Phase transformation kinetics in a homogenised cast alloy 625 and its impact on deformation micromechanisms

IF 1.5 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Philosophical Magazine Pub Date : 2023-11-09 DOI:10.1080/14786435.2023.2276693
Sonika Chahar, Ashwin Kumar Godasu, Arunansu Haldar, Suhrit Mula
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Abstract

ABSTRACTThis study focuses on understanding the impact of sequential ageing on the microstructural evolution of a large-grained structure homogenised cast alloy 625 and its effect on mechanical properties. SEM and TEM analyses of aged samples were conducted to comprehend various precipitation micromechanisms such as (i) nucleation and growth kinetics of γ′′ phase and (ii) transformation of primary carbides and grain boundary phase(s) evolved. The MC-based primary carbides are ascertained to transform into M23C6 secondary carbides following two completely different pathways: (I) MC + γ→ M23C6 + δ (mainly at grain boundary) and (II) MC + γ→M23C6 + γ″ (mainly within matrix). Furthermore, all three variants of γ″ phase are detected to evolve in the matrix displaying a crystallographic orientation of [001]γ″ // < 001>γ, and {100}γ″ // {100}γ. The formation of γ″ phase gradually improves the hardness of the material up to 650 h (224 HV) of ageing with a corresponding average precipitate size of 61 nm. The growth of γ″ particles complies with the Lifshitz–Slyozov–Wagner (LSW) theory of diffusion-controlled precipitate coarsening during the entire ageing period. Surprisingly, the hardness declined significantly beyond 650 h of ageing, even though the γ″ phase remained coherent with the matrix despite its coarsening (106 nm after 1000 h of ageing) and evidence of γ″→δ (mainly incoherent) transformation is not detectible throughout the ageing treatment. This lowering of hardness is attributed to a non-conventional slip-to-twin transition in the deformation mode of coherent γ″ particles after prolonged ageing, which is confirmed through tensile deformation micromechanisms analysis of the 650 and 1000 h aged samples.KEYWORDS: Alloy 625ageing characteristicscoherent precipitategrain boundary carbidesneedle-like δ phaseelectron microscopy AcknowledgementThe authors highly acknowledge financial support by Science and Engineering Research Board, Government of India, through grant number. CRG/2019/000949 as well as the assistance of the material from MIDHANI LTD., Hyderabad, India. The authors are also thankful to the Metallurgical and Materials Engineering Department, IIT Roorkee, for the support of different experimental and characterization facilities.Disclosure statementNo potential conflict of interest was reported by the author(s).Credit authorship contribution statementSonika Chahar: Experimental, Conceptualisation, Methodology, Visualisation, Validation, Writing – original draft.Ashwin Kumar Godasu: Conceptualisation, Methodology, Visualisation.Arunansu Haldar: Draft review and editing.Suhrit Mula: Conceptualisation, Supervision, Validation, Review and editing.Data availabilityData will be available on request.Additional informationFundingThe authors highly acknowledge financial funding by Science and Engineering Research Board, Government of India, through grant number CRG/2019/000949 as well as the assistance of the material from MIDHANI LTD., Hyderabad, India.
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625均相铸造合金相变动力学及其对变形微观机制的影响
摘要研究了顺序时效对大晶粒组织均质铸造合金625微观组织演变的影响及其对力学性能的影响。通过对时效样品的SEM和TEM分析,了解了不同的析出微观机制,如(i) γ′相的形核和生长动力学,(ii)初生碳化物的转变和晶界相的演化。MC基原生碳化物转变为M23C6次生碳化物的途径完全不同:(I) MC + γ→M23C6 + δ(主要在晶界处)和(II) MC + γ→M23C6 + γ″(主要在基体内)。此外,所有三种γ″相的变体都在基体中进化,显示出[001]γ″// < 001>γ和{100}γ″// {100}γ的晶体取向。时效至650 h (224 HV)时,γ″相的形成逐渐提高了材料的硬度,相应的平均析出尺寸为61 nm。在整个时效过程中,γ″粒子的生长符合Lifshitz-Slyozov-Wagner (LSW)扩散控制沉淀粗化理论。令人惊讶的是,时效650 h后,硬度显著下降,尽管γ″相在时效1000 h后粗化(106 nm),但仍与基体保持一致,并且在整个时效处理过程中未检测到γ″→δ(主要是不一致的)转变的证据。这种硬度的降低是由于在长时效后,相干γ″颗粒的变形模式发生了非常规的滑移到孪晶转变,这一点通过650和1000 h时效样品的拉伸变形微观机制分析得到了证实。关键词:625合金;时效特征;均匀析出;晶界碳化物;CRG/2019/000949以及来自印度海得拉巴MIDHANI LTD.的材料协助。作者也感谢冶金与材料工程系,IIT Roorkee,为不同的实验和表征设施的支持。披露声明作者未报告潜在的利益冲突。信用作者贡献声明sonika Chahar:实验,概念化,方法论,可视化,验证,写作-原稿。Ashwin Kumar Godasu:概念化,方法论,可视化。Arunansu Haldar:草案审查和编辑。Suhrit Mula:概念化,监督,验证,审查和编辑。数据可得性应要求提供数据。作者高度感谢印度政府科学与工程研究委员会的财政资助,资助号为CRG/2019/000949,并感谢印度海得拉巴MIDHANI LTD.提供的材料。
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来源期刊
Philosophical Magazine
Philosophical Magazine 工程技术-材料科学:综合
自引率
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发文量
93
审稿时长
4.7 months
期刊介绍: The Editors of Philosophical Magazine consider for publication contributions describing original experimental and theoretical results, computational simulations and concepts relating to the structure and properties of condensed matter. The submission of papers on novel measurements, phases, phenomena, and new types of material is encouraged.
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