Grain Boundary Damage Evolution and Rupture Life of Service-exposed 1.25Cr-0.5Mo Steel Welds
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概要
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For components operated under creep regime, Type IV cracking would be the most likely failure mode if they were fabricated from ferritic steels. In the present work, creep behavior of 1.25Cr-0.5Mo steel weldment operated at 500°C for 28 years has been examined. The morphology of grain boundary damage was observed to clear the cause of Type IV cracking. Intergranular failure at the Intercritical HAZ took place in spite of short testing duration, which was less than 1 000 h. Change in feature of damage was observed with time to rupture. The number of cavities and the area of cavitated at failure increased as time to rupture became longer. Specimens broken with short duration showed few cavities resolvable by optical microscopy adjacent to the final intergranular crack path. On the other hand, more profuse cavitation in terms of number and area was observed in the specimens tested for 1 000 h and longer. However, commonly observable feature in both short and long term specimens was preferential damage occurrence at the triple points, proving that Type IV damage was caused by grain boundary sliding. The change in failure location in laboratory tests, where parent material failure often occurs due to too much acceleration, can be explained by relatively low stress exponent and activation energy associated with grain boundary sliding. Therefore, life assessment by conventionally employed Time-Temperature Parameter such as Larson-Miller Parameter could result in non-conservative estimation since equivalent LMP at failure would be smaller with increase in time to rupture.
- 社団法人 日本鉄鋼協会の論文
- 2003-12-15
著者
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Fujibayashi Shimpei
Engineering Design & Technical Department Idemitsu Engineering Co. Ltd.
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Fujibayashi Shimpei
Engineering Center Idemitsu Engineering Co. Ltd.
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FUJIBAYASHI Shimpei
Engineering Center
関連論文
- Life Prediction of Low Alloy Ferritic Steels Based upon the Tertiary Creep Behavior
- Hardness Based Creep Life Prediction for 2.25Cr-1Mo Superheater Tubes in a Boiler
- A Comparative Study on the Θ Projection and the Ω Method
- Cross-weld Creep Behavior and Life Prediction of Low Alloy Ferritic Steels
- Creep Behavior of 2.25Cr-1Mo Steel Shield Metal Arc Weldment
- Effect of Carbide Morphology on the Susceptibility to Type IV Cracking of a 1.25Cr-0.5Mo Steel
- Creep Behavior at the Intercritical HAZ of a 1.25Cr-0.5Mo Steel
- The Effect of Grain Boundary Cavities on the Tertiary Creep Behavior and Rupture Life of 1.25Cr-0.5Mo Steel Welds
- Grain Boundary Damage Evolution and Rupture Life of Service-exposed 1.25Cr-0.5Mo Steel Welds
- Creep Behavior and Rupture Life of the Simulated Intercritical HAZ for 1.25Cr-0.5Mo Steel under a Multiaxial Stress State