多层铬涂层的开裂和剥落

O. Jørgensen , A. Horsewell , B.F. Sørensen , P. Leisner
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引用次数: 15

摘要

在电镀过程中产生的残余应力引起的钢基体上的铬涂层裂纹进行了研究。利用直流(DC)和周期性电流反转(PR)交替电镀形成多层的铬涂层,由于在沉积过程中发生的连续直流层的体积收缩,处于双轴拉伸应力状态。均匀的双轴失配应变理想地实现了这种分层收缩。用层压理论模拟了多层材料的应力状态。特别强调了基板柔韧性对应力积累的影响。结果表明,基材的柔性在涂层中产生等量的双轴弯矩。当涂层厚度达到一定临界值时,多层铬就会从基体上开裂脱落。分离涂层碎片的曲率半径提供了弯矩大小的测量,并间接提供了失配应变的测量。观察到的断裂机制定性地分为在涂层中窜出的裂纹和在涂层与基体界面上出现的脱粘裂纹。给出了两种不同裂纹类型的长裂纹渐近解。对多层铬涂层的断裂分析表明,相对层厚、基体厚度和柔韧性对裂纹扩展能量释放速率具有功能依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The cracking and spalling of multilayered chromium coatings

Cracks in a chromium coating on a steel substrate which are caused by residual stresses developed during an electroplating process are examined. The chromium coating, formed as a multilayer by alternating electroplating utilizing direct current (DC) and periodic current reversal (PR), is in a state of biaxial tensile stress due to a volume contraction in the successive DC layers which occurs during deposition. A uniform biaxial misfit strain idealizes this layerwise contraction. The state of stress in the multilayer is modelled using laminate theory. Special emphasis is given to the influence of the substrate flexibility on the stress build-up. It is shown that the flexibility of the substrate produces an equ al biaxial bending moment in the coating. At a critical coating thickness, the chromium multilayer cracks and spalls off the substrate. The radius of curvature of detached coating fragments provides a measure of the size of the bending moment and, indirectly, of the misfit strain. The observed fracture mechanism is qualitatively divided into cracks channelling in the coating and debonding craks running in the interface between the coating and the substrate. Long crack asymptotic solutions for the two distinct crack types are presented. The fracture analyses of the multilayered chromium coating show the functional dependence of relative layer and substrate thicknesses and flexibility on the energy release rate for crack propagation.

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