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K447A合金的高温动态力学性能及本构关系

黄蓉张欣玥惠旭龙白春玉刘小川牟让科李钢李奎

爆炸与冲击2025，Vol.45Issue(7)：41-54,14.

爆炸与冲击2025，Vol.45Issue(7)：41-54,14.DOI:10.11883/bzycj-2024-0477

K447A合金的高温动态力学性能及本构关系

High-temperature dynamic mechanical properties and intrinsic relationships of K447A alloy

黄蓉 ¹张欣玥 ¹惠旭龙 ¹白春玉 ¹刘小川 ¹牟让科 ¹李钢 ²李奎²

作者信息

1. 强度与结构完整性全国重点实验室,陕西西安 710065||中国飞机强度研究所结构冲击动力学航空科技重点实验室,陕西西安 710065||陕西省飞行器振动冲击与噪声重点实验室,陕西西安 710065
2. 中国航发湖南动力机械研究所,湖南株洲 412000
折叠

摘要

Abstract

K447A,a nickel-based superalloy,is widely used in critical hot-end components of aerospace engines due to its excellent high-temperature performance.Through quasi-static and high strain rate compression experiments within the temperature range of 25℃to 1000℃,the dynamic mechanical properties of K447A superalloy were systematically investigated.The effects of temperature and strain rate on its plastic flow behavior and material microstructure were analyzed.By examining the stress-strain curves under quasi-static conditions and utilizing electron backscatter diffraction(EBSD),the microstructural characteristics of specimens deformed at various strain rates and temperatures were analyzed.The results reveal that during the plastic deformation of K447A,strain hardening,temperature softening,and strain rate strengthening phenomena coexist.As the strain rate increases from quasi-static levels to 5000 s-1,the temperature sensitivity index(s)gradually decreases,indicating a diminishing temperature softening effect at higher strain rates.Notably,at an elevated strain rate of 800℃,an anomalous stress peak appears in the flow stress-strain curve of the K447A alloy,suggesting complex interactions between temperature and strain rate during deformation.Furthermore,the strain rate sensitivity coefficient(p)increases with temperature,highlighting a more pronounced strain rate strengthening effect at elevated temperatures.Microstructural changes within the material,which are influenced by the coupling of strain rate and temperature,are also examined.An increase in strain rate leads to grain refinement,while higher temperatures result in a decrease in the proportion of low-angle grain boundaries,facilitating dynamic recrystallization within the material.To accurately describe the flow stress influenced by the interplay of temperature and strain rate,a modified Johnson-Cook constitutive model was developed.This revised model demonstrates improved predictive capability compared to the original formulation,effectively capturing the plastic flow behavior of K447A across a broad range of temperatures and strain rates.The predictive error is significantly reduced from 26.36%to 9.05%,underscoring the model's enhanced accuracy and reliability in simulating the mechanical performance of K447A alloy under varying operational conditions.

关键词

K447A高温合金/率-温耦合效应/动态力学行为/本构表征

Key words

K447A high-temperature alloys/rate-temperature coupling effect/dynamic mechanical behavior/intrinsic characterization

分类

数理科学

引用本文复制引用

黄蓉,张欣玥,惠旭龙,白春玉,刘小川,牟让科,李钢,李奎..K447A合金的高温动态力学性能及本构关系[J].爆炸与冲击,2025,45(7):41-54,14.

基金项目

工信部民机专项科研项目（）

爆炸与冲击

OA北大核心

ISSN：1001-1455

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