An Experimental Study of Thermal Fatigue on ASTM A 213 Grade T-23 Steel Tube

Scholarly Research Exchange Pub Date : 2009-08-31 DOI:10.3814/2009/309529

G. R. Jinu, P. Sathiya, G. Ravichandran, A. Rathinam

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Abstract

Super heater tubes are subjected to alternate heating and cooling in power plants causes crack and eventually fail. This phenomenon is termed as thermal fatigue. In this paper, a laboratory simulation for reproducing thermal fatigue phenomenon is developed to determine the number of cycles of failure occurs in super heater tubes. Thermal fatigue tests are conducted in Non-Destructive Tested T23 base and SMAW welded tubes separately. The tubes are subjected to thermal cycles from 800∘C (accelerated temperature) to room temperature (28∘C). In this work 800∘C is selected in order to achieve the crack much earlier. The selected temperature is just below the Ac 1 temperature. The tubes are subjected to heat by Oxy-acetylene flame and subsequently quenched with water. The tests are carried out until open cracks are identified. Surface cracks are identified in the base and weld tubes after 120 and 80 cycles respectively. The tubes are then sectioned and subjected to optical microscopy. The causes of failures are thoroughly investigated using Scanning Electron Microscope (SEM). This study reveals that localised heating and cooling causes thermal fatigue which initiates cracks in the tubes.

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ASTM a213级T-23钢管热疲劳试验研究

电站的超级加热管在加热和冷却交替过程中会产生裂纹，最终导致失效。这种现象被称为热疲劳。本文建立了一种模拟热疲劳现象的实验室模拟方法，以确定过热加热器管的失效循环次数。分别对无损检测的T23焊管和SMAW焊管进行了热疲劳试验。这些管子要经受从800°C(加速温度)到室温(28°C)的热循环。在这部作品中，选择800°C是为了更早地实现裂缝。所选温度刚好低于Ac 1温度。这些管子受到氧乙炔火焰的加热，随后用水淬灭。测试将一直进行，直到发现裂缝为止。经过120次循环和80次循环后，在基体和焊管中分别发现了表面裂纹。然后对这些管子进行切片并进行光学显微镜检查。利用扫描电子显微镜(SEM)对失效原因进行了深入的研究。该研究表明，局部加热和冷却会引起热疲劳，从而引发管中的裂纹。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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