Your search keyword '"Ho-Chan Jeon"' showing total 4 results

1. Reductions in the Laser Welding Deformation of STS304 Cylindrical Structure Using the Pre-Stress Method

Author

Se-Hwan Lee, Ho-Chan Jeon, and Jeong-Ung Park

Subjects

welding deformation, welding deformation-prevention jig, cylindrical structures, STS304, laser welding, pre-stress method, Mining engineering. Metallurgy, TN1-997

Abstract

Welding deformation occurs due to non-uniform thermal expansion, thermal contraction, restraint, and phase transformation in a metal by a local welding heat source. This causes problems such as low buckling strength and the reduced workability of the production process. Correcting welding deformations in stainless steel using heat—such as by linear heating—causes metal sensitization, which should be avoided. Herein, welding deformation was reduced by applying tension stress instead of correcting the deformation by heating. A deformation-prevention jig was used to reduce welding deformation during the manufacturing of a cylinder made of STS304 by laser welding. The tensile stress was induced by pushing the cylinder shell outward using the deformation-prevention jig. A thermo-elastoplastic analysis was performed to investigate the effects of the magnitude of the tensile stress on welding deformation. Furthermore, the parametric results—which indicated a reduction in welding deformation—were verified through experiments. The thermo-elastoplastic analysis suggested that deformation did not occur when the magnitude of tensile stress was approximately 50% of the yield stress of the base metal. Moreover, the deformation was experimentally reduced by 11–20% when a tensile stress of 30 MPa was applied to the cylinder, compared with that in the absence of tensile stress.

Published

2023

2. Laser Welding Deformation Control of STS304 Cylindrical Steel Sheet Structure

Author

Dae-Oen Lee, Keun-Soo Park, Se-Hwan Lee, Ho-Chan Jeon, Seong-Tae Kim, and Jeong-Ung Park

Subjects

Materials science, Sheet structure, Laser beam welding, Deformation control, Composite material

Published

2020

3. Thermal buckling measurement of a laminated composite plate under a uniform temperature distribution using the digital image correlation method

Author

Nam Seo Goo, Ho Chan Jeon, Vinh Tung Le, Ngoc San Ha, and Tailie Jin

Subjects

Digital image correlation, Uniform distribution (continuous), Materials science, business.industry, Composite number, Structural engineering, Finite element method, Buckling, Composite plate, Ceramics and Composites, Boundary value problem, Composite material, Deformation (engineering), business, Civil and Structural Engineering

Abstract

This paper presents the use of the Digital Image Correlation (DIC) technique to investigate the thermal buckling of a circular laminated composite plate subjected to a uniform distribution of temperature load. The circular laminated composite plate made of glass/epoxy was placed in a titanium ring without being fixed and the structure was heated from room temperature 30 °C to 120 °C in the heating chamber. The thermal deformation and strain of the composite plate resulting from the thermal load were measured using DIC. The buckling temperature and the first buckling mode shape were determined from the full-field deformation shape and temperature–displacement curve that were obtained from the experiment. In addition, the buckling temperature of the circular composite plate was also studied using energy theory. The results of the buckling temperature from DIC were close to the theoretical buckling temperature of the circular plate found using a simply supported boundary condition. In order to verify the proposed measurement method, the finite element analysis method was used to perform a nonlinear buckling analysis with the influence of imperfections. These results show that the present method is promising for studying thermal buckling of composite structures in diverse fields such as aerospace engineering.

Published

2015

4. Analysis of Thermal Deformation of Co-bonded Dissimilar Composite considering Non-linear Thermal Expansion Characteristics of Composite Materials

Author

Jeong-Beom Kim, Ho-Chan Jeon, and Hong-Il Kim

Subjects

Work (thermodynamics), Digital image correlation, Materials science, Composite number, chemistry.chemical_element, Epoxy, Thermal expansion, Nonlinear system, chemistry, Distortion, visual_art, visual_art.visual_art_medium, Composite material, Carbon

Abstract

The co-bonded dissimilar composite under a wide range of temperature change shows thermal distortion due to the differences in thermal expansion characteristics of the composite materials. Analysis of the thermal expansion characteristics of each composite is required for the design of co-bonded dissimilar composite structure with considering the shape distortion during the manufacturing process. In this work, digital image correlation (DIC) technique is introduced for measuring the thermal distortion characteristics of co-bonded dissimilar composite specimen, carbon/epoxy and silica/phenolic. The thermal distortion of co-bonded dissimilar composite specimen is numerically estimated and compared with the experiments. The estimated results is successfully validated using the measured results.

Published

2014