|
P01 | Calculation of boundary conditions between internal and external oxidation in silicon and chromium containing steels |
| Shohei Nakakubo1, Mikako Takeda1, and Takashi Onishi2 |
| (1Kobe Steel Ltd., Japan, 2Shinko Research Co., Ltd., Japan) |
P02 | Effects of Si Content on the Oxidation Behavior of Fe–Si Alloys in Air |
| T. Nishimoto, K. Honda, Y. Kondo, and K. Uemura |
| (Nippon Steel Corporation, Japan) |
P03 | EKINOX (Estimation KINetics OXidation) model : Examples of calculation to anticipate the evolution in the substrate during alloys oxidation |
| C. Desgranges1, Fl. Lequien1, C. Corvalán-Moya1, C. Toffolon1, E. Aublant2, and M. Nastar1 |
| (1CEA-Saclay, Gif-sur-Yvette, France, 2AREVA-NP, Le Creusot, France) |
P04 | The activity of iron in Pd-Fe system at 823 K |
| T. Mizutani, M. Ueda, K. Kawamura, and T. Maruyama |
| (Tokyo Institute of Technology, Japan) |
P05 | Oxygen potential on the surface at the early stage of oxidation |
| K. Fujita, M. Ueda, K. Kawamura, and T. Maruyama |
| (Tokyo Institute of Technology, Japan) |
P06 | Phase Distribution Analysis in Surface Layer of Annealed Fe-Cr Alloys using Depth Resolved XRF and XAS |
| Kozo Shinoda1, Shigeo Sato1, and Shigeru Suzuki1, Hidenori Toyokawa2, Hajime Tanida2, and Tomoya Uruga2 |
| (1Tohoku Univ., Japan, 2JASRI, Japan) |
P07 | Possibilities for high-temperature corrosion at MPIE |
| D. Vogel, S. Swaminathan, M. Rohwerder, and F.U. Renner |
| (Max-Planck-Institut fuer Eisenforschung, Germany) |
P08 | TEM Characterization of the Internal Reaction Zone on Ni-Based Superalloy TMS-75 |
| Karin Pruessner1, and Hiroshi Harada2 |
| (1University of the Witwatersrand, South Africa, 2National Institute for Materials Science, Japan) |
P10 | Scale surface and scale/alloy interface for alumina- and chromia-forming alloys with noble metals and rare earths |
| Tadaaki Amano |
| (Shonan Institute of Technology, Japan) |
P11 | Evolution of Al2O3 scale formed on Ni-Al-Pt alloys in atmospheres containing water vapor |
| Mitsunari Auchi, Shigenari Hayashi, Toshio Narita, and Shigeharu Ukai |
| (Hokkaido University, Japan) |
P12 | Evolution of Aluminum Oxide under steam at 650º C |
| Alina Agüero1, Vanessa González1, Marcos Gutiérrez1, Marta Hernández1, and Krytina Spyradek2 |
| (1Instituto Nacional de Técnica Aeroespacial, Spain, 2 Austrian Research Centres GmbH, Austria) |
P13 | Detection of breakaway oxidation with Acoustic Emission during titanium oxide scale growth |
| Minh-Thi Tran1, Mickaël Boinet2, Alain Galerie1, and Yves Wouters1 |
| (1University of Grenoble, France, 2Euro Physical Acoustics SA, France) |
P14 | Determination of the epitaxial strains of a thermally grown oxide on a metallic substrate |
| Lukasz KURPASKA, Jerome FAVERGEON, Laurent LAHOCHE, Gerard MOULIN, and Jean-Marc ROELANDT |
| (Université de Technologie de Compiègne, France) |
P15 | Effect of Ce-Al solution spray coating on high temperature oxidation of carbon steel |
| I. Saeki1, E. Harada1, K. Tsunekawa1, K. Matsuoka1, Y. Naramitate1, Y. Sugiyama1, T. Sato1, and Y. Watanabe2 |
| (1Muroran Institute of Technology, Japan, 2Nippon Steel Corporation, Japan) |
P16 | Effect of Oxidation Temperature to Descaling Properties of the Scale formed on Silicon Containing Steel |
| K. Yanagihara |
| (Nippon Steel Corporation, Japan) |
P17 | Failure Characteristics of Scales Formed on Si-containing Low Carbon Steels during Cooling -Influences of Cooling Rate and Water Vapor- |
| H. Nakata1, A. Yamauchi1, S. Taniguchi1, I. R. Sohn2, J. W. Choi2, and K. Kurokawa1 |
| (1Hokkaido University, Japan, 2POSCO Co., LTD., Korea) |
P18 | Mechanical Adhesion and Pickling Behaviour of Thermal Oxide Scales on Hot-rolled Low Carbon Steel Strips Produced by Different Finishing Temperatures |
| Komsan Ngamkham1, Satian Niltawach1, and Somrerk Chandra-ambhorn2 |
| (1The Sirindhorn International Thai-German Graduate School of Engineering, Thailand, 2King Mongkut’s University of Technology North Bangkok, Thailand) |
P19 | Suppression of Surface Hot Shortness Caused by Copper during Hot Rolling |
| Yasumitsu Kondo |
| (Nippon Steel Corporation, Japan) |
P20 | Alumina–zirconia composite coating by electrophoretic deposition and thermal pressure filteration sintering |
| Jin ZHANG, Haiming GUO, Chao REN, Sha LAN, and Yedong HE |
| (University of Science and Technology Beijing) |
P21 | Characterization of thermally grown oxide in thermal barrier coating with cold sprayed bond coating |
| A.N. Manap, D.W. Seo, and K. Ogawa |
| (Tohoku University, Japan) |
P22 | Cross-sectional TEM Characterization of Re-based Diffusion Barrier on Nb Substrate |
| S. Eni, Y. Wang, N. Hashimoto, S. Ohnuki, and T. Narita |
| (Hokkaido University, Japan) |
P23 | Effect of Testing Procedure and Coating Microstructure on Lifetime of Thermal Barrier Coatings during Thermal Cycling |
| V. Shemet, D. Naumenko, P. Song, L. Singheiser, and W.J. Quadakkers |
| (Forschungszentrum Jülich GmbH, Germany) |
P24 | Enhanced cyclic oxidation resistance of single crystal superalloy with electrolytic rare earth oxides |
| F. Pedraza1, B. Bouchaud1, J. Balmain1, G. Bonnet1, and J. Menuey2 |
| (1Université de La Rochelle, France, 2Service Recherche et Technologie, SNECMA, France) |
P25 | Evaluation of mechanical properties for chromium carbide coatings |
| Yoshinori Isomoto Oka, and Koji Goto |
| (Hiroshima University, Japan) |
P26 | High Temperature Oxidation of Advanced High Strength Steel: HT-XRD Method for Quantitative Evaluation |
| T.K.Rout, J.Go, A.V.Gaikwad, and S. Melzer |
| (Tata Steel Group (Europe), The Netherlands) |
P27 | Microsrtuctural aspects of plain and Pt-aluminide coatings on Ni-base superalloy Rene-80 |
| A. Rashidghamat1, K. Shirvani2, and M. Firouzi1 |
| (1Islamic Azad Uni., Iran, 2IROST, Iran) |
P28 | Role of the bondcoat manufacturing route on the life of an EB-PVD TBC deposited on Pt-diffused bondcoat |
| L. Chirivì, K. A. Long, and J. R. Nicholls |
| (Cranfield University, UK) |
P29 | Surface crystal orientation dependence of bond-coated Ni-based single crystal superalloys Their microstructural changes and oxidation resistance |
| Kazuki Kasai1,2, Yoshito Yasui1,2, Kazukiko Noda2, Hideyuki Murakami2 |
| (1National Institute for Materials Science, Japan, 2Shibaura Institute or Technology, Japan) |
P30 | Use of silicon-based coating for high temperature protection of metallic alloys |
| Junyao XU1, Jerome FAVERGEON1, Pierre-Emmanuel MAZERAN1, Gerard MOULIN1, and Can VU2 |
| (1Université de Technologie de Compiègne, France, 2Group Technology / NBD/ Advanced Materials, France) |
P31 | Internal Oxidation Behavior of Fe-1wt%Si Alloy Annealed under Ar-17.6%H2-12.2%H2O at 1473 K |
| Wei-Ping Huang, Mitsutoshi Ueda, Kenichi Kawamura, and Toshio Maruyama |
| (Tokyo Institute of Technology, Japan) |
P32 | Effect of bond coat compositions on TBC degradation |
| Takeshi Izumi, Hideyuki Arikawa and Yoshitaka Kojima |
| (Hitachi Ltd., Japan) |
P33 | High Temperature Corrosion and Numerical Simulation of PT6T-3B Gas Turbine Engine |
| M. Sánchez Pastén, and J. A. Pérez Bello |
| (Instituto Politécnico Nacional, Mexico) |
P34 | Effect of water vapor on 9%Cr steels high temperature corrosion resistance in cyclic condition |
| Harold Nicolas EVIN1, Olivier HEINTZ1, Cecilia FÖJER2, Serge CLAESSENS2, and Sébastien CHEVALIER1 |
| (1CNRS Université de Bourgogne, France, 2OCAS N.V. ArcelorMittal Global R&D Gent, Belgium) |
P35 | Evaluation of oxygen surface potential at early stage of oxidation in dry and water vapor condition at 1073 K |
| Mohd Hanafi Bin Ani1, Mitsutoshi Ueda2, Kenichi Kawamura2, and Toshio Maruyama2 |
| (1International Islamic University Malaysia, Malaysia, 2Tokyo Institute of Technology, Japan) |
P36 | Main Scale formation of Fe-Al based model alloys in steam |
| F.U. Renner, D. Vogel, A. Vogel, and M. Palm |
| (Max-Planck-Institut fuer Eisenforschung, Germany) |
P37 | Effect of Molybdenum in alloys on coal ash corrosion property |
| Yasuo Matsunaga1, Hirokatsu Nakagawa1, and Kiyokazu Nakagawa2 |
| (1IHI Corporation, Japan, 2IHI Technology Solutions Inc., Japan) |
P38 | Fe-Si Thermal Spray Coating for Fire Side Corrosion and Erosion Protection in Coal-Fired Boiler |
| Toshinari Okagaito1, Yuji Fukuda1, Yoshitaka Kojima2 |
| (1Babcock-Hitachi K.K., Japan, 2Hitachi Ltd., Japan) |
P39 | High Temperature Corrosion of M-40Cr-Ce Alloys as Inert Anodes in Aluminium Electrolysis |
| Yuping Zhu, Yedong He, and Deren Wang |
| (University of Science and Technology Beijing, China) |
P40 | High Temperature Corrosion Resistance of Siliconized Stainless Steel under Continuous Deposition of Salt |
| Naka Sato, Toshiya Kaneta, Michihisa Fukumoto, and Motoi Hara |
| (Akita University, Japan) |
P41 | High temperature oxidation of Crofer 22APU steel in atmosphere containing SO2 |
| Z. Zurek1, A. Stawiarski1, A. Jaroń1, J. Gilewicz-Wolter2 |
| (1Cracow University of Technology, Poland, 2University of Science and Technology-AGH, Poland) |
P42 | High temperature service experience and failure analysis of corroded stainless steel components |
| Pascale Sotto Vangeli, and Bo Ivarsson |
| (Outokumpu Stainless, ARC, Sweden) |
P43 | Improved Corrosion Resistance of Superheater Materials in H2O containing environments via Mn-Diffusion Coatings |
| D. Schmidt, and M. Schütze |
| (Dechema e.V., Germany) |
P44 | Influence of gas tungsten arc welding parameters on the high-temperature erosion-corrosion resistance of Incoloy 800 cladded by Stellite 12 for the application as thermowell |
| P.Promdirek, S. Chandra-ambhorn, R. Prasong, S. Rittirat, and N. Pornpaisansakul |
| (King Mongkut’s University of Technology North Bangkok, Thailand) |
P45 | The classification of corrosion behavior of water wall tube materials in simulated coal combustion atmosphere including H2S |
| Shin Najima, Masahiko Morinaga, and Hiromi Shirai |
| (Central Research Institute of Electric Power Industry, JAPAN) |
P46 | Liquid-Phase Oxidation Joining of Yttria-Stabilized Zirconia and Fe-Cr Alloy via Al Interlayer and Oxygen Permeation along the Joined Interface |
| Takaya Akashi, and Tsunahiro Shimura |
| (Hokkaido University, Japan) |
P47 | Oxidation rate of ZMG232L alloy with an electric current supply |
| Kentaro Okumura, Mitsutoshi Ueda, Kenichi Kawamura, and Toshio Maruyama |
| (Tokyo Institute of Technology, Japan) |
P48 | Corrosion Mechanism of Aluminum Titanate Ceramics in Molten Aluminum Alloy |
| Satoshi KITAOKA1, Makoto TANAKA1, Kazumi KASHIWAGI1, Osamu SAKURADA2, Yutaka OHYA2 |
| (1Japan Fine Ceramics Center, Japan, 2Gifu University, Japan) |
P49 | Crack Healing of Nano-Ni/Al2O3 Hybrid Materials via High-Temperature Oxidation |
| Daisuke Maruoka, and Makoto Nanko |
| (Nagaoka University of Technology, Japan) |
P50 | Effective Region for Self-Healing in SiC Reinforced Ceramics |
| Wataru Nakao, and Kotoji Ando |
| (Yokohama National University, Japan) |
P51 | High Temperature Corrosion Behavior of Si-containing Alloys in the Gas Phase of O2-(Na2SO4-25mass%NaCl) |
| T. Sudiro1, T. Sano1, A. Yamauchi1, S. Kyo2, O. Ishibasi3, M. Nakamori4, and K. Kurokawa1 |
| (1Hokkaido University, Japan, 2Kansai Electric Co. Inc, Japan, 3Osaka Fuji Corporation, Japan, 4High Temperature Corrosion & Protection Technosearch Co. Ltd., Japan) |
P52 | High temperature oxidation of TiAl and TiAl8Nb alloys in air and air-H2O gas mixtures |
| Janusz Prażuch1, Kazimierz Przybylski1, Sébastien Chevalier2, Tomasz Brylewski1 |
| (1AGH University of Science and Technology, Poland, 2CNRS-Université de Bourgogne, France) |
P53 | Improvement of the high-temperature erosion-corrosion resistance of Incoloy 800 by cladding of 25.35.4CNB reinforced by SiC |
| P.Promdirek, S. Chandra-ambhorn, S. Thongkasem, N. Kanchanasin, and N. Walla |
| (King Mongkut’s University of Technology North Bangkok, Thailand) |
P54 | Internal Oxidation of Ni(Al) Solid Solution Zone Prepared with Pack Cementation of Pure Ni |
| Dung Thi Mai Do, and Makoto Nanko |
| (Nagaoka University of Technology, Japan) |
P55 | OXIDATION BEHAVIOR OF Si3N4 CERAMICS PRODUCED BY PULSED ELECTRIC SINTERING |
| L. Ceja-Cárdenas1,2, J. Lemus-Ruiz2, and M. Nanko1 |
| (1Nagaoka University of Technology, Japan, 2UMSNH. Ed. ``U'', México) |
P56 | Oxidation behavior of β-SiAlON in H2O-containing atmosphere |
| A. Yamauchi, Xuemei Yi, T. Akiyama, and K. Kurokawa |
| (Hokkaido University, Japan) |