• 제목/요약/키워드: API X70 linepipe steel

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API X70 라인파이프강의 인장 특성에 미치는 변형 시효의 영향 (Effect of Strain Aging on the Tensile Properties of an API X70 Linepipe Steel)

  • 이승완;이상인;황병철
    • 한국재료학회지
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    • 제27권10호
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    • pp.524-529
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    • 2017
  • The effect of strain aging on the tensile properties of API X70 linepipe steel was investigated in this study. The API X70 linepipe steel was fabricated by controlled rolling and accelerated cooling processes, and the microstructure was analyzed using optical and scanning electron microscopes and electron backscatter diffraction. Strain aging tests consisting of 1 % pre-strain and thermal aging at $200^{\circ}C$ and $250^{\circ}C$ were conducted to simulate U-forming, O-forming, Expansion(UOE) pipe forming and anti-corrosion coating processes. The API X70 linepipe steel was composed of polygonal ferrite, acicular ferrite, granular bainite, and bainitic ferrite whose volume fraction was dependent on the chemical composition and process conditions. As the thermal aging temperature increased, the steel specimens showed more clearly discontinuous type yielding behavior in the tensile stress-strain curve due to the formation of a Cottrell atmosphere. After pre-strain and thermal aging, the yield and tensile strengths increased and the yield-to-tensile strength ratio decreased because yielding and aging behaviors significantly affected work hardening. On the other hand, uniform and total elongations decreased after pre-strain and thermal aging since dislocation gliding was restricted by increased dislocation density after a 1 % pre-strain.

고강도-고인성 라인파이프강 개발 동향 (Developing Trend of High Strength and Good Toughness Linepipe Steel)

  • 유장용;강기봉
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2004년도 춘계학술대회
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    • pp.216-221
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    • 2004
  • Linepipe steels with a low carbon acicular ferrite microstructure have been recently developed to accommodate the current transportation condition of the gas and oil industry, and they are finally applied to West- East pipeline project in China. By adopting acicular microstructure, both better formability and better toughness could be obtained due to low yield ratio and fine grained microstructure. Mechanical properties of pipe are not greatly different from those of base plates or hot coils with a microstructure of acicular ferrite. Merits of introducing higher strength steels are well known, i.e., reducing the gauge of pipe and the material cost, increasing the welding speed and decreasing construction cost because of reducing the construction period. Threfore, gas and oil industry has required higher strength steel than APIX70 grade steel. Under this background, API-X80 steel has been developed and shall be applied to the several projects. In this paper, developing stage of API-X80 steel is also presented and discussed.

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Effects of the Coiling Temperature and Anisotropy on the Tensile Properties of High-Strength API X70 Linepipe Steel

  • Dong-Kyu Oh;Seung-Hyeok Shin;Sang-Min Lee;Byoungchul Hwang
    • Archives of Metallurgy and Materials
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    • 제67권4호
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    • pp.1487-1490
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    • 2022
  • In this study, the effect of the coiling temperature on the tensile properties of API X70 linepipe steel plates is investigated in terms of the microstructure and related anisotropy. Two coiling temperatures are selected to control the microstructure and tensile properties. The API X70 linepipe steels consist mostly of ferritic microstructures such as polygonal ferrite, acicular ferrite, granular bainite, and pearlite irrespective of the coiling temperature. In order to evaluate the anisotropy in the tensile properties, tensile tests in various directions, in this case 0° (rolling direction), 30°, 45° (diagonal direction), 60°, and 90° (transverse direction) are conducted. As the higher coiling temperature, the larger amount of pearlite is formed, resulting in higher strength and better deformability. The steel has higher ductility and lower strength in the rolling direction than in the transverse direction due to the development of γ-fiber, particularly the {111}<112> texture.

Mo 첨가 및 시편 방향에 따른 API X70 라인파이프강의 미세조직과 기계적 특성 (Effect of Molybdenum Addition and Specimen Orientation on Microstructure and Mechanical Properties of API X70 Linepipe Steels)

  • 오동규;신승혁;황병철
    • 한국재료학회지
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    • 제33권6호
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    • pp.251-256
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    • 2023
  • This study aims to examine the correlation between microstructures and the mechanical properties of two high-strength API X70 linepipe steels with different specimen directions and Moaddition. The microstructure of the Mo-added steel has an irregularly shaped AF, GB matrix with pearlite because of the relatively large deformation in the non-recrystallization temperature region, while that of the Mo-free steel shows a PF matrix with bainitic microstructure. In the Mo-added steel, the M/A (martensite-austenite) in granular bainite (GB) and pearlite act as crack initiation sites with decreased upper shelf energy and an increased ductile to brittle transition temperature (DBTT). Regardless of Mo addition, all of the steels demonstrate higher strength and lower elongation in the T direction than in the L direction because of the short dislocation glide path and ease of pile-up at grain boundaries. In addition, the impact test specimens with T-L direction had a lower impact absorbed energy and higher DBTT than those with the L-T direction because the former exhibit shorter unit crack path compared to the latter.

API X70 및 X80급 라인파이프강의 준정적 및 동적 비틀림 변형 거동 (Quasi-Static and Dynamic Torsional Deformation Behavior of API X70 and X80 Linepipe Steels)

  • 김용진;김양곤;신상용;이성학
    • 대한금속재료학회지
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    • 제48권1호
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    • pp.8-18
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    • 2010
  • This study aimed at investigating quasi-static and dynamic torsional deformation behavior of three API X70 and X80 linepipe steels. Quasi-static and dynamic torsional tests were conducted on these steels. having different grain sizes and volume fractions of acicular ferrite and polygonal ferrite, using a torsional Kolsky bar. The test data were then compared via microstructures and adiabatic shear band formation,. The dynamic torsional test results indicated that the steels rolled in the single phase region had higher maximum shear stress than the steel rolled in the two phase region, because the microstructures of the steel rolled in the single phase region were composed mainly of acicular ferrites. In the X80 steel rolled in the single phase region, the increased dynamic torsional properties could be explained by a decrease in the overall effective grain size due to the presence of acicular ferrite having smaller effective grain size. The possibility of adiabatic shear band formation was analyzed from the energy required for void initiation and variation in effective grain size.

ERW 용접 전후 API X70 라인파이프강의 미세조직과 기계적 특성 변화 (Effect of Electrical Resistance Welding on Microstructure and Mechanical Properties of API X70 Linepipe Steel)

  • 오동규;최예원;신승혁;정한길;곽진섭;황병철
    • 열처리공학회지
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    • 제35권4호
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    • pp.185-192
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    • 2022
  • Variations in the microstructure and mechanical properties of API X70 steel processed by piping, electrical resistance welding (ERW), and post seam annealing (PSA) are investigated in this study. In the welding zone, some elongated pearlites are formed and grains coarsening occurs due to extra heat caused by the ERW and PSA processes. After the piping, the base metal shows continuous yielding behavior and a decrease in yield and impact strengths because mobile dislocation and back stress are introduced during the piping process. On the other hand, the ERW and PSA processes additionally decreased the impact strength of welding zone at room and low temperatures because some elongated pearlites easily act as crack initiation site and coarse ferrite grains facilitate crack propagation. As a result, the fracture surface of the welding zone specimen tested at low temperature revealed mostly cleavage fracture unlike the base metal specimen.

X65 및 X70강 가스배관의 DWTT 및 파괴인성평가 (Estimation of fracture toughness of X65 and X70 steels by DWTT)

  • 조예원;송영호;김정민;김우식;박준식
    • 한국가스학회지
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    • 제16권3호
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    • pp.54-64
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    • 2012
  • 실 배관을 평가하는 DWTT (Drop Weight Tearing Test)의 파괴인성 값은 실 배관의 파괴인성 값 및 연성취성천이 온도를 예측할 수 있는 실험방법이므로, 최근 DWTT의 값에 대한 중요성이 증가되고 있다. 본 연구에서는 API X70과 API X65 라인파이프강의 DWTT 후의 온도에 따른 연성파면율, 역파면율, 흡수에너지와 온도 $-60^{\circ}C$~상온)와의 관계를 비교분석 하고자 하였다. X65과 X70의 값에서 마찬가지로 연성파면율 및 흡수에너지는 온도가 낮아질수록 함께 낮아지는 경향을 보였으며, X70의 경우에는 $-40^{\circ}C$ 까지 연성파괴를 보이는 반면, X65는 $-30^{\circ}C$ 까지 연성파괴를 보였다.

Study on EEC and SSC of the Electric Resistance Welded Linepipe Steel

  • Kim, Wan Keun;Koh, Seong Ung;Yang, Boo Young;Kim, Kyoo Young
    • Corrosion Science and Technology
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    • 제6권3호
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    • pp.96-102
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    • 2007
  • The resistance of the linepipe steel to hydrogen-induced cracking (HIC) and sulfide stress cracking (SSC) is very important for steel to be used in sour oil/gas environments. Welding of steels is necessary to the construction of pipe-line transporting oil/gas. In this study, HIC and SSC resistance of an electric resistance welded (ERW) steel plate which belongs to API X70 grade was evaluated by using NACE TM0284-96A and NACE TM0177-96A methods. HIC and SSC fracturing behavior was investigated by observing fractured surfaces using optical microscopy (OM) and scanning electron microscopy (SEM). It was discussed in terms of metallurgical parameters such as the distribution of primary microstructure, second phases and inclusions. Results showed that the weld joint of ERW steel is more sensitive than base metal to HIC and SSC. This is due to difference in the contribution of metallurgical parameters to HIC and SSC nucleation and propagation.