SINTERED ELECTRICALLY CONDUCTIVE OXIDE THERMISTOR ELEMENT EMPLOYING THE OXIDE AND TEMPERATURE SENSOR EMPLOYING THE THERMISTOR: Fid-Bau Portal

SINTERED ELECTRICALLY CONDUCTIVE OXIDE THERMISTOR ELEMENT EMPLOYING THE OXIDE AND TEMPERATURE SENSOR EMPLOYING THE THERMISTOR

WATANABE HIROSHI / BAN SHINJI / YAMAGUCHI TOMOKI / OKIMURA YASUYUKI / NISHI TOMOHIRO

Abstract

The existing technology may not fulfill a recent requirement for highly heat resistant properties. A sintered body of an electrically conductive oxide has a crystal structure of a perovskite type oxide represented by M1_aM2_bMn_cAl_dCr_eO_f (M1 represents one or more elements among period 3 elements and M2 represents one or more element among Mg, Ca, Sr, and Ba). The M1 element consists mainly of one or more elements selected from among Nd, Pr, and Sm and a, b, c, d, e, f meet the following condition: 0.600 <= a < 1.000; 0 < b <= 0.400; 0 <= c < 0.150; 0.400 <= d < 0.950; 0.050< e <= 0.600; 0.50 < e/(c + e) <= 1.00; 2.80 <= f <= 3.30.

(과제) 종래 기술에서는 최근의 고내열성 요구를 만족시킬 수 없을 우려가 있다. (해결 수단) 도전성 산화물 소결체는, M1M2MnAlCrO(M1 은 3 족 원소의 1 종 이상, M2 는 Mg, Ca, Sr, Ba 의 1 종 이상) 로 나타내는 페로브스카이트형 산화물 결정 구조를 갖는다. 원소 M1 은 Nd, Pr, Sm 에서 선택되는 1 종 이상의 원소를 주로 함유하고, a, b, c, d, e, f 가 0.600 ≤ a ＜ 1.000, 0 ＜ b ≤ 0.400, 0 ≤ c ＜ 0.150, 0.400 ≤ d ＜ 0.950, 0.050 ＜ e ≤ 0.600, 0.50 ＜ e/(c ＋ e) ≤ 1.00, 2.80 ≤ f ≤ 3.30 을 만족시킨다.

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SINTERED ELECTRICALLY CONDUCTIVE OXIDE THERMISTOR ELEMENT EMPLOYING THE OXIDE AND TEMPERATURE SENSOR EMPLOYING THE THERMISTOR

WATANABE HIROSHI / BAN SHINJI / YAMAGUCHI TOMOKI / OKIMURA YASUYUKI / NISHI TOMOHIRO

Abstract

SINTERED ELECTRICALLY CONDUCTIVE OXIDE THERMISTOR ELEMENT EMPLOYING THE OXIDE AND TEMPERATURE SENSOR EMPLOYING THE THERMISTOR

WATANABE HIROSHI / BAN SHINJI / YAMAGUCHI TOMOKI / OKIMURA YASUYUKI / NISHI TOMOHIRO

Abstract

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Titel:

SINTERED ELECTRICALLY CONDUCTIVE OXIDE THERMISTOR ELEMENT EMPLOYING THE OXIDE AND TEMPERATURE SENSOR EMPLOYING THE THERMISTOR

Weitere Titelangaben:

도전성 산화물 소결체, 그것을 사용한 서미스터 소자 및 온도 센서

Beteiligte:

WATANABE HIROSHI (Autor:in) / BAN SHINJI (Autor:in) / YAMAGUCHI TOMOKI (Autor:in) / OKIMURA YASUYUKI (Autor:in) / NISHI TOMOHIRO (Autor:in)

Erscheinungsdatum:

14.10.2016

Medientyp:

Patent

Format:

Elektronische Ressource

Sprache:

Koreanisch

Klassifikation:

IPC: C04B Kalk , LIME / H01B CABLES , Kabel / H01C Widerstände , RESISTORS

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