Experimental and numerical analyses of an U-bend tube made of an output inter-heater tube after exploitation

V. Pavkov, G. Bakić, Vesna Maksimovic, A. Petrovic, N. Mitrović, Ž. Mišković
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引用次数: 1

Abstract

One of the important tasks of evaluating the integrity of mechanical process elements and structures is to determine the local mechanical properties. In this paper, experimental and numerical analyses of the mechanical behavior of an output inter-heater tube, made of 12H1MF heat-resistant steel, was performed after 200,000 h of exploitation. During exploitation, the tube was exposed to various mechanisms of damage including gas corrosion. The tube was cut from a pipe system during reparations of a thermal power plant, and then cold-deformed by bending to obtain a U-bend tube, which was then used in the experiment. For this purpose, a specimen holder made of structural steel S235 was specifically designed to test such a sample. The U-bend tube was then exposed to the external compressive load during the experiment. Experimental research was based on the application of the 3D digital image correlation (DIC), while a finite element method (FEM) was applied in numerical simulation performed by using the Abaqus software package. The 3D DIC is an optical and contactless experimental method that allows measurements of displacement fields and deformations of geometrically complex structures. The Aramis system was used for the experimental analysis as well as for verification of the numerical model. During the experiment, the von Mises strain field was measured at the top of the U-bend tube, in the tightening zone, as it represents a critical place for crack initiation and propagation during the work of an inter-heater. Based on the obtained results and a comparative analysis of experimental and numerical values of the von Mises strain field at the U-bend tube, deviation of the model predictions of about 18 % was determined. The FEM predicted smaller values of the von Mises strain field compared to the DIC method. This is the result of an incomplete geometry applied in the model due to deformation that occurred in the bend zone of the U-bend tube, loss of material and the tube surface damage due to the influence of gas corrosion during 200,000 h of exploitation. Experimental analysis has confirmed that the U-bend tube, after 200,000 h of exploitation, can remain in service even if it is damaged due to the effect of gas corrosion.
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输出加热管u型弯管开采后的试验与数值分析
评价机械过程元件和结构完整性的重要任务之一是确定其局部力学性能。本文对12H1MF耐热钢输出中热管开采20万h后的力学性能进行了试验和数值分析。在开采过程中,管道暴露于各种破坏机制中,包括气体腐蚀。该管是在某火电厂维修过程中从管道系统中剪下的,经冷弯变形制成u型管,并用于实验。为此,专门设计了一个由S235结构钢制成的试样架来测试这种样品。在实验过程中,u形弯管承受外部压缩载荷。实验研究基于三维数字图像相关(DIC)的应用,采用有限元法(FEM),利用Abaqus软件包进行数值模拟。三维DIC是一种光学和非接触式实验方法,可以测量几何复杂结构的位移场和变形。Aramis系统用于实验分析以及数值模型的验证。在实验中,von Mises应变场在u型管顶部的收紧区进行测量,因为这是中间加热器工作过程中裂纹萌生和扩展的关键位置。根据所得结果,并将u型管处von Mises应变场的实验值与数值值进行对比分析,得出模型预测偏差约为18%。与DIC方法相比,FEM方法预测的von Mises应变场值较小。这是由于在200,000 h的开采过程中,由于u型管弯曲区发生变形,材料损失以及由于气体腐蚀影响而导致管表面损坏,因此在模型中应用了不完整的几何形状。实验分析证实,u型弯管在开采20万h后,即使由于气体腐蚀的影响而损坏,也能继续使用。
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