Mo-SiO2 functionally graded materials for high intensity discharge lamp

Ayumu Umemoto; Koichi Hayashi; Kunihiko Nakashima; Noritaka Saito; Kenji Kaneko; Keisaku Ogi

Mo-SiO₂ functionally graded materials for high intensity discharge lamp

Ayumu Umemoto, Koichi Hayashi, Kunihiko Nakashima, Noritaka Saito, Kenji Kaneko, Keisaku Ogi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The conventional high intensity discharge lamps are made of Mo foil-sealing method, in which the Mo-metal of 30 μm thick is sandwiched by the fused silica envelope. The conventional high intensity discharge lamps therefore requires cooling system to reduce the thermal stress between Mo and fused silica during the switching operation and a lung sealing zone is usually required to complete hermeticity, especially in high power devices, so that the production of compact high intensity discharge lamps has been a Herculean task, Here, we show the invention of the new type of hermetically-sealed high intensity discharge lamps, made of Mo-SiO₂ functionally graded material (FGM) as an electrode and a sealing component. In the case of high intensity discharge lamps with Mo-SiO₂ FGM (FGM-Lanip), the thermal expansion coefficient between Mo and SiO₂ is functionally graded so that it tolerates a large number of heating cycles, with no cooling system are required, Furthermore lamps survive without breakage of lamp takes place, The W electrode is totally separated from the lamp envelope by the FGM, so that no leakage of the luminous elements or gases takes place, when a large gas pressure exists inside a lamp.

Original language	English
Title of host publication	Developments and Applications of Advanced Engineering Ceramics and Composites - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6
Pages	53-58
Number of pages	6
Publication status	Published - 2006
Event	6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6 - Maui, HI, United States Duration: Sept 11 2005 → Sept 16 2005

Publication series

Name	Ceramic Transactions
Volume	192
ISSN (Print)	1042-1122

Other

Other	6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6
Country/Territory	United States
City	Maui, HI
Period	9/11/05 → 9/16/05

All Science Journal Classification (ASJC) codes

Ceramics and Composites
Materials Chemistry

Cite this

Umemoto, A., Hayashi, K., Nakashima, K., Saito, N., Kaneko, K., & Ogi, K. (2006). Mo-SiO₂ functionally graded materials for high intensity discharge lamp. In Developments and Applications of Advanced Engineering Ceramics and Composites - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6 (pp. 53-58). (Ceramic Transactions; Vol. 192).

Mo-SiO₂ functionally graded materials for high intensity discharge lamp. / Umemoto, Ayumu; Hayashi, Koichi; Nakashima, Kunihiko et al.
Developments and Applications of Advanced Engineering Ceramics and Composites - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6. 2006. p. 53-58 (Ceramic Transactions; Vol. 192).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Umemoto, A, Hayashi, K, Nakashima, K , Saito, N , Kaneko, K & Ogi, K 2006, Mo-SiO₂ functionally graded materials for high intensity discharge lamp. in Developments and Applications of Advanced Engineering Ceramics and Composites - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6. Ceramic Transactions, vol. 192, pp. 53-58, 6th Pacific Rim Conference on Ceramic and Glass Technology, PacRim6, Maui, HI, United States, 9/11/05.

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abstract = "The conventional high intensity discharge lamps are made of Mo foil-sealing method, in which the Mo-metal of 30 μm thick is sandwiched by the fused silica envelope. The conventional high intensity discharge lamps therefore requires cooling system to reduce the thermal stress between Mo and fused silica during the switching operation and a lung sealing zone is usually required to complete hermeticity, especially in high power devices, so that the production of compact high intensity discharge lamps has been a Herculean task, Here, we show the invention of the new type of hermetically-sealed high intensity discharge lamps, made of Mo-SiO2 functionally graded material (FGM) as an electrode and a sealing component. In the case of high intensity discharge lamps with Mo-SiO2 FGM (FGM-Lanip), the thermal expansion coefficient between Mo and SiO2 is functionally graded so that it tolerates a large number of heating cycles, with no cooling system are required, Furthermore lamps survive without breakage of lamp takes place, The W electrode is totally separated from the lamp envelope by the FGM, so that no leakage of the luminous elements or gases takes place, when a large gas pressure exists inside a lamp.",

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AU - Ogi, Keisaku

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AB - The conventional high intensity discharge lamps are made of Mo foil-sealing method, in which the Mo-metal of 30 μm thick is sandwiched by the fused silica envelope. The conventional high intensity discharge lamps therefore requires cooling system to reduce the thermal stress between Mo and fused silica during the switching operation and a lung sealing zone is usually required to complete hermeticity, especially in high power devices, so that the production of compact high intensity discharge lamps has been a Herculean task, Here, we show the invention of the new type of hermetically-sealed high intensity discharge lamps, made of Mo-SiO2 functionally graded material (FGM) as an electrode and a sealing component. In the case of high intensity discharge lamps with Mo-SiO2 FGM (FGM-Lanip), the thermal expansion coefficient between Mo and SiO2 is functionally graded so that it tolerates a large number of heating cycles, with no cooling system are required, Furthermore lamps survive without breakage of lamp takes place, The W electrode is totally separated from the lamp envelope by the FGM, so that no leakage of the luminous elements or gases takes place, when a large gas pressure exists inside a lamp.

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