Damaged Impellers in a Rotary Pump

ASM Failure Analysis Case Histories: Failure Modes and Mechanisms Pub Date : 2019-06-01 DOI:10.31399/asm.fach.modes.c9001202

Egon Kauczor

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Abstract

Two damaged impellers made of austenitic cast iron came from a rotary pump used for pumping brine mixed with drifting sand. On one of the impellers, pieces were broken out of the back wall in four places at the junction to the blades. The fracture edges followed the shape of the blade. Numerous cavitation pits were seen on the inner side of the front wall visible through the breaks in the back wall. The back wall of the as yet intact second impeller which did not show such deep cavitation pits was cracked in places along the line of the blades. The microstructure consisted of lamellar graphite and carbides in an austenitic matrix and was considered normal for the specified material GGL Ni-Cu-Cr 15 6 2. It was concluded that the cause of the damage was porosity at the junction between back wall and blades arising during the casting process. Cavitation did not contribute to fracture but also could have led to damage in the long term in the case of a sound casting. It is therefore advisable in the manufacture of new impellers to take care not only to avoid porosity but also to use alloy GGL Ni-Cu-Cr 15 6 3, which has a higher chromium content and is more resistant to cavitation.

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旋转泵的叶轮损坏

两个损坏的奥氏体铸铁叶轮来自用于泵送混合了流沙的盐水的旋转泵。在其中一个叶轮上，在叶片连接处的四个地方，后壁上的碎片被打碎了。断口边缘与叶片形状一致。在前壁的内侧，通过后壁的裂缝可以看到许多空化坑。完好无损的第二叶轮后壁没有出现这种深空化坑，沿叶片线处出现了裂纹。微观结构由奥氏体基体中的层状石墨和碳化物组成，对于指定材料GGL Ni-Cu-Cr 1562来说是正常的。结果表明，损伤的原因是铸造过程中后壁与叶片交界处产生的气孔。空化并不会导致断裂，但在铸件完好的情况下，从长期来看，空化可能会导致损伤。因此，建议在制造新的叶轮时，不仅要注意避免气孔，而且要使用合金GGL Ni-Cu-Cr 1563，它具有更高的铬含量，更耐空化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ASM Failure Analysis Case Histories: Failure Modes and Mechanisms

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