Brittle Fracture of Galvanized Steel Heater Shells Because of Embrittlement by Intermetallic Compounds

ASM Failure Analysis Case Histories: Design Flaws Pub Date : 2019-06-01 DOI:10.31399/asm.fach.design.c0046079

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Abstract

After only a short time in service, oil-fired orchard heaters made of galvanized low-carbon steel pipe, 0.5 mm (0.020 in.) in thickness, became sensitive to impact, particularly during handling and storage. Most failures occurred in an area of the heater shell that normally reached the highest temperature in service. A 400x etched micrograph showed a brittle and somewhat porous metallic layer about 0.025 mm (0.001 in.) thick on both surfaces of the sheet. Next to this was an apparently single-phase region nearly 0.05 mm (0.002 in.) in thickness. The examination supported the conclusion that prolonged heating of the galvanized steel heater shells caused the zinc-rich surface to become alloyed with iron and reduce the number of layers. Also, heating caused zinc to diffuse along grain boundaries toward the center of the sheet. Zinc in the grain boundaries reacted with iron to form the brittle intergranular phase, resulting in failure by brittle fracture at low impact loads during handling and storage. Recommendation included manufacture of the pipe with aluminized instead of galvanized steel sheet for the combustion chamber.

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金属间化合物脆化导致镀锌钢加热器外壳脆性断裂

在使用很短的时间后，由0.5毫米(0.020英寸)厚的镀锌低碳钢管制成的燃油果园加热器对冲击很敏感，特别是在搬运和储存过程中。大多数故障发生在加热器外壳通常达到最高使用温度的区域。400倍蚀刻显微照片显示，在薄片的两个表面上都有一层约0.025毫米(0.001英寸)厚的脆性和有点多孔的金属层。旁边是一个明显的单相区域，厚度接近0.05毫米(0.002英寸)。检查支持的结论是，长时间加热镀锌钢加热器外壳导致富锌表面与铁合金，减少层数。同时，加热导致锌沿晶界向薄片中心扩散。晶界上的锌与铁反应形成脆性晶间相，导致在搬运和储存过程中在低冲击载荷下发生脆性断裂。建议包括用镀铝钢板代替镀锌钢板制造燃烧室的管道。

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ASM Failure Analysis Case Histories: Design Flaws

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