Takeji Kaito scite author profile

The effects of chemical compositions (titanium, oxygen) and consolidation temperature on high-temperature mechanical properties of 9Cr-oxide dispersion strengthened steel (9CrODS steel) were investigated. A possible high-temperature strengthening mechanism of 9CrODS steel was discussed based on the experimental results. Creep strength of 9CrODS steel at 973 K was remarkably improved when titanium concentration was 0.35 mass%. A higher amount of added titanium than 0.2 mass% was effective for providing consistently reliable manufacturing of high strength 9CrODS steel because it reduced the effect of oxygen contamination on high-temperature strength. The fraction of elongated -ferrite grains, which had an ultra-fine oxide particle dispersion, tended to increase with increasing titanium. The elongated grains were considered to improve creep strength of 9CrODS steel. It was also found that creep strength was degraded by elevating the consolidation temperature from 1423 K to 1473 K.

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High-temperature strength characterization of advanced 9Cr-ODS ferritic steels

Ukai

Ohtsuka

Kaito

et al. 2009

Materials Science and Engineering: A

125

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Takeji Kaito

A new method for the quantitative analysis of the scale and composition of nanosized oxide in 9Cr-ODS steel

Improvement of 9Cr-ODS martensitic steel properties by controlling excess oxygen and titanium contents

Production and Properties of Nano-scale Oxide Dispersion Strengthened (ODS) 9Cr Martensitic Steel Claddings

Improvement of Creep Strength of 9CrODS Martensitic Steel by Controlling Excess Oxygen and Titanium Concentrations

High-temperature strength characterization of advanced 9Cr-ODS ferritic steels

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