논문 상세보기

회전 마찰형 제진장치의 이력특성에 대한 실험적 연구 KCI 등재

Experimental Study the on Hysteretic Characteristics of Rotational Friction Energy Dissipative Devices

  • 언어KOR
  • URLhttps://db.koreascholar.com/Article/Detail/242369
구독 기관 인증 시 무료 이용이 가능합니다. 4,000원
한국지진공학회 (Earthquake Engineering Society of Korea)
초록

Friction energy dissipative devices have been increasingly implemented as structural seismic damage protecting systems due to their excellent seismic energy dissipating capacity and high stiffness. This study develops rotational friction energy dissipative devices and verifies experimentally their cyclic response. Based on the understanding of the differences between the traditional linear-motion friction behavior and the rotational friction behavior, the configuration of the frictional surface was determined by investigating the characteristics of the micro-friction behavior. The friction surface suggested in this paper consists of brake-lining pads and stainless steel sheets and is normally stressed by high-strength bolts. Based upon these frictional characteristics of the selected interface, the rotational friction energy dissipative devices were developed. Bolt torque-bearing force tests, rotational friction tests of the suggested friction interfaces were carried out to identify their frictional behavior. Test results show that the bearing force is almost linearly proportional to the applied bolt torque and presents stable cyclic response regardless of the experimental parameters selected this testing program. Finally, cyclic tests of the rotational friction energy dissipative devices were performed to find out their structural characteristics and to confirm their stable cyclic response. The developed friction energy dissipative devices present very stable cyclic response and meet the requirements for displacement-dependent energy dissipative devices prescribed in ASCE/SEI 7-10.

저자
  • 박진영(서울시립대학교 건축공학과) | Park, Jin-Young
  • 한상환(한양대학교 건축공학과) | Han, Sang Whan
  • 문기훈(한양대학교 건축공학과) | Moon, Ki-Hoon
  • 이강석(전남대학교 건축학부) | Lee, Kang Seok
  • 김형준(서울시립대학교 건축공학과) | Kim, Hyung-Joon Corresponding author