Add to ORKGThis chapter is aimed to develop and calibrate a quasi-distributed optical sensor network of long period fiber gratings and extrinsic Fabry-Perot interferometers for simultaneous high temperature and large strain measurements, and to validate it for the post-earthquake assessment of a steel frame in high temperature environments. The steel frame represent
Monitoring temperatures in structures during fires provides valuable information to 1) the firemen e...
In this paper, the results of distributed strain measurements inside the foundation slab of a high-r...
Fiber optic sensing technologies are emerging as valid alternatives for the health monitoring of civ...
Earthquake induced disasters have occurred more frequently in recent years. During or after a seismi...
In the process of a progressive failure of steel structures in a post-earthquake fire, real-time ass...
Due to earthquake effects, buildings often experience large strains, leading to progressive collapse...
Steel buildings are subjected to fire hazards during or immediately after a major earthquake. Under ...
This paper presents measurements of high temperatures using a Brillouin scattering based fiber optic...
This paper presents high temperature measurements using a Brillouin scattering-based fiber optic sen...
The distance changes between structural elements inside a building (e.g. walls, pillars, stairs, etc...
Traditionally, strain data are difficult, if not impossible, to obtain from steel structures in fire...
This study explores an instrumentation strategy using distributed fiber optic sensors to measure str...
This study investigates temperature distributions in steel-concrete composite slabs subjected to fir...
Reliable and accurate measurements of temperature and strain in structures subjected to fire can be ...
In this study, Brillouin scattering-based distributed fiber optic sensor is implemented to measure t...
Monitoring temperatures in structures during fires provides valuable information to 1) the firemen e...
In this paper, the results of distributed strain measurements inside the foundation slab of a high-r...
Fiber optic sensing technologies are emerging as valid alternatives for the health monitoring of civ...
Earthquake induced disasters have occurred more frequently in recent years. During or after a seismi...
In the process of a progressive failure of steel structures in a post-earthquake fire, real-time ass...
Due to earthquake effects, buildings often experience large strains, leading to progressive collapse...
Steel buildings are subjected to fire hazards during or immediately after a major earthquake. Under ...
This paper presents measurements of high temperatures using a Brillouin scattering based fiber optic...
This paper presents high temperature measurements using a Brillouin scattering-based fiber optic sen...
The distance changes between structural elements inside a building (e.g. walls, pillars, stairs, etc...
Traditionally, strain data are difficult, if not impossible, to obtain from steel structures in fire...
This study explores an instrumentation strategy using distributed fiber optic sensors to measure str...
This study investigates temperature distributions in steel-concrete composite slabs subjected to fir...
Reliable and accurate measurements of temperature and strain in structures subjected to fire can be ...
In this study, Brillouin scattering-based distributed fiber optic sensor is implemented to measure t...
Monitoring temperatures in structures during fires provides valuable information to 1) the firemen e...
In this paper, the results of distributed strain measurements inside the foundation slab of a high-r...
Fiber optic sensing technologies are emerging as valid alternatives for the health monitoring of civ...