Influence of 650°C Thermal Ageing on Microstructure and Creep-Fatigue Behaviors of P92 Steel

IF 1.5 4区 材料科学 Q3 ENGINEERING, MECHANICAL
M. Jianfeng, Jianwei Zhu, Dasheng Wang, Fengping Zhong, Chen Jichang, Zhou Qiang, Bao Shiyi
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引用次数: 2

Abstract

In this paper, P92 steel was subjected to thermal ageing treatment at 650°C for 800h, and then basic mechanical and creep-fatigue In this paper, P92 steel was subjected to thermal ageing treatment at 650°C for 800h, and then basic mechanical and creep-fatigue test were performed. The creep-fatigue cycle response trend is consistent before and after ageing. Subsequently, microscopic observation shows that P92 steel after ageing still has typical lamellar martensite and prior austenite grains. The thermal ageing of 650°C resulted in more precipitates of martensite lath, obvious lath boundary, coarsening of martensite lath and decreased dislocation density. Furthermore, thermal ageing results in the increase of precipitates (Laves phase) and martensite width of P92 steel. The fine Laves phase located on the grain boundary can effectively nail the grain boundary, and play the role of precipitation strengthening. Besides, the Laves phase located on the dislocation has the effect of diffusion strengthening, which prevents dislocation slip and improves the creep-fatigue resistance of P92 steel. Finally, four creep-fatigue life model parameters of ageing P92 steel were obtained according to the test, including strain range partitioning (SRP), strain energy partitioning (SEP), frequency separation life model (FSL) and strain energy density exhaustion model (SEDE). The prediction results of the four models all fall within the double tolerance zone. The SPR and SEP are found to be conservative, while the FSL and SEDE are recommended herein due to their suitability of predicting creep-fatigue life of aging P92 steel.
650°C热时效对P92钢组织和蠕变疲劳行为的影响
本文对P92钢进行了650°C热老化处理800h,然后进行了基本机械和蠕变疲劳试验。老化前后蠕变疲劳循环响应趋势是一致的。随后,微观观察表明,P92钢时效后仍具有典型的片状马氏体和先前的奥氏体晶粒。650°C的热时效导致更多的马氏体板条析出,板条边界明显,马氏体板条粗化,位错密度降低。此外,热时效导致P92钢的析出相(Laves相)和马氏体宽度增加。细小的Laves相位于晶界上,可以有效地钉住晶界,起到强化沉淀的作用。此外,位于位错上的Laves相具有扩散强化作用,防止了位错滑移,提高了P92钢的蠕变疲劳抗力。最后,通过试验获得了P92钢时效蠕变疲劳寿命模型的四个参数,包括应变范围划分(SRP)、应变能划分(SEP)、频率分离寿命模型(FSL)和应变能密度耗竭模型(SEDE)。四个模型的预测结果均在双容限范围内。SPR和SEP被发现是保守的,而FSL和SEDE在本文中被推荐,因为它们适合预测老化P92钢的蠕变疲劳寿命。
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来源期刊
CiteScore
3.00
自引率
0.00%
发文量
30
审稿时长
4.5 months
期刊介绍: Multiscale characterization, modeling, and experiments; High-temperature creep, fatigue, and fracture; Elastic-plastic behavior; Environmental effects on material response, constitutive relations, materials processing, and microstructure mechanical property relationships
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