This study investigates the deformation behavior of AH32 steel plates under various line heating conditions in the post line-heating process. A total of 24 experimental cases were conducted by varying material thickness (12mm, 16mm, 20mm), heating speed, oxygen and acetylene flow rates, and torch tip size. Deformation was measured at 35 points per specimen, with emphasis on the maximum deformation at the 300mm X-axis location. The deformation results were classified into three groups: high (≥4.0mm), medium (2.0–3.9mm), and low (≤1.0mm). The results confirmed that material thickness had the greatest effect on deformation, followed by heat input parameters such as heating speed and gas flow rate. High deformation occurred under low heating speed and high flow rate conditions, while low deformation was observed in thick plates with fast heating and low flow rates. These findings highlight the importance of controlling heat input and geometric factors for deformation correction. The data acquired from this study can be utilized as a reference for optimizing automated post line-heating processes in shipbuilding.

Abstract
1. 서 론
2. 실험방법
    2.1 실험 소재
    2.2 실험 조건 및 방법
3. 실험결과 및 고찰
    3.1 고변형량 (변형량 ≥ 4.0 mm)
    3.2 중간변형량 (변형량 2.0 mm ~ 3.9 mm)
    3.3 저변형량 (변형량 ≤ 1.0 mm)
4. 결 론
후 기
References

• 김재웅(Docter, Korea Institute of Industrial Technology) | Jae-Woong Kim Corresponding author
• 김영현(Korea Institute of Industrial Technology) | Young-Hyun Kim
• 하을용(Korea Institute of Industrial Technology) | Eul-Yong Ha
• 김명호(Korea Institute of Industrial Technology) | Myoung-Ho Kim
• 김유진(Taejin Co., Ltd.) | Yu-Jin Kim
• 여태곤(Taejin Co., Ltd.) | Tae-Gon Yeo