通过纳米力学探针对铁素体相在热老化过程中的力学性能变化进行了研究.采用仪器化冲击试验机研究了材料的冲击行为,使用SEM观察冲击断口形貌.结果表明:长期热老化导致铁素体相的塑性变形能力不断下降,材料的冲击韧性也显著下降.热老化过程中冲击功的损失主要是由于裂纹扩展能量的降低引起,在400℃热老化1×104h后裂纹稳定扩展能几乎降为0.热老化材料的冲击断裂过程为:在冲击载荷下裂纹首先在铁素体内萌生并快速扩展,铁素体相发生解理断裂,裂纹扩展到奥氏体相,最后裂纹连接贯穿整个试样.
参考文献
| [1] | Chung H M.Int J Pressure Vessels Piping,1992; 50:179 |
| [2] | Kawaguchi S,Sakamoto N,Takano G,Matsuda F,Kikuchi Y,Mraz L.Nucl Eng Des,1997; 174:273 |
| [3] | Yamada T,Okano S,Kuwano H.J Nucl Mater,2006;350:47 |
| [4] | Pumphrey P H,Akhurst K N.Mater Sci Technol,1990;6:211 |
| [5] | Chung H M,Leax T R.Mater Sci Technol,1990; 6:249 |
| [6] | Hilders O A,Sáenz L,Ramos M,Pe(n)a N D.J Mater Eng Perform,1999; 8:87 |
| [7] | Vrinat M,Cozar R,Meyzaud Y.Scr Mater,1986; 20:1101 |
| [8] | Bonnet S,Bourgoin J,Champredonde J,Guttmann D,Guttmann M.Mater Sci Technol,1990; 6:221 |
| [9] | Hale G E,Garwood S J.Mater Sci Technol,1990; 6:230 |
| [10] | Miller M K,Bentley J.Mater Sci Technol,1990; 6:285 |
| [11] | Danoix F,Auger P,Blavette D.Microsc Microanal,2004;10:349 |
| [12] | Mathew M D,Lietzan L M,Murty K L,Shah V N.MaterSci Eng,1999; A269:186 |
| [13] | Okano S,Kuwano H.J Nucl Mater,2006; 350:47 |
| [14] | Bethmont M,Meyzaud Y,Soulat P.Int J Pressure Vessels Piping,1996; 65:211 |
| [15] | González J,Gutiérrez-Solana F,Sánchez L,Setién J.J Test Eval,1997; 25:154 |
| [16] | Hideya A,Jiro K Y,Isao M O.Trans Iron Steel Inst Jpn,1988; 28:401 |
| [17] | Metallic materials-Instrumented indentation test for hardness and materials parameters-Part 1:Test method.ISO 14577-1 |
| [18] | Steel-Charpy V-notch pendulum impact testInstrumented test method.ISO 14556 |
| [19] | Li S L,Wang Y L,Li S X,Wang X T.Acta Metall Sin,2010; 46:1186(李时磊,王艳丽,李树肖,王西涛.金属学报,2010;46:1186) |
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