机构地区:[1]西南交通大学材料科学与工程学院,成都610036
出 处:《中国表面工程》2023年第2期222-230,共9页China Surface Engineering
基 金:国家重点研发计划资助项目(2018YFB1900105)。
摘 要:Cr涂层能够有效提高核电反应堆锆包壳管的事故容错能力,但在高温下其内部可能会萌生裂纹导致涂层开裂失效,现有Cr涂层开裂行为研究多针对常温,因此研究不同温度下Cr涂层的开裂行为对于其应用具有重要的理论和工程价值。采用多弧离子镀技术在N36锆合金包壳管外表面制备厚度为14μm左右的Cr涂层,采用WDW-100C万能试验机对涂层管分别进行室温(25℃)与高温(100、200、300、400℃)拉伸试验,并通过超景深显微镜和扫描电镜(SEM)观察涂层的裂纹表面与截面形貌,对Cr涂层在不同温度下的开裂行为与开裂机理进行研究。结果表明,随着温度升高,涂层管的屈服强度从(400±5)MPa下降到(150±5)MPa,涂层管的总体塑性变化不大;室温下裂纹萌生于涂层内部,其开裂方式为脆性沿晶断裂;100℃时涂层开裂方式不变,但表面裂纹数量减少,裂纹尖端出现钝化,由V字形转变为U字形;随着温度进一步升高,涂层的塑性变形能力提高,其表面呈流线形塑性变形;200℃及以上温度下,涂层表面无明显开裂,仅出现少量微裂纹,塑性的升高导致拉伸过程中涂层的变形量与基体存在差异,裂纹开始萌生于界面处,其断裂方式也由脆性断裂转变为韧性断裂。采用单轴拉伸法研究温度对锆包壳Cr涂层开裂行为的影响,可为Cr涂层在核电领域的应用提供一定数据与理论支撑。Chromium(Cr) coatings can effectively improve the accident tolerance of zirconium cladding tubes in nuclear power reactors.However,internal cracks may develop at high temperatures,leading to the cracking failure of the coatings.Most studies on the cracking behavior of Cr coatings have been conducted at ambient temperature.Therefore,it is of great theoretical and engineering value to study the cracking behavior of Cr coatings at various high-temperature working environments.Cr coatings with a thickness of approximately14 μm were prepared on the surface of N36 zirconium cladding tubes by multi-arc ion plating technology.The coatings were well formed internally,dense,and without obvious defects,such as pores and cracks.The combination of the coating and substrate was good,and the combination area was flat without obvious defects.The coated tubes were subjected to tensile tests at room temperature(25 ℃) and high temperatures(100,200,300,and 400 ℃) using a WDW-100C universal testing machine.The surface and section morphologies of the Cr coatings were observed by an ultra depth-of-field microscope and a scanning electron microscope to determine their cracking behavior at different temperatures.The results show that the yield strength of the coated tube decreased from(400 ± 10) MPa to(150 ± 10) MPa with increasing temperature,while the plasticity changed only slightly.The observation of the fracture surface of the coated tube showed that the coating bonded well with the substrate near the fracture after room temperature and high-temperature stretching,and did not exhibit large-area peeling,showing excellent film-based bonding.Numerous circular cracks perpendicular to the direction of tensile stress formed on the surface of the coated tube at room temperature.The number of cracks on the coating surface was highest at room temperature,and significantly decreased as the temperature increased.The fracture cross-section revealed that cracks initiated inside the coating at room temperature.The cracking mode was brittle
分 类 号:TG174[金属学及工艺—金属表面处理]
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