A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Assessment of Earthquake Response Characteristics and Design Procedures for Port and Harbor Facilities
Information regarding the behavior of port and harbor facilities during earthquakes is presented and the procedures used for the seismic design and analysis of such facilities are considered. It is noted that most of the observed major earthquake-induced damage to port and harbor facilities has resulted from large-scale liquefaction and/or sliding of the loose, saturated, cohesionless soil materials that are prevalent in and around port and harbor facility sites. Even when complete liquefaction and/or sliding have not occurred, the soil deposits and backfill materials in the vicinity of port and harbor facilities have often undergone significant earthquake-induced deformations that have caused substantial damage. Structure-specific design considerations for quay walls, sheet-pile bulkheads, piers, and pile supports are summarized. Dynamic analysis techniques are shown to provide an important means for enhancing facility designs and seismic design provisions.
Assessment of Earthquake Response Characteristics and Design Procedures for Port and Harbor Facilities
Information regarding the behavior of port and harbor facilities during earthquakes is presented and the procedures used for the seismic design and analysis of such facilities are considered. It is noted that most of the observed major earthquake-induced damage to port and harbor facilities has resulted from large-scale liquefaction and/or sliding of the loose, saturated, cohesionless soil materials that are prevalent in and around port and harbor facility sites. Even when complete liquefaction and/or sliding have not occurred, the soil deposits and backfill materials in the vicinity of port and harbor facilities have often undergone significant earthquake-induced deformations that have caused substantial damage. Structure-specific design considerations for quay walls, sheet-pile bulkheads, piers, and pile supports are summarized. Dynamic analysis techniques are shown to provide an important means for enhancing facility designs and seismic design provisions.
Assessment of Earthquake Response Characteristics and Design Procedures for Port and Harbor Facilities
S. J. Hung (author) / S. D. Werner (author)
1982
15 pages
Report
No indication
English
Civil Engineering , Soil & Rock Mechanics , Earthquakes , Seaports , Harbor facilities , Earthquake resistant structures , Sea walls , Bulkheads , Settlement(Structural) , Earth pressure , Structural design , Dynamic structural analysis , Seismic design , Liquefaction(Soils) , Earthquake engineering
Seismic Response of Port and Harbor Facilities
| NTIS | 1982
Harbor facilities without harbor
| Engineering Index Backfile | 1958
| British Library Online Contents | 2006
| British Library Conference Proceedings | 2007