Мероприятия
Visit us at CERAMITEC 2012 in Munich in hall B6 / booth 425. [...]
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Технология спекания в искровой плазме
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1. |
Consolidation and characterisation of field-assisted sintered and hot pressed rapidly solidified hypereutectic Al-Si-Fe-X alloy, K.Y.Sastry, L. Froyen, J. Vleugels, O. Van der Biest, R. Schattevoy and K. Hummert, NMD-ATM 2004, 42nd National Metallurgist's Day, 58th Annual Technical Meeting 2004, November 17-19, 2004, The Indian Institute of Metals, Trivandrum, India p.312-313 |
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2. |
Field Assisted Sintering Technology ("FAST") for the consolidation of innovative materials, J. Hennicke, H.U. Kessel, cfi/Ber.DKG 81 [11] (2004) E14-E16. |
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3. |
Mechanical milling and field assisted sintering consolidation of nanocrystalline AI-Si-Fe-X alloy powder, K. Y. Sastry, L. Froyen, J. Vleugels, O. Van der Biest, R. Schattevoy and J. Hennicke, Reviews on Advanced Materials Science 8 (2004) p 27-32 |
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4. |
Microstructure and Mechanical properties of Spark Plasma sintered ZrO2-Al2O3-TiC0.5N0.5 composites, K. Vanmeensel, S.Y. Kandukuri, J. Hennicke, G. Anné D. Jiang, A. Laptev, J. Vleugels and O. Van der Biest, EMRS 2004, Poland |
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5. |
Densification of nanocrystalline Ti(C,N) powders with nickel aluminide binder phases: Field Assisted Sintering (FAST) vs. Glass Encapsulated HIP, M. Alvarez, J.M. Sánchez, J. Etxeberria, L. Bourgeois, G. Barbier and J. Hennicke,. Proc. of 16th International Plansee Seminar 2005, Eds. G. Kneringer, P. Rödhammer and H. Wildner, vol. 2, HM22, 419-433, (2005). |
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6. |
Development of CDCC Composites by either GE-HIP or Field Assisted Sintering Technology, L. Bourgeois, G. Barbier, J. Hennicke, H.-U. Kessel, V. Martinez, J. Echeberria, J.M. Sanchez and P. Harden, Proc. of 16th International Plansee Seminar 2005, Eds. G. Kneringer, P. Rödhammer and H. Wildner, vol. 2, HM46, 684-698, (2005). |
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7. |
Effect of process parameters on density, structure and properties of field assisted sintered Al-Si-Fe-X alloy, K.Y.Sastry, L.Froyen, J.Vleugels, O.Van der Biest, R.Schattevoy and K.Hummert. Proceedings of the 4th International Conference on Science, Technology and Applications of Sintering, August-September 2005, Grenoble, France, CD-ROM p. 80-84 |
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8. |
Field assisted sintering of electro-conductive ZrO2-based composites, K. Vanmeensel, D. Jiang, J. Vleugels and O. Van der Biest, Submitted to the 9th Conference and Exhibition of the European Ceramic Society, June 2005, Portoroz, Slovenia |
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9. |
Field-assisted sintering technology for the consolidation of nano-structured powders and nano-composites, K. Lambrinou, K. Y. Sastry, K. Vanmeensel, J. Vleugels, L. Froyen, O. Van der Biest, Nanotech Insight 2005, February 2005, Luxor, Egypt, Abstractbook |
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10. |
Finite Element Simulation of Field Assisted Sintering of WC-Co Hardmetals, K.Vanmeensel, A. Laptev, J. Hennicke, G. Anné, J.Vleugels, O.Van der Biest, Proc. of 16th International Plansee Seminar 2005, Eds. G. Kneringer, P. Rödhammer and H. Wildner, vol. 2, HM9, 266-282, (2005). |
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11. |
High-Energy Ball-Milling Synthesis and Densification of Fe-Co Alloy Nanopowders by Field-Activated Sintering, R. Nicula, V.D. Cojocaru, M. Stir, J. Hennicke, E. Burkel, Int. Symp. Metastable Nano Mat. (ISMANAM) July 3-7, 2005, Paris |
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12. |
Hot Pressing and Spark Plasma Sintering of Si3N4-SiC Nanocomposites, I. Zalite, N. Zhilinska, J. Grabis, P. Sajgalik, R. Kirchner, G. Kladler, Nano 05, Brno, Nov. 8-10, 2005 |
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13. |
Microstructure and Mechanical Properties of Spark Plasma Sintered ZrO2-Al2O3-TiC0.5N0.5 Nanocomposites, K. Vanmeensel, K.Y. Sastry, J. Hennicke, G. Anné, D. Jiang, A. Laptev, J. Vleugels, and O. Van der Biest, Solid State Phenomena, 106 (2005) 153-160. |
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14. |
Modelling of the temperature distribution for improvement of the SPS process, A Laptev, K. Vanmeensel, J. Vleugels, O. Van der Biest. Proceedings of the 4th International Conference on Science, Technology and Applications of Sintering, August-September 2005, Grenoble, France, CD-ROM p. 130-133. |
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15. |
Modelling of the temperature distribution during field assisted sintering, K. Vanmeensel, A. Laptev, J. Hennicke, J. Vleugels and O. Van der Biest, Acta Materialia, 53 (2005) 4379-4388. |
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16. |
Phase assembly and microstructure of CeO2-doped ZrO2 ceramics prepared by spark plasma sintering, Tao Xu, Peiling Wang, Pingan Fang, Yanmei Kan, Lidong Chen, Jef Vleugels, Omer Van der Biest, Jef Van Landuyt, Journal of the European Ceramic Society 25 (2005) 3437–3442 |
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17. |
Simulation of Temperature Evolution During Field Assisted Sintering of Rapidly Solidified Al-alloy Powder, K.Y. Sastry, K. Vanmeensel, L. Froyen, J. Vleugels, O. Van der Biest, A. Laptev and J. Hennicke, Euro PM2005 Powder Metallurgy Congress & Exhibition, page 99-105 |
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18. |
Sintering Behaviour of Low Co Content cBN-WC/Co Composites by Either GEHIP or FAST, J. Echeberria, V. Martínez, J.M. Sánchez, L. Bourgeois,G. Barbier and J. Hennicke, Proc. of 16th International Plansee Seminar 2005, Eds. G. Kneringer, P. Rödhammer and H. Wildner, vol. 2, HM23, 434-448, (2005). |
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19. |
Feldaktives Sintern „FAST“ – ein neues Verfahren zur Herstellung metallischer und keramischer Sinterwerkstoffe, Heinz U. Kessel, Jürgen Hennicke, Jürgen Schmidt, Thomas Weißgräber, Bernd F. Kieback, Matthias Herrmann, Jan Räthel, 2006, Hagener Symposium |
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20. |
Feldaktiviertes Sintern (FAST): Ein neues Verfahren zur Herstellung keramischer Nanowerkstoffe, Heinz U. Kessel, Jürgen Hennicke, DKG Symposium "Keramik aus Nanopulvern" , FA "Verfahrenstechnik"; Erlangen; 28.-29.11.2006 |
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21. |
Sintern von nichtoxidischen Nanopulvern, M. Herrmann, I. Schulz, DKG Symposium "Keramik aus Nanopulvern" , FA "Verfahrenstechnik"; Erlangen; 28.-29.11.2006 |
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22. |
Field Assisted Sintering and Characterisation of Ultrafine and Nanostructured Aluminium Alloys, Sastry Kandukuri, Thesis, July 2006, KUL Leuven (Belgium) |
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23. |
Field assisted sintering consolidation of Al-Si-Fe-X alloy powder/flakes produced through air atomization/melt spinning, K.Y.Sastry, L.Froyen, J.Vleugels, O.Van der Biest, R.Schattevoy and K.Hummert, Materials Science Forum Vols. 519-521 (2006) pp. 1409-1 |
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24. |
Field Assisted Sintering of Cubic Boron Nitride Dispersed Cemented Carbide (CDCC) Composites, K. Vanmeensel, J. Echeberria, J.M. Sanchez, V. Martinez, L. Bourgeois, J. Hennicke, H.-U. Kessel, P. Harden, O. Van der Biest, J. Vleugels, EuroPM 2006 |
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25. |
High-energy ball-milling synthesis and densification of Fe-Co alloy nanopowders by field-activated sintering (FAST), R. Nicula, V.D. Cojocaru, M. Stir, J. Hennicke, E. Burkel, Journal of Alloys and Compounds 434-435 (2007) p. 362-366. |
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26. |
Spark plasma sintering of Ti(C,N) cermets with intermetallic binder phases, M. Alvarez, J.M. Sánchez, International Journal of Refractory Metals & Hard Materials, 11 April 2006 |
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27. |
Aspects Concerning the Super-fast Sintering of Powder Metallic and Ceramic Materials, H.U. Kessel and J. Hennicke, Interceram vol. 56 (2007) [3] p. 164-166 |
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28. |
Aspekte zum superschnellen Sintern von pulvermetallurgischen und keramischen Werkstoffen, H.U. Kessel und J. Hennicke, Keramische Zeitschrift 3-2007 p. 188-190 |
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29. |
Characterization of Y2O3, CeO2 and Y2O3+CeO2 Doped FGM Tetragonal, ZrO2 Ceramics by Spark Plasma Sintering, S.G. Huang, O. Van der Biest, J. Vleugels, K. Vanmeensel and L. Li, (2007) Trans Tech Publications, Switzerland, Key Engineering Materials Vol. 333 (2007) pp. 231-234 |
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30. |
Development of ZrO2–WC composites by pulsed electric current sintering, S.G. Huang, K. Vanmeensel, O. Van der Biest, J. Vleugels, Journal of the European Ceramic Society 27 (2007) p. 3269–3275 |
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31. |
Entwicklung langzeitstabiler direkt beheizter Verdampferschiffchen; Herrmann, M.; Räthel, J.; Nürnberger, M.; Hennicke, J.; Müller, T.; Heike, S.; Poster; WING Konferenz; 22.-24.10.2007; Berlin |
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32. |
Feldaktiviertes Sintern (FAST) von keramischen Werkstoffen, H.U. Kessel, M. Herrmann und J.Räthel, DKG Symposium "Thermische Verfahrenstechnik in der Keramik" , FA "Verfahrenstechnik"; Erlangen; 27.-28.11.2007 |
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33. |
Field assisted sintering of electro-conductive ZrO2-based composites, K. Vanmeensel, A. Laptev, O. Van der Biest, J. Vleugels, Journal of the European Ceramic Society 27 (2007) p. 979–985 |
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34. |
Field Assisted Sintering of Zirconia-Based, Electrically Conductive Ceramic Composites, K. Vanmeensel, Thesis, May 2007, KUL Leuven (Belgium) |
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35. |
Influence of CeO2 Reduction on the Microstructure and Mechanical Preperties of Pulsed Electric Current Sintered Y2O3-CeO2 Co-Stabilized ZrO2 Ceramics, S. G. Huang, K. Vanmeensel, O. Van der Biest, J. Vleugels, Journal of the American Ceramic Society, Vol. 90, No. 5 (May 2007) p. 1420–1426 |
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36. |
Microstructure and Electrical Properties of Si3N4/TiN Composites Sintered by Hot Pressing and Spark Plasma Sintering. Z. Guo, G Blugan, R Kirchner, M.J. Reece, T Graule and J Kubler, Ceramic International, 33 p. 1223-1229 (2007) |
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37. |
Neue technologische Entwicklungen und Anwendungen von Komponenten aus Siliciumcarbid und Siliciumnitrid, Technologie, G. Wötting, W. Martin, K. Berroth, H. U. Kessel cfi/Ber. DKG 84 (2007) No. 4 D15-D21 |
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38. |
Properties of NbC–Co cermets obtained by spark plasma sintering, S.G. Huang, O. Van der Biest, L. Li, J. Vleugels, , Materials Letters 61 (2007) p 574–577 |
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39. |
Spark plasma sintering (SPS) of transparent magnesium-aluminate spinel, N. Frage, S. Cohen, S. Meir, S. Kalabukhov, M.P. Dariel, Editorial Manager(tm) for Journal of Materials Science, Manuscript Draft, Manuscript Number: JMSC6553 |
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40. |
SPS Technology – A New Range of Possibilities for the FAST Consolidation of Innovative Material, Heinz Kessel, 5th Intl. Symposium on nitrides 2007 |
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41. |
Synthesis and microstructural features of ZrB2–SiC-based composites by reactive spark plasma sintering and reactive hot pressing, Wen-Wen Wu, Guo-Jun Zhang, Yan-Mei Kan, Pei-Ling Wang, Kim Vanmeensel, Jozef Vleugelsc and Omer Van der Biest, Scripta Materialia 57 (2007) p. 317–320 |
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42. |
Systematic Growth, cfi/Ber. DKG 84 (2007) No. 6 E16-E18 |
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43. |
The effect of the electrical properties on the pulsed electric current sintering behavior of ZrO2 based ceramic composites, K. Vanmeensel, B. Neirinck, S. Huang, S. Salehi, O. Van der Biest, J. Vleugels, Ceramic Engineering and Science Proceedings. Vol. 28, no. 7, pp. 67-78. 2008 |
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44. |
The influence of percolation during pulsed electric current sintering of ZrO2–TiN powder compacts with varying TiN content, K. Vanmeensel, A. Laptev, O. Van der Biest, J. Vleugels, , Acta Materialia 55 (2007) p. 1801–1811 |
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45. |
VC, Cr3C2 and NbC doped WC–Co cemented carbides prepared, by pulsed electric current sintering, S.G. Huang, L. Li, K. Vanmeensel, O. Van der Biest and J. Vleugels, International Journal of Refractory Metals & Hard Materials 25 (2007) p. 417–422 |
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46. |
Wachstum mit System, cfi/Ber. DKG 84 (2007) No. 6 D24-D25 |
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47. |
Binderless WC and WC–VC materials obtained by pulsed electric current sintering, S.G. Huang, K. Vanmeensel, O. Van der Biest and J. Vleugels, International Journal of Refractory Metals & Hard Materials 26 (2008) p. 41–47 |
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48. |
Densification of electrically conductive composites close to percolation threshold, J. Räthel, M. Herrmann, W. Beckert, M. Nürnberger, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.18-21 |
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49. |
FAST (SPS) Production Systems for the Powder Metallurgy and Ceramics Insustry, R. Kirchner, Cfi/Ber. DKG 85 (2008) No. 10, E19 |
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50. |
Field Activated Sintering Technology (FAST) for Ceramic Materials, J. Räthel, H.U. Kessel and M. Herrmann, cfi/Ber. DKG 85 (2008) No.13 p. 39-42 |
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51. |
Influence of starting powder on the microstructure of WC–Co hardmetals obtained by spark plasma sintering, S.G. Huanga, K. Vanmeensel, L. Lib, O. Van der Biest and J. Vleugels, Materials Science and Engineering A 475 (2008) 87–91 |
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52. |
Magnesium Aluminate Spinel Consolidated by FAST (Field Assisted Sintering Technique): Grain Growth Phenomena, S. Meir, S. Kalabukhov, N. Frumin, M. P. Dariel, N. Frage, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.434-438 |
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53. |
Microstructure and properties of boron carbide processed by FAST (Field Assisted Sintering Technology), S. Hayun, M. P. Dariel and N. Frage, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.200-205 |
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54. |
Nanocomposites consolidated by SPS Technology. O. Zgalat-Lozynskyy, A. Ragulya, M. Herrmann, M. Zamula, A. Deravyanko, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.443-449" |
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55. |
NbC as grain growth inhibitor and carbide in WC–Co hardmetals, S.G. Huang, R.L. Liu, L. Li, O. Van der Biest and J. Vleugels, International Journal of Refractory Metals & Hard Materials 26 (2008) p. 389–395 |
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56. |
Pulsed electric current sintering of electrically conductive ceramics, K. Vanmeensel, S. G. Huang, A. Laptev, S. A. Salehi, A. K. Swarnakar, O. Van der Biest and J. Vleugels, J Mater Sci (2008) 43: p 6435–6440 |
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57. |
Rapid Hot Pressing of Copper Composites for Electronics’ Cooling Applications, Th. Schubert*, T. Weißgärber, B. Kieback, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.200-205 |
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58. |
Sintering and characterization of WC-NbC-Co hardmetals with VC and Cr3C2 additive, S.G. Huang, L. Li, O. Van der Biest, J. Vleugels, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.342-349 |
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59. |
Spark Plasma Sintering of Advanced Hard Materials, O. Van der Biest, S. Huang, K. Vanmeensel, A. Laptev, J. Vleugels, Advanced Processing for Novel Functional Materials (APNFM 2008), Dresden, 23 – 25 January 2008, pp.7-13 |
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60. |
Spark Plasma Sintering of Conductive and Nonconductive Composites (BN-TiB2), M. Herrmann, J. Raethel, W. Beckert, International Conference on Sintering November 16-20, 2008 La Jolla (California, USA) |
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61. |
Tailored sintering of VC-doped WC–Co cemented carbides by pulsed electric current sintering, S.G. Huang, K. Vanmeensel, L. Li, O. Van der Biest and J. Vleugels, International Journal of Refractory Metals & Hard Materials 26 (2008) p. 256–26 |
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62. |
Temperature distribution during Spark Plasma Sintering; J. Raethel, M. Herrmann, W. Beckert, International Workshop on Spark Plasma Sintering; Avignon, France; 06.-07.10.2008 |
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63. |
VC- and Cr3C2-doped WC–NbC–Co hardmetals, S.G. Huang, L. Li, O. Van der Biest and J. Vleugels, Journal of Alloys and Compounds 464 (2008) p. 205–211 |
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64. |
Y2O3 and Nd2O3 co-stabilized ZrO2-WC composites, Sedigheh Salehi, Omer Van der Biest and Jef Vleugels, J Materials Science (2008) 43 p 5784–5789 |
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65. |
Bulk Nanoceramics and Nanocomposites: Processed by Pulsed Electric Current Sintering (PECS), O. Van der Biest, K. Vanmeensel, S. Huang and J. Vleugels, MS&T 09, Pittsburgh October 25-29, 2009 |
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66. |
Temperature distribution for electrically conductive composite material; Räthel, J.; Herrmann, M.; Vortrag; Sintering 2009; 07-11.10.2009; Kiev, Ukraine |
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67. |
Neuartige Stahl-Hartstoff-Verbundwerkstoffsysteme - ein möglicher Schlüssel zur Kraftstoffreduktion, A. Winkelmann, A.M. Huber, R. Oberacker, S. Schwarz, J. Hennicke, A. Nagel, S. Reymann, 2009, Hagener Symposium |
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68. |
Novel Current Induced Short-Time Sintering Processes for the Production of Diamond Tools, W. Tillmann, C. Kronholz, M. Ferreira, EuroPM 2009 |
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69. |
Sintered Materials on the Way to Production by Means of Modern SPS Technologies, H.U. Kessel, cfi/Ber.DKG 86 [10] (2009) E145-E154. |
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70. |
Spark Plasma Sintering/ Field Assisted Sintering of Ceramic Materials, M. Herrmann, J. Raethel and I Schulz, Interceram, Vol.58 (2009), No.2-3, pp.109-114 |
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71. |
Temperature distribution for electrically conductive and non-conductive materials during Field Assisted Sintering (FAST), J. Räthel, M. Herrmann and W. Beckert, Journal of the European Ceramic Society 29 (2009) p.1419–1425 |
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72. |
Y2O3–Nd2O3 double stabilized ZrO2–TiCN nanocomposites, S. Salehi, B. Yüksel, K. Vanmeensel, O. Van der Biest and J. Vleugels, Materials Chemistry and Physics 113 (2009) p. 596–601 |
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73. |
FAST/SPS - Schnellsintertechnik und ihre Anwendung in Labor und Produktion, H.U.Kessel, J.Hennicke, Handb. Techn. Keram. Werkst. (Ed.: J.Kriegesmann), Kap. 3.6.7.1., Jan. 2010 |
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74. |
Spark Plasma Sintering of Novel Materials - taking the next step towards industrial production, H.U.Kessel, J.Hennicke, R.Kirchner, T.Kessel, (ICACC-S8-060-2010), 34th International Conference on Advanced Ceramics and Composites, American Ceramic Society, January 24-29, 2010, Daytona Beach, FL, USA |
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75. |
Rapid Sintering of Novel materials by FAST/SPS – Further Development to the Point of an Industrial Production Process with High Cost Efficiency, H.U.Kessel, J.Hennicke, R.Kirchner, T.Kessel, Februar 2010 |
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76. |
Kurzzeitsintern neuer Materialien mittels FAST/SPS - Vom Labor zum kosteneffizienten Produktionsverfahren, H.U.Kessel, J.Hennicke, R.Kirchner, T.Kessel, April 2010 |
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77. |
Fast Siliconization of C/C-Preforms via LSI, A. Konschak, R. Schulte, W. Krenkel, J. Hennicke, H.U. Kessel, 7th International Conference on High Temperature Ceramic Matrix Composites HTCMC 20-22 Sept 2010, Bayreuth, Germany |
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78. |
Kurzzeitsintern zur kosteneffektiven Produktion und Werkstoffentwicklung, H.U. Kessel, J. Hennicke, T. Kessel, cfi/Ber. DKG 87 (2010) No. 10, D15-D18 |
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79. |
Short-Time Sintering for Cost-Efficient Production and Material Development, H.U. Kessel, J. Hennicke, T. Kessel, cfi/Ber. DKG 87 (2010) No. 10, E23-E26 |
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80. |
Kurzzeitsintern als Produktionsverfahren für die Pulvermetallurgie, J. Hennicke, H.U. Kessel, T. Kessel, 2010, Hagener Symposium |
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81. |
2010 Hagen Symposium Reports: Nanostructured PM Materials, G.Schlieper, http://www.ipmd.net/articles/001052.html |
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82. |
2010 Hagen Symposium Reports: Aluminium alloys for demanding applications, G.Schlieper, http://www.ipmd.net/articles/001085.html |
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83. |
2010 Hagen Symposium Reports: Improved material properties with short-time sintering, G.Schlieper, http://www.ipmd.net/articles/001095.html |
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84. |
2011-07 CFI Sonderdruck: Effiziente Sinteranlagen für die Produktion von Ingenieurkeramik, J. Hennicke, H.U. Kessel, R. Kirchner, cfi/Ber. DKG 88 (2011) No. 6-7 D21-D24
2011-07 Reprint from CFI: Efficient Sintering Equipment for the Production of Engineering Ceramics, J. Hennicke, H.U. Kessel, R. Kirchner, cfi/Ber. DKG 88 (2011) No. 6-7 E33-E36 |
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