Add to ORKGDifferential axial shortening in vertical members of reinforced concrete high-rise buildings occurs due to shrinkage, creep and elastic shortening, which are time dependent effects of concrete. This has to be quantified in order to make adequate provisions and mitigate its adverse effects. This paper presents a novel procedure for quantifying the axial shortening of vertical members using the variations in vibration characteristics of the structure, in lieu of using gauges which can pose problems in use during and after the construction. This procedure is based on the changes in the modal flexiblity matrix which is expressed as a function of the mode shapes and the reciprocal of the natural frequencies. This paper will present the deve...
Even today, only a very few number of tall buildings are available in Sri Lanka, compared to other c...
An 80-storey reinforced concrete building located on the Gold Coast was instrumented to monitor axia...
As buildings inevitably increase in height, vertical support elements (e.g. columns and shear walls)...
Differential axial shortening in vertical members of reinforced concrete high-rise buildings occurs ...
Non linear deformation of concrete has an adverse impact on high-rise buildings with complex\ud geom...
Axial shortening of columns due to long term creep and shrinkage is inevitable in tall reinforced co...
Differential axial shortening, distortion and deformation in high rise buildings is a serious concer...
Axial shortening of columns in reinforced concrete buildings is a phenomenon that was commenced fro...
Differential distortion comprising axial shortening and consequent rotation in concrete buildings is...
This research developed and applied a comprehensive technique to evaluate the Differential Axial Sho...
Long term axial shortening in a tall concrete structure is a second-order effect that is of some im...
Axial shortening of columns and walls is inevitable in any reinforced concrete or hybrid steel-concr...
Use of Concrete Filled Steel Tube (CFST) columns are becoming increasingly popular in high rise buil...
Use of concrete filled steel tube columns is becoming increasingly popular in high rise buildings du...
This paper addresses axial shortening prediction of the vertical concrete elements of tall buildings...
Even today, only a very few number of tall buildings are available in Sri Lanka, compared to other c...
An 80-storey reinforced concrete building located on the Gold Coast was instrumented to monitor axia...
As buildings inevitably increase in height, vertical support elements (e.g. columns and shear walls)...
Differential axial shortening in vertical members of reinforced concrete high-rise buildings occurs ...
Non linear deformation of concrete has an adverse impact on high-rise buildings with complex\ud geom...
Axial shortening of columns due to long term creep and shrinkage is inevitable in tall reinforced co...
Differential axial shortening, distortion and deformation in high rise buildings is a serious concer...
Axial shortening of columns in reinforced concrete buildings is a phenomenon that was commenced fro...
Differential distortion comprising axial shortening and consequent rotation in concrete buildings is...
This research developed and applied a comprehensive technique to evaluate the Differential Axial Sho...
Long term axial shortening in a tall concrete structure is a second-order effect that is of some im...
Axial shortening of columns and walls is inevitable in any reinforced concrete or hybrid steel-concr...
Use of Concrete Filled Steel Tube (CFST) columns are becoming increasingly popular in high rise buil...
Use of concrete filled steel tube columns is becoming increasingly popular in high rise buildings du...
This paper addresses axial shortening prediction of the vertical concrete elements of tall buildings...
Even today, only a very few number of tall buildings are available in Sri Lanka, compared to other c...
An 80-storey reinforced concrete building located on the Gold Coast was instrumented to monitor axia...
As buildings inevitably increase in height, vertical support elements (e.g. columns and shear walls)...