形变及退火工艺对Fe47Mn30Co10Cr10B3双相高熵合金组织演变的影响

形变及退火工艺对Fe₄₇Mn₃₀Co₁₀Cr₁₀B₃双相高熵合金组织演变的影响

刘怡¹, 涂坚¹^,²(

), 杨威华¹, 尹瑞森³, 谭力¹, 黄灿¹, 周志明¹^,²

Effect of Deformation and Annealing Treatment on Microstructure Evolution of Fe₄₇Mn₃₀Co₁₀Cr₁₀B₃Dual-Phase High-Entropy Alloy

LIU Yi¹, TU Jian¹^,²(

), YANG Weihua¹, YIN Ruisen³, TAN Li¹, HUANG Can¹, ZHOU Zhiming¹^,²

图9. 变形50%的Fe₄₇Mn₃₀Co₁₀Cr₁₀B₃ HEA退火样品中热诱导hcp相变体分析
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(a1, b1) IPF maps (a2, b2) phase maps (a3, b3) grains with multiple hcp variants (a4, a5, b4, b5) grains with single hcp variant (a6, b6) grains without hcp variants

Fig.9. Analyses of thermal-induced hcp variants in Fe₄₇Mn₃₀Co₁₀Cr₁₀B₃ HEA under annealing at 1000 ℃ for 5 min (a1~a6) and 30 min (b1~b6) (black triangle—the activated variant of hcp; red circle—the activated variant of annealing twins)