九州大学 研究者情報
発表一覧
張 炳國(じやん びよん くつく) データ更新日:2020.07.08

教授 /  総合理工学研究院 IFC部門 総合理工学府 量子プロセス理工学専攻 光機能材料工学大講座


学会発表等
1. 富田悠志、張炳國、上野俊吉, Al6Si2O13相及びY2Si2O7相のCMAS腐食についての検討, 日本材料科学会、平成30年度学術講演大会, 2018.05.
2. 李址煥、金炳男、張炳國, Effect of mold materials on transparent Y2O3 ceramics during spark plasma sintering, 日本セラミック協会2019 年年会, 2019.03.
3. 李址煥、金炳男、張炳國, Effects of heating rates and holding times on sintering uniformity in spark plasma sintered transparent yttria, 日本材料科学会、2019年度学術講演大会, 2019.05.
4. 李址煥、張炳國, Microstructural evolution of polymer precursor-derived SiC fabricated by spark plasma sintering, 日本材料科学会、2019年度学術講演大会, 2019.05.
5. J.H.Lee andB.K.Jang, Effect of the Liquid Phase SiO2 on the Densification of Polycarbosilane-derived SiC Ceramics, 5th Korea- Japan International Symposium on Materials Science and Technology 2018 (KJMST2018), 2018.11, Silicon carbide (SiC) is a very important for high temperature structural materials with excellent properties. SiC is one of the representative materials that has low sinterability. Due to the low sinterability as disadvantage, polymer precursor route and spark plasma sintering can be applied. Amorphous polycarbosilane powder that heat-treated at 1000°C was used to sintering. Using the SPS method, the PCS powder was sintered without additives at various sintering temperatures (1700, 1800, and 1900°C) and pressures (40 and 80 MPa). Both the applied sintering temperature and pressure had a strong influence on the densification of SiC. A SiC disc sintered at 1900°C under a pressure of 80 MPa showed an average relative density of 95%. In the SiC discs sintered at 1800 and 1900°C under a pressure of 80 MPa, the microstructure consisted of core, intermediate and rim regions: porous structure with only a β-SiC phase in the rim region; dense structure with α-SiC, graphite, and amorphous SiO2 in the core region; and a similar microstructure with a core region but denser in the intermediate region..
6. B.K.Jang, K.S.Lee, S.W.Kim, Y.S.Oh and H.T.Kim, Thermal and Mechanical Properties of ZrO2 based Thermal Barrier Coatings, 2018 Spring Meeting of The Korean Ceramic Society, 2018.04.
7. B.K. Jang, Mechanical Properties of CNTs Reinforced Ceramic Composites, he 6th International on the Chracterization and Control of Interfaces for High Quality Advanced Materials (ICCCI2018), 2018.07.
8. B.K. Jang, S.W. Kim, Y.S.Oh, S.M.Lee and H.T.Kim, Thermo-Corrosive and Mechanical Properties of ZrO2 based Thermal Barrier Coatings, The 35th International Japan-Korea Seminar on Ceramics (KJ Ceramics 35), 2018.11.
9. B.K. Jang, S.W. Kim, Y.S.Oh and H.T.Kim, Corrosive Behavior of Yb2SiO5 by CMAS and Volcanic Ash for Environmental Barrier Coatings, 43rd International Conference and Expo on Advanced Ceramics and Composites (ICACC2019), 2019.01.
10. B.K. Jang, Microstructural Evolution of Polymer Precursor-derived SiC on Core/Rim Structure, Microstructural Evolution of Polymer Precursor-derived SiC on Core/Rim Structure, 2019.01.
11. B.K. Jang, Thermo-Corrosive Properties of Yb2SiO5 Environmental Barrier Coatings, Advanved Research Workshop Engineering Ceramics 2019, 2019.05.
12. B.K. Jang, K. Yasuda, S.W. Kim, Y.S. Oh and H.T Kim, Corrosive and Mechanical Properties of ZrO2 Thermal Barrier Coatings by Thermal Exposure, 14th International Ceramic Congress (CIMTEC 2018), 2018.06.
13. 張炳國, Hyung-Tae Kim, SPS法によるZrO2-Gd2Zr2O7複合材料の作製と熱伝導率の特性, 日本セラミックス協会, 2014年年会, 2014.03.
14. 鈴木優人, 上野俊吉, 近藤直樹, 張炳國, 共晶系耐環境皮膜を有するSiC の作製と耐食性評価
, 日本セラミックス協会, 2014年年会, 2014.03.
15. H.T.Kim, W.J. Lee, Y.S.Oh, S.W.Kim,B.K.Jang, Thermal Properties and Microstructure Evolution of Rare-earth added Zirconate for TBC Fabricated by Suspension Plasma Spray, 日本材料科学会、平成26年度学術講演大会, 2014.06.
16. S.W. Myoung, J.H. Lee, Y.G.Jung, B.K.Jang, Microstructure Evolution and Thermal Stability of Thermal Barrier Coatings in Cyclic Thermal Exposure, 日本材料科学会、平成26年度学術講演大会, 2014.06.
17. 古川裕貴,張炳國,上野俊吉, 集光加熱を利用したZrO2系耐環境皮膜の作製, 古川裕貴,張炳國,上野俊吉, 2014.11.
18. 瀬谷恭佑,張炳國,上野俊吉, 集光加熱を利用したHfO2系耐環境皮膜の作製, 平成26年度日本セラミックス協会東北北海道支部研究発表会, 2014.11.
19. 張炳國,西村聡之, Young-Wook Kim, 導電性SiCセラミックスの熱的・電気的特性に及ぼすY2O添加剤の影響, 日本セラミック協会2015年年会, 2015.03.
20. 瀬谷恭佑, 古川裕貴, 上野俊吉, 張炳國, 集光加熱を利用したHfO2-Al2O3 共晶耐環境皮膜の作製, 日本セラミック協会2015年年会, 2015.03.
21. F.J.Feng, K.S. Lee, G.G.Eugenio, B.K.Jang, Thermal Behavior and Mechanical Properties of Y2SiO5 Coatings after Isothermal Heat Treatment, 日本材料科学会、平成27年度学術講演大会, 2015.06.
22. 居城奈菜美,張炳國,上野俊吉, 共晶ガラスの結晶化を利用したYb2Si2O7-Mullite 共晶皮膜の作製, 日本材料科学会、平成27年度学術講演大会, 2015.06.
23. 古川裕貴,張炳國,上野俊吉, ZrO2-CaZrO3 共晶系耐環境皮膜の作製, 日本材料科学会、平成27年度学術講演大会, 2015.06.
24. 瀬谷恭佑,張炳國,上野俊吉, Al2O3-HfO2 共晶系耐環境皮膜の作製, 日本材料科学会、平成27年度学術講演大会, 2015.06.
25. 鈴木 洋平,居城 奈菜美,上野 俊吉,張炳國, Y2Si2O7-mullite共晶組成を有するガラスの結晶化, Y2Si2O7-mullite共晶組成を有するガラスの結晶化, 2015.08.
26. 古川 裕貴,瀬谷 恭佑,上野 俊吉,張炳國, 皮膜組成物の高温反応を利用した耐環境皮膜の作製に関する問題点, 日本材料科学会主催、第22回若手研究者討論会, 2015.08.
27. 鈴木洋平,多田朋央,居城奈菜美, 張炳國,上野俊吉, Y2Si2O7-mullite共晶組成ガラスの結晶化と高温相安定性, 平成27年度日本セラミックス協会 東北北海道支部郡山地区セミナー, 2015.10.
28. 瀬谷恭佑,張炳國,上野俊吉, Al2O3‐HfO2共晶構造を有する耐環境皮膜の形成メカニズム, 平成27年度日本セラミックス協会東北北海道支部研究発表会, 2015.10.
29. 居城奈菜美,鈴木洋平,鈴木優人,張炳國,上野俊吉, 共晶組成ガラスの結晶化挙動と耐環境皮膜への応用, 平成27年度日本セラミックス協会東北北海道支部研究発表会, 2015.10.
30. 張炳國, 安田公一, ZrO2 熱遮蔽コーティングンの熱・機械的特性, 第25回日本MRS年次大会, 2015.12.
31. B.K. Jang,F.J. Feng, K.S. Lee, Thermal Behavior and Mechanical Properties of Y2SiO5 Coatings after Isothermal Heat Treatment, 日本セラミック協会2016年年会, 2016.03.
32. 箭内 哲也、瀬谷 恭祐、上野 俊吉、張 炳國, Al2O3-ZrO2共晶とSiC基材との超高温域における反応性, 日本セラミック協会2016年年会, 2016.03.
33. 上野 俊吉、鈴木 洋平、多田 朋央、箭内 哲也、張 炳國, 2Si2O7-mullite共晶組成ガラスの結晶化と複相組織形成, 日本セラミック協会2016年年会, 2016.03.
34. 菅野直登,鈴木洋平,多田朋央,上野俊吉, 張炳國, Y2Si2O7-mullite 共晶組成を有するガラスの分相による複相組織形成, 日本材料科学会、平成28年度学術講演大会, 2016.06.
35. 古川裕貴,瀬谷恭佑,張炳國,上野俊吉, Al2O3-ZrO2 共晶皮膜の作製, 日本材料科学会、平成28年度学術講演大会, 2016.06.
36. 菅野直登,張炳國,上野俊吉, 融-急冷固化で作製したYb2Si2O7-Al6Si2O13共晶組成ガラスの結晶化, 日本材料科学会、平成29年度学術講演大会, 2017.06.
37. 富田悠志,張炳國,上野俊吉, Al6Si2O13相及びY2Si2O7相のCMAS腐食についての検討, 日本材料科学会、平成30年度学術講演大会, 2018.05.
38. B.K.Jang, Thermal and Mechanical Properties of ZrO2-Y2O3 Thermal Barrier Coatings by Thermal Exposure, The 13th International Symposium on Advanced Materials and Technology (ISAMT2017), 2017.05.
39. B.K.Jang, Thermal and Chemical Properties of YSZ Thermal Barrier Coatings by Thermal Exposure, 2017 Spring Meeting of the Korean Ceramic Society, 2017.04.
40. B.K.Jang, ZrO2 Based Thermal Barrier Coatings for Gas Turbine Application, International Seminar for Strucural Ceramics, 2017.03.
41. B.K.Jang, Durability Properties of ZrO2-Y2O3 Thermal Barrier Coatings for Long-Term Use at High Temperature, The 18th International Symposium on Eco-materials Processing and Design, 2017.02.
42. B.K.Jang, Microstructure Evolution and Fabrication of Low Thermal Conductivity ZrO2 Based Composites, 41st International Conference and Expo on Advanced Ceramics and Composite, 2017.01.
43. B.K.Jang, Cyclic Properties and TGO formation of ZrO2 Thermal Barrier Coatings by Thermal Exposure, 41st International Conference and Expo on Advanced Ceramics and Composite, 2017.01.
44. B.K.Jang, Mechanical Properties of Y2SiO5 Coatings for Gas Turbine Application, The 3rd Korea Japan International Symposium on Materials Science and Technology, 2016.06.
45. B.K.Jang, Thermal Behavior of Y2SiO5 coatings on SiC ceramics, 4th International Symposium on New Frontier of Advanced Si-Based Ceramics and Composites, 2016.09.
46. B.K.Jang, Degradation and Mechanical Properties of ZrO2-4mol% Y2O3 Thermal Barrier Coatings, 9th Pacific Rim International Conference on Advanced Materials and Processing, 2016.08.
47. B.K.Jang, Thermal Conductvity of ZrO2-Y2O3 Thermal Barrier Coatings by EB-PVD, The 12nd International Symposium on Advanced Materials and Technology (ISAMT2016), 2016.05.
48. B.K.Jang, Thermal and Mechanical Properties of Y2O3 Stabilized ZrO2 Thermal Barrier Coatings”, The 32nd International Japan-Korea Seminar on Ceramics (JK Ceramics 32), 2015.11.
49. B.K.Jang, Thermal-Mechanical Properties of Y2O3-Stabilized ZrO2 Thermal Barrier Coatings Fabricated by EB-PVD, The 11th Pacific Rim Conference of Ceramics Societies, 2015.08.
50. B.K.Jang, Degradation and Thermal Properties of Porous ZrO2 Thermal Barrier Coatings, International Conference on Materials Challenges in Alternative & Renewable Energy (MCARE2015), 2015.02.
51. B.K.Jang, Thermal Properties of Y2O3 doped ZrO2 Thermal Barrier Coatings, The 31st International Korea-Japan Seminar on Ceramics, 2014.11.
52. B.K.Jang, Thermophysical Properties and Fabrication of ZrO2 Based Composites by Rare Earth Oxide Addition, AKC2014 (4thAsia-Korea Conference on Science and Technology 2014), 2014.11.
53. B.K.Jang, Thermal Barrier Coatings by EB-PVD for Gas Turbine Application, Korea-Japan International Symposium on Materials Science and Technology 2014 (KJMST 2014), 2014.11.
54. B.K.Jang, Application and Development of Low Thermal Conductivity ZrO2 Based Composites, ICC5 (5th International Congress on Ceramics), 2014.08.
55. B.K.Jang, Corrosive and Thermal Properties of Y2O3-Stabilized ZrO2 Thermal Barrier Coatings, IUMRS-ICA2014 (International Union of Materials Research Societies), 2014.08.
56. B.K.Jang, Influence of Y2O3 Addition on Thermal-Electrical Properties of SiC Ceramics, ISSBOX4(4th International Symposium on Sialons and Non-Oxides), 2014.05.
57. B.K.Jang, State-of-the-art Application and Development of Low Thermal Conductivity ZrO2 Based Composites, The 9th International Symposium on Advanced Materials and Techlogies (ISAMT 2014), 2014.05.
58. B.K. Jang, Corrosion behavior and Characteristics of Y2SiO5 Environmental Barrier Coatings, The 14th International Symposium on Advanced Materials and Technology (ISAMT2018), 2018.06.
59. B.K. Jang, Mechanical properties of CNTs reinforced ceramics nanocomposites, 42nd International Conference and Expo on Advanced Ceramics and Composite, 2018.01.
60. B.K. Jang, Thermo-Corrosive Properties by CMAS and Volcanic Ash of RE-doped Silicate Environmental Barrier Coatings, 42nd International Conference and Expo on Advanced Ceramics and Composite, 2018.01.
61. B.K. Jang, Corrosive Properties and Fabrication of Y2SiO5 Environmental Barrier Coatings, The 34th International Japan-Korea Seminar on Ceramics, 2017.11.
62. B.K. Jang, Thermo-Chemical and Mechanical Properties of ZrO2 based Thermal Barrier Coatings for Gas Turbine Application, 2017 Fall Conference of the Materials Science and Technology of Korea, 2017.11.
63. B.K. Jang, Thermo-Chemical Properties of Y2SiO5 Environmental Barrier Coatings, The 15th International Conference on Advanced Materials (IUMRS-ICAM 2017), 2017.08.
64. B.K. Jang, Corrosion Behavior of Y2SiO5 Environmental Barrier Coatings by CMAS under High Temperature Exposure, The 4th Japan-Korea International Symposium on Materials Science and Technology (JKMST2017), 2017.08.
65. B.K. Jang, Characteristics by High Temperature Exposure of RE-doped Silicate Environmental Barrier Coatings”, The 12th Pacific Rim Conference on Ceramics and Glass Technology, 2017.05.
66. 張炳國、鈴田佳子、松下能孝、上野俊吉, 耐環境コーティング用Yb2SiO5焼結体の高温耐食性
, 2018年日本セラミックス協会2018年 年会, 2018.03.
67. 張炳國、上野俊吉, Y2SiO5耐環境コーティングの高温での微細構造やCMAS腐食, 日本セラミックス協会回秋季シンポジウム, 2017.09.

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