ANALYSIS OF DIAGRID STRUCTURE SYSTEM WITH STIFFNESS BASED METHOD AND ITS COMPARISON WITH CONVENTIONAL STRUCTURAL SYSTEM
High rise buildings continue to develop from time to time to meet human needs, limited resouces and expensive land especially in urban areas. But in modern era the needs of high rise building not only centered on structural efficiency but also versatile appearance and aesthtetic feature, one of t...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/39786 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | High rise buildings continue to develop from time to time to meet human needs,
limited resouces and expensive land especially in urban areas. But in modern era
the needs of high rise building not only centered on structural efficiency but also
versatile appearance and aesthtetic feature, one of the answer to building needs
that meets with the time is diagrid structural system. Diagrid is another form of
structural system, diagrid formed from diagonal shaped frames that connected
each other, diagrid material can consist of steel, concrete or lumber. The term
diagrid is combination of words “diagonal” and “grid” which refers to structural
system that gets structural integrity through the use of triangulation or triangle
formation. The diagrid structure system often uses diamond shapes to increase
stifness
Diagrid is not a new structural system, one of the earliest building that use
diagrid structural system built in 1960, but expensive cost and limited technology
makes diagrid development stagnated, at the early 2000 building that use diagrid
structural system start to appear again. In diagrid there is two main term, that is
module and node. Module is number of crystaline configuration floors, start from
at the end of diagomal member at the bottom floor module to end of diagonal
member at the upper floor module. Node is the point of intersection of the
diagonal member, one diagrid module can consist of 2 to 10 floor or more. The
selection of module and node diagrid will affect structural efficiency, appearance
and cost of diagrid building, so that the module and node design must be carried
out very accurately and very carefully.
Stiffness based method is the equation that was first proposed by Kyoung Sun
Moon in 2007. This method is used to obtain the diagonal member cross section
dimensions of the diagrid structural system. The equation procedure starts by
determining the total contribution of displacement of stcruture due to bending and
shear deformation. This designation is based of the assesment of diagrid intrinsic
atributtes and behaviour of high rise building characteristic that are related to the
ratio between the height versus width of the building and leads to deformation
values required by shear and bending. Furthermore the simpe equation proposed
by Moon changes the deformation values needed to cross sectional area for the
diagonal member diagrid structure.
The purpose of this study is to determine the performance of diagrid building
structure when compared to conventional building and how the optimal diagonal
member configuration for the diagrid building. There are 4 types of building
models to be reviewed, consists of 1 conventional building model and 3 diagrid
building models with different diagonal member configurations. The building
models will be analyzed using program ETABS and follow the applicable
provisions in Indonesia. The building models is assumed to be located in the DKI
Jakarta with soft soil sites classification. The result of the analysis that will be
compared include cross sectional dimensions at the building periphery, total
weight and base shear of the building, performance of service limits, time period
and the ratio between capacity and load of structrure components at the building
periphery.
From the observations made between the diagrid building and conventional
building it is known that diagrid building has a better structural performance. The
stiffness based equation method that used to obtain diagonal member cross
sections dimensions of the diagrid buidling also very helpful to reduce the
iterative process, but the diagonal member cross sections dimensions obtained
from this method have a quite big ratio between capacity and load so the cross
section dimensions seems wasteful and excessive. However the stiffness based
method can be used as an initial reference to determine the diagonal member
cross section of diagrid building |
|---|