飞机部件的氢脆

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c9001746

Jivan B. Shah

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引用次数: 0

摘要

AISI 4340 Cr-Mo-Ni起落架梁的脆性晶间断裂是典型的氢致延迟失效。由于保护涂层的破坏而产生的腐蚀释放出新生的氢，在持续拉应力的影响下扩散到钢中。第二个因素是一簇非金属夹杂物，这些夹杂物有“支流”裂缝。此外，吊起轻型飞机(约7000磅)时，螺栓也会断裂。螺栓断裂为脆性晶间断裂，很可能是由于氢诱导的延迟破坏机制。至于所涉及的因素，镀镉、酸洗和炼钢过程会在零件表面引入氢。第二个影响因素是，两个螺栓的硬度都比规定的(25 Rc)高10 Rc点，降低了延展性和缺口韧性。第三个因素是工艺不当，导致螺栓螺纹产生弯矩。

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Hydrogen Embrittlement of Aircraft Components

Brittle intergranular fracture, typical of a hydrogen-induced delayed failure, caused the failure of an AISI 4340 Cr-Mo-Ni landing gear beam. Corrosion resulting from protective coating damage released nascent hydrogen, which diffused into the steel under the influence of sustained tensile stresses. A second factor was a cluster of non-metallic inclusions which had ‘tributary’ cracks starting from them. Also, eyebolts broke when used to lift a light aircraft (about 7000 lb.). The bolt failure was a brittle intergranular fracture, very likely due to a hydrogen-induced delayed failure mechanism. As for the factors involved, cadmium plating, acid pickling, and steelmaking processes introduce hydrogen on part surfaces. As a second contributing factor, both bolts were 10 Rc points higher in hardness than specified (25 Rc), lessening ductility and notch toughness. A third factor was inadequate procedure, which resulted in bending moments being applied to the bolt threads.

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ASM Failure Analysis Case Histories: Air and Spacecraft

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