Criterion for earthquake resistant design / Shivsharan Sharma.
Material type: TextLanguage: English Publication details: New Delhi : Random Publications LLP, 2022.Description: 267 pages : illustrations ; 24 cmContent type:- text
- unmediated
- volume
- 9789393884480 (hardcover)
- TA658.44 Sh2 2022
Item type | Current library | Collection | Call number | Materials specified | URL | Status | Notes | Date due | Barcode |
---|---|---|---|---|---|---|---|---|---|
Books | Ladislao N. Diwa Memorial Library Reserve Section | Non-fiction | RUS TA658.44 Sh2 2022 (Browse shelf(Opens below)) | Link to resource | Room use only | 80922 | 00083065 |
Browsing Ladislao N. Diwa Memorial Library shelves, Shelving location: Reserve Section, Collection: Non-fiction Close shelf browser (Hides shelf browser)
RUS TA403.6 H38 2019 Materials for construction : civil engineering fundamentals / | RUS TA654.6 Aw1 2018 Advances in earthquake research / | RUS TA658.44 Se4 2015 Seismic design of concrete buildings to eurocode 8 / | RUS TA658.44 Sh2 2022 Criterion for earthquake resistant design / | RUS TA683.2 T41 2014 Reinforced cement concrete design / | RUS TA683.2 V42 2013 Limit state design of reinforced concrete / | RUS TA703.5 G29 2018 Geotechnical engineering and soil science / |
Includes bibliographical references and index.
Designing for Earthquake Resistance and Structures -- Design Parameters of Foundations in Seismic Zones of Earthquake -- Earthquake Prediction -- Seismic Retrofit, Earthquake Resistant Techniques -- Earthquake and Construction Engineering -- Controlling Hazards Through Design -- Geological Consideration for Construction of Building -- Safety Management in Building Structures Management -- Seismic Design and Structural Engineering Theory.
"The buildings affected by earthquake may suffer both non-structural and structural damages. This standard lays down guidelines for non-structural/architectural as well as structural repairs, seismic strengthening and seismic retrofitting of existing buildings. Guidelines have been given for selection of materials for repair work such as cement, steel, epoxy resins, epoxy mortar, quick setting cement mortar and special techniques such as shotcrete, mechanical anchorage etc. Seismic strengthening techniques for the modification of roots or floors, inserting new walls, strengthening existing walls, masonry arches, random rubble masonry walls, strengthening long walls, strengthening reinforced concrete members and strengthening of foundations. Building codes generally are intended to be applied by architects and engineers but also are used for various purposes by safety Inspectors, environmental scientists, real estate developers, contractors and subcontractors, manufacturers of building products and materials, Insurance companies, facility managers, tenants, and others. Most of the existing seismic design codes are based on the empirical knowledge accumulated through systematic earthquake damage data collection and their analysis. Required levels of protection and seismic design forces gradually are increased after each series of catastrophic earthquakes particularly in developed countries. Many efforts have been made through experimental and analytical studies to improve detailing and to increase inelastic capacity of buildings and structures to resist earthquake ground motions with acceptable damage levels. The general believe was that empirically developed seismic design codes contain performance objectives, but usually in a descriptive form that cannot be quantified and that explicit code design for He safety provides adequate damage protection. This book Earthquake resistant design consists of an evaluation of the earthquake excitation and the structure response to this excitation at a particular site in order to provide a structural System that will not collapse, that may prevent loss of life and will limit economic loss during an earthquake."--Back cover
Fund 164 Wiseman's Books Trading, Inc. Purchased 08/30/2022 80922 pnr PHP 7,995.00 2022-08-634 2022-1-0743