12-01-2012, 01:59 AM
EXPERIMENTAL STUDIES AND THEORETICAL MODELING OF CONCRETE SUBJECTED TO HIGH TEMPERATURES
Author: JAESUNG LEE | Size: 8.12 MB | Format: PDF | Quality: Original preprint | Publisher: JAESUNG LEE | Year: 2006 | pages: 269
![[Image: 39834101288013109488.jpg]](https://pic.civilea.com/images/39834101288013109488.jpg)
![[Image: info.png]](http://postgen.civilea.com/icon/info.png){kind=icon}
Understanding the properties of concrete under high temperature is essential
to enhance the fire resistance of reinforced concrete structures (RCS) and to provide
accurate information for fire design of RCS. Extensive studies on this important topic
were performed previously. However, the properties of concrete under high
temperature have not been fully understood. Even if there are numerous experimental
and theoretical results available in the literature, contradictions among observations
exist and need to be reconciled.
The studies performed in this thesis can be largely classified as four topics.
Among the four topics, two topics are experimental studies and the other two topics
are theoretical models.
The first experimental study is to find the effects of temperature and moisture
on deformation of concrete. Due to the dependency of the moisture on temperature, it
is not easy to distinguish experimentally the effects of temperature and moisture on
the deformation of concrete. Usually, the thermal strain of concrete, which is called
Conventional Thermal Strain (CTS) in this study, is obtained by measuring the
displacement change without moisture control. In this study, CTS, the strain caused
by temperature increase under constant humidity (Pure Thermal Strain: PTS), and the
strain caused by moisture change under constant temperature (Pure Hygro Strain:
PHS) are measured continually over time. From the data analysis based on the
measured strains, the thermo-hygro coupling effect in the temperature is obtained.
Previous experimental studies on concrete under high temperatures have
mainly concentrated on the strength reduction of concrete, even though the loss of
durability of concrete can severely reduce the remaining service life of the structure.
In the second experimental study, the strength, stiffness, and durability performance
of concrete subjected to various heating and cooling scenarios are investigated.
![[Image: download.png]](http://postgen.civilea.com/icon/download.png){kind=icon}
Code:
***************************************
Content of this section is hidden, You must be registered and activate your account to see this content. See this link to read how you can remove this limitation:
http://forum.civilea.com/thread-27464.html
***************************************![[-]](https://forum.civilea.com/images/collapse.png)