DOMINANT DAMAGE FACTORS DETERMINING FOR SINGLE CRYSTAL NICKEL SUPERALLOYS UNDER CYCLIC LOADING BASED ON PRINCIPAL COMPONENT ANALYSIS

机译：基于主成分分析的单晶镍超级合金在循环载荷下的主要损伤因素确定

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A critical plane approach in combination with principal component analysis (PCA) for determining dominant damage factors (DDFs) was developed for single crystal nickel superalloys at elevated temperature. Maximum resolved shear stress (RSS), maximum slip rate and other 2 mesoscopic parameters on the critical plane, defined as the preferential slip plane, were selected as damage parameters. Correlation analysis results indicated that there were strong correlations (i.e. multicollinearity) among the selected parameters. To address this issue, PCA was performed to eliminate the effect of multicollinearity and the DDFs were determined as well. Based on the DDFs a life model was proposed and then validated by the fatigue experimental results. Most of the experimental lives are within the factor three of the predicted ones. The life model has a relatively simple form with reliable constants which facilitates the application in industry design.

机译：针对高温下的单晶镍高温合金，开发了一种与主成分分析（PCA）结合以确定主要破坏因素（DDF）的临界面方法。选择临界平面上的最大分辨剪切应力（RSS），最大滑移率和其他2个介观参数（定义为优先滑移平面）作为损伤参数。相关分析结果表明，所选参数之间存在很强的相关性（即多重共线性）。为了解决此问题，执行了PCA以消除多重共线性的影响，并确定了DDF。基于DDF，提出了寿命模型，然后通过疲劳实验结果对其进行了验证。大多数实验寿命都在预测寿命的三分之内。寿命模型具有相对简单的形式和可靠的常数，这有助于在工业设计中的应用。

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《ASME turbo expo: turbine technical conference and exposition》|2015年|V07AT28A001.1-V07AT28A001.8|共8页
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Rongqiao Wang; Kanghe Jiang; Fulei Jing; Dianyin Hu; Jun Song;
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机译：张力扭转载荷下第二代镍基单晶高温合金的循环非弹性行为和升降响应：实验与仿真
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机译：Mesoscale视角的循环加载微观结构 - 性质关系：单晶镍高超合金的示例
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机译：循环载荷下高温下单晶镍基高温合金的裂纹尖端应力应变场
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机译：基于主成分分析的循环载荷下单晶镍高温合金测定的主导损伤因素
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机译：一种分析单晶镍基高温合金的组合方法。
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机译：撤离速率对CMSX-4镍基高温合金单晶铸件的晶体结构完善显微组织和抗蠕变性的影响
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机译：Mesoscale视角的循环加载微观结构 - 性质关系：单晶镍高超合金的示例
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机译：影响镍基高温合金单晶蠕变过程中γ'素定向粗化的因素

DOMINANT DAMAGE FACTORS DETERMINING FOR SINGLE CRYSTAL NICKEL SUPERALLOYS UNDER CYCLIC LOADING BASED ON PRINCIPAL COMPONENT ANALYSIS

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