link wird in einem neuen Fenster geöffnet, O. Friedrichs, J.C. Sanchez-Lopez, C. Lopez-Cartes, T. Klassen, R. Bormann, A. Fernandez: Journal of Physical Chemistry B 110 (2006), p. 7845-7850

  30. Tailoring Hydrogen Storage Materials towards Application,M. Dornheim, N. Eigen, G. Barkhordarian, T. Klassen, R. Bormann: Advanced Engineering Materials 8 (2006), p. 377-385.

  31. Catalytic Mechanism of Transition-Metal Compounds on Mg Hydrogen Sorption Reaction of Magnesium Catalyzed with Different Nb2O5 Contents,G. Barkhordarian, T. Klassen, R. Bormann: Journal of Alloys and Compounds 407 (2006) 249-255

  32. Kinetic Investigation of the Effect of Milling Time on the hydrogen sorption raction,G. Barkhordarian, T. Klassen, R. Bormann: Journal of Physical Chemistry B 110 (2006), p. 11020-11024.

  33. Effect of Nb2O5 on MgH2 properties during mechanical milling, K.-F. Aguey-Zinsou, J.R. Ares Fernandez, T. Klassen, R. Bormann: International Journal of Hydrogen Energy 32 (2006), p. 2400-2407

  34. Nanocrystalline intermetallic Mg2Ni produced in a batch scale mill,E. Martinez-Franco, T. Klassen, R. Bormann, D. Jaramillo, H. BalmoriRamirez, M. Brito, J.G. CabanasMoreno, H.A. CalderonBenavides, K. Ishizaki, A. SalinasRodriguez: Symposium on Advanced Structural Materials held at the Annual Congress of the Mexican-Academy-of-Materials-Science 2004 (Cancun, Mexico), Advanced Structural Materials II 509 (2006), p.141-145

  35. Kinetic investigation of the effect of milling time on the hydrogen sorption reaction of magnesium catalyzed with different Nb2O5contents, Externer Link: Kinetic investigation of the effect of milling time on the hydrogen sorption reaction of magnesium catalyzed with different Nb2O5contents, (http://www.sciencedirect.com/science/article/pii/S0925838805011199) Link wird in einem neuen Fenster geöffnet Gagik Barkhordarian, Thomas Klassen, Rüdiger Bormann: Journal of Alloys and Compounds Volume 407, Issues 1–2, 5 January 2006, Pages 249–255

  36. In-Situ Densification of Ti Coatings by the Warm Spray (Two-Stage HVOF) Process Externer Link: In-Situ Densification of Ti Coatings by the Warm Spray (Two-Stage HVOF) Process (https://www.jim.or.jp/journal/e/pdf3/47/07/1631.pdf) Link wird in einem neuen Fenster geöffnet, Jin Kawakita, Seiji Kuroda, Sebastian Krebs; Hiroshi Katanoda, Materials Transactions, Vol. 47, No. 7 (2006) pp. 1631 to 1637 Special Issue on Thermal Spraying

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