TS-106 Development of a High-Temperature, High-Speed Seal for an Advanced Gas Generator Use(Session D-6 Bearing and Seals)
スポンサーリンク
概要
- 論文の詳細を見る
This report describes development of a main shaft seal, an important machine element of an advanced gas generator. It is predominant to develop a new seal design and its face material for an advanced gas generator in a high-temperature and high-speed, which condition is severely beyond current seal application. The authors developed improved carbon with high oxidation resistance and superb friction wear characteristic in a high-temperature, high-speed condition, and one-ring structured seal design was selected due to pressure load reducing mechanism. The test piece was manufactured to evaluate seal performance under a various condition by a test rig.
- 1999-11-14
著者
-
KONO T.
Research Center for Prediction of Earthquakes and Volcanic Eruptions, Graduate School of Science, To
-
OKADA K.
Research Center, Kyorin Pharmaceutical Co., Ltd.
-
Osada H.
Research Institute Of Advanced Material Gas-generator
-
Kono T.
Research Institute Of Advanced Material Gas-generator
-
MURAKAMI M.
Research Institute of Advanced Material Gas-Generator
-
MATSUI S.
Research Institute of Advanced Material Gas-Generator
-
YAMAMOTO S.
Research Institute of Advanced Material Gas-Generator
-
Kono T.
Research Center For Prediction Of Earthquakes And Volcanic Eruptions Graduate School Of Science Toho
関連論文
- Aftershock distribution and 3D seismic velocity structure in and around the focal area of the 2004 mid Niigata prefecture earthquake obtained by applying double-difference tomography to dense temporary seismic network data
- Utility of a novel chamber for sperm analysis In rats : Poster Sessions
- TS-106 Development of a High-Temperature, High-Speed Seal for an Advanced Gas Generator Use(Session D-6 Bearing and Seals)
- Aftershock distribution and 3D seismic velocity structure in and around the focal area of the 2004 mid Niigata prefecture earthquake obtained by applying double-difference tomography to dense temporary seismic network data