• Title/Summary/Keyword: $2\frac{1}{2}Cr-1Mo$ Steel

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A Study on the Distribution of Welding Residual Stresses in $2\frac{1}{4}Cr-1Mo$ Steel by $CO_2$ Laser Welding (수치해석에 의한 $2\frac{1}{4}Cr-1Mo$$CO_2$ 레이저 용접부의 잔류응력 분포 특성에 관한 연구)

  • Bang, Han-Sur;Kim, Young-Pyo;Kim, Hyoung;Yu, Suk-Min
    • Proceedings of the Korea Committee for Ocean Resources and Engineering Conference
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    • 2003.05a
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    • pp.274-278
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    • 2003
  • In recent, an application of high energy density beam we/ding is increasing to obtain the high quality in weldments. Laser welding, especially, has been recognized as an useful method and its beam power has also increased according to the development of relevant technology. However, welding method in the fields of power plant is conservative because their structures have required to endure high temperature and pressure. So, authors conduct the numerical simulation in order to consider the possibility of laser welding on the material of the pressure vessels ($2\frac{1}{4}Cr-1Mo$ steel). As a result of this study, we can confirm the advantages of laser welding and obtain useful information for the experiments of weldability.

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Evaluation of PWHT cracking susceptibility of the Cr-Mo steel alloys (Cr-Mo 합금강의 후열처리 균열 감수성 평가)

  • Kim, Sang-Jin;Kim, Ki-Soo;Lee, Young-Ho
    • 대한공업교육학회지
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    • v.31 no.1
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    • pp.200-210
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    • 2006
  • This C-ring test, normally employed for evaluating susceptibility to stress-corrosion cracking, was determined to be a suitable small scale test to evaluate PWHT(Post-Weld Heat Treatment) cracking susceptibility. This test is possible to incorporate an actual weld, to introduce a notch into the coarse grained HAZ(Heat Affected Zone), to load the coarse grained HAZ any level of stress ad, most importantly, since the C-ring is an approximately constant strain type test, the stress decreases with time at temperature in a manner similar to that of an actual steel weldment. The procedure employed in making the C-ring was presented in the experimental procedure section, however, several points deserve further discussion. The walls of the weld groove are made along radial lines form the center of th var in order to obtain an HAZ which is oriented perpendicular to the walls of the machined C-ring. Therefore, the plane of maximum stress will be aligned through the HAZ and, therefore, crack propagation will not be forced to deviate form the plane of maximum stress in order to remain in the coarse grained HAZ as is the case with the Y groove test.

A Numerical Analysis Study on the Reheating crack around Welded Joint of Pressure Vessel with 2$\frac {1}{4}$Cr-1Mo Steel (2$\frac {1}{4}$ Cr-1Mo강 압력용기 Nozzle 용접이음부의 재열균열에 관한 수치해석적 연구)

  • 김종명
    • Journal of Ocean Engineering and Technology
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    • v.14 no.1
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    • pp.88-94
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    • 2000
  • Recently various pressure vessels like an atomic reactor and plant facilities become more larger and are needed to bear in both very high temperature and pressure condition. And in making such a high pressure vessels the amount of annual usage of 2 $\frac {1}{4}$ Cr-1Mo steels which are predominant to resist high temperature high pressure and corrosive circumstances are increasing. But despite of this advantage of 2 $\frac {1}{4}$Cr-1Mo steel. when PWHT(post welding heat treatment) is carried out lots of reheating cracks are occur. In this reason it is strongly needed to study and examine the mechanical behavior of welded joints through welding to PWHT process. So in this study welded nozzle of pressure vessel where reheat cracks are frequently occur are selected for analysis the crack-occurrence mechanism.

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A Study on the Reheat Crack around Welded Joint of Pressure Vessel with $2\frac{1}{4}Cr-1Mo$ Steel ($2\frac{1}{4}Cr-1Mo$강 압력용기 Nozzle 용접이음부의 재열균열에 관한 연구)

  • 방한서;김종명
    • Journal of Welding and Joining
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    • v.18 no.2
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    • pp.100-104
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    • 2000
  • Pressure vessels usually consist of main body and pipes which are connected with the main body. And as joining method of such main body and pipes, welding is carried out. After welding, welding residual stresses inevitably occur around welded joints. As residual stresses act harmfully on fatigue strength, corrosion and buckling strength of structure, PWHT is carried out for the purpose of removing the residual stress. But, during PWHT process, $2\frac{1}{4}Cr-1Mo$ steels are frequently apt to generate reheat crack. For this reason, it is strongly needed to analyze and examine the mechanical behavior of welded joints before and after PWHT process. So, in this study, welded nozzle parts of pressure vessel where reheat cracks frequently occur are selected for examining the mechanism of crack-occurrence.

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ELECTROSLAG STRIP OVERLAY OF PIPE, FITTINGS, AND PRESSURE VESSELS

  • Dan, Capitanescu
    • Proceedings of the KWS Conference
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    • 2002.10a
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    • pp.355-360
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    • 2002
  • ElectroSlag Strip Overlaying (ESSO) process has been around since 1970. ESSO process had limited acceptance due to a few problems associated with the use of this process in its very early stage. Limited knowledge and, most significantly, poor quality of the equipment and welding flux gave the ESSO process a bad name. However, this process is well accepted today and used in North America, Europe and Japan. The ESSO process provides low dilution overlays at high deposition rates, excellent and consistent deposit chemistry with excellent surface quality, and virtually no defects. Capitan has taken this process one step further through extensive research and development of the process itself as well as the equipment. The improvement brought to the process warranted the issuance in May 2000 of an US patent. This study demonstrates the feasibility of this process with immediate positive production results. The main achievements of this work are as follows: $\textbullet$ Development of six various strip-flux combinations on three different base materials: carbon steel, $\frac{1}{4}$ Cr/.5 Mo and 2 $\frac{1}{4}$ Cr/l Mo, fully tested with: penetrant, ultrasound, bends, hardness, overlay chemistry, corrosion and hydrogen disbonding. $\textbullet$ 12" dia. 90 hot formed elbows from straight pipe electroslag overlayed with "1 layer" and "2 layer" Alloy 625 $\textbullet$ a very unique development of miniaturized overlaying equipment able to perform overlay in pipe with diameters as low as 10" (254 mm). This development has large applications in the field of offshore, petrochemical, refining, pulp and paper and power generation industries. The aftermath of this development was its immediate acceptance by major end users with the completion of four projects of overlayed pipe in the USA and Far East Asia.

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