Effect of Mass Loss of Organic Fiber on the Water Vapor Pressure and Moisture Migration of 150 and 200 MPa Ultra-High Strength Concrete Exposed to High Temperature

Gyeongcheol Choe; Gyuyong Kim; Jeongsoo Nam; Hongseop Kim; Euichul Hwang; Sangkyu Lee

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Effect of Mass Loss of Organic Fiber on the Water Vapor Pressure and Moisture Migration of 150 and 200 MPa Ultra-High Strength Concrete Exposed to High Temperature

机译：有机纤维大气损失对150和200MPa超高强度混凝土水蒸气压力和水分迁移的影响暴露于高温

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In this study, 150 and 200 MPa ultrahigh-strength concrete (UHSC) specimens were mixed with polypropylene and nylon fibers and heated according to the ISO 834 heating curve. The effects of mass loss of each organic fiber on moisture migration and water vapor pressure reduction in concrete were assessed. Spalling was controlled when 0.15 to 0.25 vol% fiber was added to the specimens. The mass loss of the organic fibers effect on the pore network formation in UHSC. The nylon fiber formed pores below melting temperature via drying and allowed for moisture movement, whereas the propylene fiber effectively reduced the vapor pressure because of rapid mass loss above the melting temperature.

机译：在本研究中，将150和200MPa超高强度混凝土（UHSC）标本与聚丙烯和尼龙纤维混合并根据ISO 834加热曲线加热。评估了各有机纤维对混凝土水分迁移和水蒸气压力的影响。当向试样加入0.15至0.25体积％的纤维时控制剥落。有机纤维的质量损失对UHSC的孔网络形成影响。尼龙纤维通过干燥形成熔融温度以下的孔并允许水分运动，而丙烯纤维由于高于熔化温度的快速质量损失而有效地降低了蒸汽压力。

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《Journal of advanced concrete technology》 |2020年第6期|共13页
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Gyeongcheol Choe; Gyuyong Kim; Jeongsoo Nam; Hongseop Kim; Euichul Hwang; Sangkyu Lee;
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1. Ultra-High Performance Concrete with Compressive Strength Exceeding 150 MPa (22 ksi): A Simpler Way [J] . Kay Wille, Antoine E. Naaman, Gustavo J. Parra-Montesinos ACI Materials Journal . 2011,第1期

机译：抗压强度超过150 MPa（22 ksi）的超高性能混凝土：一种更简单的方法
2. Vapor-Liquid Equilibria Measurements of Methane + 2-Methylpropane (Isobutane) at Temperatures from (150 to 250) K and Pressures to 9 MPa [J] . Mohamed E. Kandil, Eric F. May, Brendan F. Graham Journal of Chemical and Engineering Data: the ACS Journal for Data . 2010,第8期

机译：甲烷+ 2-甲基丙烷（异丁烷）在（150至250）K温度和9 MPa压力下的汽液平衡测量
3. Evaluation of the mechanical properties of 200 MPa ultra-high-strength concrete at elevated temperatures and residual strength of column [J] . Choe Gyeongcheol, Kim Gyuyong, Gucunski Nenad, Construction and Building Materials . 2015,第jula1期

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4. Water vapor pressure of high-strength concrete mixed with amorphous metallic fiber and polypropylene fiber at high temperature [C] . Suh Dongkyun, Hwang Euichul, Lee Sangkyu, 日本建築学会大会;日本建築学会 . 2020

机译：高强度混凝土水蒸汽压力与无定形金属纤维和高温聚丙烯纤维混合
5. Spalling Resistance of Fiber-Reinforced Ultra-High-Strength Concrete Subjected to the ISO-834 Standard Fire Curve: Effects of Thermal Strain and Water Vapor Pressure [O] . Taegyu Lee, Gyuyong Kim, Gyeongcheol Choe, 2020

机译：纤维增强超高强度混凝土的剥落电阻对ISO-834标准火灾曲线进行：热应变和水蒸气压力的影响
6. Effect of Mass Loss of Organic Fiber on the Water Vapor Pressure and Moisture Migration of 150 and 200 MPa Ultra-High Strength Concrete Exposed to High Temperature [O] . Gyeongcheol Choe, Gyuyong Kim, Jeongsoo Nam, 2020

机译：有机纤维大气损失对150和200MPa超高强度混凝土水蒸气压力和水分迁移的影响暴露于高温
7. Effects of Water-Saturation on Strength and Ductility of Three Igneous Rocks at Effective Pressures to 50 MPa and Temperatures to Partial Melting [R] . Bauer, S. J., Friedman, M., Handin, J. 1981

机译：水饱和度对有效压力为50 mpa的三种火成岩强度和延性及部分熔融温度的影响

Effect of Mass Loss of Organic Fiber on the Water Vapor Pressure and Moisture Migration of 150 and 200 MPa Ultra-High Strength Concrete Exposed to High Temperature

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