[논문]컨테이너선의 후 물재 용접부 취성 균열 전파에 대한 FCAW와 SAW의 비교 특성에 관한 연구

최경신; 이상훈; 최정주

doi:10.14775/ksmpe.2021.20.03.024

컨테이너선의 후 물재 용접부 취성 균열 전파에 대한 FCAW와 SAW의 비교 특성에 관한 연구
Comparison of the Characteristics of FCAW and SAW for the Brittle Crack Propagation of Welded Parts of BCA Steel in Container Ships 원문보기

한국기계가공학회지 = Journal of the Korean Society of Manufacturing Process Engineers, v.20 no.3, 2021년, pp.24 - 32

최경신 (창원대학교) , 이상훈 (로이드 선급) , 최정주 (동아대학교)

Abstract ▼ AI-Helper

The size of container ships is increasing to increase the cargo loading capacity. However, container ships are limited in terms of the hull longitudinal strength. To overcome this limitation, brittle crack arrest steel can be used. This study was aimed at examining the influence of the heat input on the welding procedures of flux cored arc welding and submerged arc welding. In the experiment, the crack tip opening displacement test, which pertains to a parameter of fracture mechanics, was performed, and a 3-point bending tester was adopted. Based on the results, the crack measurement method was presented, and the stress expansion coefficient value for the pre-fatigue crack length was derived according to the heat input after the pre-cracking length was measured. It was noted that the heat input affected the crack tip opening displacement of brittle crack arrest steel.

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문제 정의

On the other hand, welding with SAW (automatic) takes 1 to 2 days. This study provided the basis for how the application of the SAW process affects the weld integrity of extra thick plates.

가설 설정

1. In an experiment on the length of fatigue pre-crack, the stress intensity factor proportional to the length of the crack was similar regardless of the heat input.
^[4] While welding processes that can reduce the brittle crack arrest in the upper deck structure of container ships using crack arrest steel plates are being developed, the results of the CTOD studies on electro gas welding (EGW) have been verified;^[5] there are also verified CTOD studies on flux cored arc welding (FCAW) and submerged arc welding (SAW).^[6] In this study, we compared the characteristics of brittle fracture for welding processes (FCAW and SAW) in welds of high strength thick plates (YP40 BCA) that are suitable for the upper structure of container ships. Furthermore, CTOD experiments have been conducted to study the overall strength of irregularity between the weld metals in the heat-affected area.

제안 방법

Experiments were conducted after forming fatigue cracks at regular intervals on the notches of test pieces manufactured by two different processes. The load ()from the load cell and the displacement (__)from the clip gauge attached to the notch were identified.
In this experiment, the fatigue pre-crack measurement test was conducted to detect the presence of the tunneling effect on a specimen over 80 mm when the fatigue crack exists by using the three-point bending tester in accordance with BS 7448. The crack point continued until both surface cracks reached the target length, and Fig.

성능/효과

2. In the macroscopic deformation behavior of the test specimen, it was found that the displacement in the notch of FCAW was 26% less likely to occur in plastic deformation than in SAW.
3. CTOD shows that FCAW, which has lower heat input, maintains more of the specimens’ properties than SAW.
The maximum fatigue stress intensity factors applied in the fatigue crack stress phase were similar for all three specimens; while specimen 1 had more than 32,000 cycles, the other two specimens had ratios of less than 30, 000 cycles. The results are detailed in Table 5.

참고문헌 (11)

Handa, T., Suzuki, S., Tokura, M., Kiji, N., Nakanishi, Y., "Behavior of long brittle crack arrest in Tee joint structure of thick plate," Bulletin of the Japan Society of Naval Architects and Ocean Engineering, Vol. 4, pp. 461-462, 2007.
Honda, T., Kubo, T., Kawabata, F., Nishimura, K., Suzuki, S., Shiomi, H., Miyata, T., "Effect of Kca value on behavior of brittle crack arrest in Tee joint structure of thick plate," Bulletin of the Japan Society of Naval Architects and Ocean Engineering, Vo1. 4, pp. 459-460, 2007.
Inoue, T., Ishikawa, T., Imai, S., Koseki, T., Hirota, K., Tada, M., Kitada, H., Yamaguchi, Y., Yajima. H., "Long crack arrestability of heavy thick shipbuilding steels," Proceedings of the 16th International Offshore and Polar Engineering Conference 2006.
International Association of Classification Society, Application of YP47 steel plates, UR W31 rev.1 (2015)
An, Y. H., Bae, H. Y., Song, W. H., Jeong, B. Y., Hwang, W. T., Noh, H. D., "Welding Solutions for Brittle Crack Arrest in EGW Welded Joints of Ultra Large Container Ships," Collection of Special Lectures and Academic Presentation by the Korean Welding Society, pp. 140-140, 2019.
Choi, K. S., Lee, S. H., Chung, W. J., Hwang, H. G., Hong, S. H., Hong, J. H., "Study of Brittle Crack Propagation Welding for EH40 Steel Plate in Shipbuilding Steel," Journal of Korean Society of Manufacturing Process Engineers, Vo1. 18, No. 5, pp. 9-16, 2019.
Smith, N. J., Mcgrath, J. T., Gianetto and R. F. Orr.,"Micr ostru cture/M echa ni ca l/Pr opert y Relationship of Submerged Arc Welds in HSLA 80 Steel, Welding Journal," 68-3, pp. 112-120, 1989.
Mcgrath, J. T., Gianetto, J. A., "Some Factors Affecting the Notch Toughness Properties of High Strength HY80 Weldments, Canadian Metallurgical Quarterly," 25-4, pp. 349-356, 1987.

상세보기
Glover, A. G., Mcgrath, J. T., Tinkler, M. J., Weatherly, G. C., "The Influence of Cooling Rate and Composition on Weld Metal Microstructures in a C/Mn and HSLA Steel, Welding Journal," 56-9, pp. 267-273, 1977.
BS7448: Part 1 : 1991, "Fracture Mechanics Toughness Tests, Part 1. Method for the Determination of K IC , Critical CTOD and Critical J Values of Metallic Materials," (British Standard)
BS7448: Part 2 : 1997, "Fracture Mechanics Toughness Tests, Part 2. Method for the Determination of K IC , Critical CTOD and Critical J Values of Welding in Metallic Materials," (British Standard)

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컨테이너선의 후 물재 용접부 취성 균열 전파에 대한 FCAW와 SAW의 비교 특성에 관한 연구
Comparison of the Characteristics of FCAW and SAW for the Brittle Crack Propagation of Welded Parts of BCA Steel in Container Ships 원문보기

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컨테이너선의 후 물재 용접부 취성 균열 전파에 대한 FCAW와 SAW의 비교 특성에 관한 연구 Comparison of the Characteristics of FCAW and SAW for the Brittle Crack Propagation of Welded Parts of BCA Steel in Container Ships 원문보기

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컨테이너선의 후 물재 용접부 취성 균열 전파에 대한 FCAW와 SAW의 비교 특성에 관한 연구
Comparison of the Characteristics of FCAW and SAW for the Brittle Crack Propagation of Welded Parts of BCA Steel in Container Ships 원문보기

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