Recently, as an alternative to the residential type, the interest in the hanok has increased and the spread and expansion for the creative succession of the hanok have been actively performed. In this study, we carried out load test to evaluate the du...
Recently, as an alternative to the residential type, the interest in the hanok has increased and the spread and expansion for the creative succession of the hanok have been actively performed. In this study, we carried out load test to evaluate the durability according to the lattice structure of hanok window. Experiments were carried out by modularizing window lattice. Experiments were carried out using variables such as area, aspect ratio, type of paper, and type of load. As a result, the color hanji showed 27.5 ~ 200% higher load capacity than the yong yong yi. Both types of A200-12 specimens showed the highest yield strength. Also, the increase of the uniform distribution load with increasing area was evaluated as the aspect ratio was smaller. As a result of the load test of the concentrated load, the strength of the test specimen of the A100 series increased as the aspect ratio became smaller. In other words, A100-13 specimen with the smallest aspect ratio of 0.33 showed the greatest strength. Therefore, the durability of the lattice module of the window is considered to be better when the area of the module is larger and the aspect ratio of the concentrated load is smaller.