Most of the existing strong motion instrumentation on civil engineering structures is installed and operated as federal, state, university, industry or private applications, in many cases operated as a closed system. This hampers co-operation and data exchange, hampering the acquisition of strong motion and structural data, sometimes even within a single country. There is a powerful need to inform engineers of existing strong motion data and to improve the accessibility of data worldwide. This book will play a role in fulfilling such a need by disseminating state-of-the art information, technology and developments in the strong motion instrumentation of civil engineering structures. The subject has direct implications for the earthquake response of structures, improvements in design for earthquake resistance, and hazard mitigation. Readership: Researchers in earthquake engineering, engineers designing earthquake resistant structures, and producers of strong motion recording equipment.The nonstructural damage was extensive, and about 80 percent of all repair cost was used to fix drywall partitions, bathroom tiles and plumbing fixtures. The damage was most extensive on the second and third floors and minimal at the sixthanbsp;...
|Title||:||Strong Motion Instrumentation for Civil Engineering Structures|
|Author||:||Mustafa Özder Erdik, Mehmet Çelebi, Vladimir Mihailov, Nurdan Apaydin|
|Publisher||:||Springer Science & Business Media - 2012-12-06|