Fig.6 Cracks propagation on the cross-section of 3Cr10Mn7Ni6SiCuB0.7 with crack blunted (a, c, d) and crack deflected (b, c, d) by boride after thermal fatigue testing for 300 cyc from room temperature to 800 ℃

Fig.6 Cracks propagation on the cross-section of 3Cr10Mn7Ni6SiCuB0.7 with crack blunted (a, c, d) and crack deflected (b, c, d) by boride after thermal fatigue testing for 300 cyc from room temperature to 800 ℃

Fig.6 Cracks propagation on the cross-section of 3Cr10Mn7Ni6SiCuB0.7 with crack blunted (a, c, d) and crack deflected (b, c, d) by boride after thermal fatigue testing for 300 cyc from room temperature to 800 ℃

Fig.6 Cracks propagation on the cross-section of 3Cr10Mn7Ni6SiCuB0.7 with crack blunted (a, c, d) and crack deflected (b, c, d) by boride after thermal fatigue testing for 300 cyc from room temperature to 800 ℃

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