Flexural Behavior of Unbounded Pre-stressed Beams Modified With Carbon Nanotubes under Elevated Temperature

  • سال انتشار: 1398
  • محل انتشار: ژورنال مهندسی عمران، دوره: 5، شماره: 4
  • کد COI اختصاصی: JR_CEJ-5-4_011
  • زبان مقاله: انگلیسی
  • تعداد مشاهده: 40
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نویسندگان

Amr H. Badawy

Assistant Researcher, Department of Civil Engineering, National Research Centre, Civil Engineering Department, Minia University,, Egypt

M. S. El-Feky

Researcher, Department of Civil Engineering, National Research Centre,, Egypt

Ahmed Hassan

Faculty of Engineering, Beni-suef University,, Egypt

Hala El-kady

Professor, Department of Civil Engineering, National Research Centre., Egypt

L. M. Abd-El Hafez

Professor, Civil Engineering Department, Nahda University, Civil Engineering Department, Minia University,, Egypt

چکیده

Since fire is one of the common reasons for rehabilitation and reconstructions during the service life of a building, it is necessary to assess the elements structural and technical conditions. The objective of the present paper is to investigate the flexural behavior in bending for unbounded full pre-stressed beams with and without the incorporation of carbon nanotubes (CNTs) under the exposure to elevated temperature in comparison with non-pre-stressed beams. The test Method was divided into two major stages where the principal stage's goal was considering the flexural behavior of fully and non-prestressed concrete beams containing CNT of ۰ and ۰.۰۴% as cement replacement at ambient temperature. In the second stage, a typical group of beams was prepared and the flexural behavior was explored under the exposure to temperature of ۴۰۰ºC, for ۱۲۰ minutes. The major findings upon monitoring the failure mechanisms, ultimate load capacity, and deflection at critical sections, was that the CNT had shown a significant impact on the behavior and extreme resistance of fully and non-prestressed normal concrete. With CNT beams also exhibited higher imperviousness to high-temperature than that of the normal beams. Finally the significant Improvement was that the ultimate load of the non-pre-stressed beam with the presence of the CNT at the lower ۵۰mm in the tension zone showed a gain of ۱۳%, while the ultimate load of the fully pre-stressed beam with the presence of the CNT at the lower ۵۰mm in the tension zone showed a gain of ۲۱% as compared to the same beam without CNT, respectively. For the non-pre-stressed beams, the load capacity of the beam with CNT after exposure had a similar load capacity as the beam without CNT before exposure to high temperature.Since fire is one of the common reasons for rehabilitation and reconstructions during the service life of a building, it is necessary to assess the elements structural and technical conditions. The objective of the present paper is to investigate the flexural behavior in bending for unbounded full pre-stressed beams with and without the incorporation of carbon nanotubes (CNTs) under the exposure to elevated temperature in comparison with non-pre-stressed beams. The test Method was divided into two major stages where the principal stage's goal was considering the flexural behavior of fully and non-prestressed concrete beams containing CNT of ۰ and ۰.۰۴% as cement replacement at ambient temperature. In the second stage, a typical group of beams was prepared and the flexural behavior was explored under the exposure to temperature of ۴۰۰ºC, for ۱۲۰ minutes. The major findings upon monitoring the failure mechanisms, ultimate load capacity, and deflection at critical sections, was that the CNT had shown a significant impact on the behavior and extreme resistance of fully and non-prestressed normal concrete. With CNT beams also exhibited higher imperviousness to high-temperature than that of the normal beams. Finally the significant Improvement was that the ultimate load of the non-pre-stressed beam with the presence of the CNT at the lower ۵۰mm in the tension zone showed a gain of ۱۳%, while the ultimate load of the fully pre-stressed beam with the presence of the CNT at the lower ۵۰mm in the tension zone showed a gain of ۲۱% as compared to the same beam without CNT, respectively. For the non-pre-stressed beams, the load capacity of the beam with CNT after exposure had a similar load capacity as the beam without CNT before exposure to high temperature.

کلیدواژه ها

Full Pre-Stressed Beam Carbon Nanotubes Elevated Temperature Unbounded Pre-Stressed Crack Pattern.

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