Effect of Nb on Thermal-Shock Resistance of Austenitic Heat Resistant Cast Steel

Okuyama, Toru; Higashizono, Takumi; Luan, Ngo Huynh Kinh; Kudo, Masaki

doi:10.2320/matertrans.mt-m2020121

Cited by 3 publications

(1 citation statement)

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“…．そのような中において，Nb の添加は耐熱鋼のクリープ特性と熱衝撃特性を向上させるばかりでなく，破断の一因となる浸炭層中のき裂進展を抑制する効果がある [13][14][15] ．実用面で考えた場合，熱処理治具の実使用 Fig. 12 Comparison of creep rupture time between as-cast samples and 10-cycle vacuum carburized samples.…”

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Changes in Carburized Microstructures and Creep Properties of Nb-Added SCH13A Heat-Resistant Cast Steel due to Different Pouring Temperatures

Okuyama,

Luan,

Kudo

et al. 2023

J. Japan Inst. Metals and Materials

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The relationship between pouring temperature and carburized microstructure of 1％Nb-added SCH13A heat-resistant cast steel manufactured by the self-hardening mold casting process at pouring temperatures of 1753 K, 1823 K and 1883 K was investigated. The creep properties of these materials subjected to repeated carburizing and quenching treatment were also examined. As a result, with increasing pouring temperature, the carburized depth decreases and the carbon concentration distribution in the carburized layer increases. A relative comparison of the creep properties revealed that the volume of primary carbides and the number of voids and micro-cracks in carbides generated due to repeated vacuum carburizing quenching treatment affected the creep rupture time. Creep rupture time of the carburized specimens was shorter than that of the as-cast specimens. Additionally, pouring at 1823 K exhibits the longest rupture time among the samples poured at three different temperatures.

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