OVERVIEW
The latest Engineering Trends and Issues
Tips & Tutorials Cable Elements Tension-Only Elements Truss Elements Compression-Only Elements Analysis Manual for Midas/Gen Two-Dimensional Plane Strain Element Two-Dimensional Axisymmetric Element Element Forces
Project Tutorial Tips & Tutorials Structural Design Cable Elements Tension-Only Elements Truss Elements Nonlinear Elements Compression-Only Elements
Project Tutorial Structure Insight High-rise building Low-rise building Construction Stage Analysis Structural Design Column Shortening
News & Trends Seismic Analysis Seismic Isolation Lead Rubber Bearing LRB Seismic Isolator Seismic Isolating System Friction Pendulum System
Tips & Tutorials Basement Modeling Underground Analysis Underground Modeling Basement Analysis
Structure Insight Seismic Analysis Seismic Loads Response Spectrum Analysis Nodal Body Force Static Seismic
News & Trends High-rise building Construction Stage Analysis Elastic Shortening Sequential Analysis Column Shortening Tall Building Long-Term Deflection Creep and Shrinkage
News & Trends Seismic Analysis RS Analysis Response Spectrum Analysis Irregular Building
News & Trends beam design as3600 aci813-14 column design Australian standard concrete design spacegass
Tips & Tutorials Membrane Element Shell Design News & Trend Plate Design Slab Design Wall Design
Time History Analysis Tips & Tutorials MIDAS GEN
Process in midas Gen
Time history analysis has a procedure similar to Pushover analysis. After running the analysis, the member force, hinge status, and story drift results should be checked.
Tips & Tutorials Cable Elements Nonlinear Analysis Tension-Only Elements Truss Elements Non-Linear Elements
Structure Insight moment redistribution
Structure Insight Seismic Analysis Pushover Analysis Seismic Load seismic design inelastic static analysis Performance Based Design Performance Based Seismic Design PBD Seismic Response Evaluation
News & Trends Plant Structures crane girder design guide white paper
News & Trends two-way slab flat slab design strip method flat slab drop panel column capital
Tips & Tutorials Basement Walls Design of Basement Wall
News & Trends Post-tensioned Slab PT Slab prestressed Slab post tension member design
Post-tensioning is a technique for reinforcing concrete. Post-tensioning tendons, which are prestressing steel cables inside plastic ducts or sleeves, are positioned in the forms before the concrete is placed. Afterward, once the concrete has gained strength but before the service loads are applied, the cables are pulled tight, or tensioned, and anchored against the outer edges of the concrete.
Post-tensioning is a form of prestressing. Prestressing simply means that the steel is stressed (pulled or tensioned) before the concrete has to support the service loads. Most precast, prestressed concrete is actually pre-tensioned-the steel is pulled before the concrete is poured. Post-tensioned concrete means that the concrete is poured and then the tension is applied-but it is still stressed before the loads are applied so it is still prestressed.
News & Trends Wind Loads ASCE 7-16 Design wind force wind pressures