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Experimental Monitoring of Electrical Properties of Porous Building Materials Exposed to Low Temperatures

机译：多孔建筑材料电气性能的实验监测暴露于低温下的电气性能

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A design of an experimental setup is presented in this paper. The experiment is aimed at determination of the electrical properties of building materials exposed to low temperatures. The primary objective of this research was to investigate the possibilities of electrical properties measurement and to identify weak points in the presented technique. Within this research, some initial data were obtained and presented and critical aspects of the measurement were identified. Based on that identification, objectives of further research were drawn.

机译：本文提出了一种实验设置的设计。实验旨在确定暴露于低温的建筑材料的电性能。该研究的主要目的是研究电气性能测量的可能性，并识别所提出的技术中的弱点。在该研究中，获得了一些初始数据，并呈现了测量的关键方面。基于该识别，绘制了进一步研究的目标。

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《International Meeting of Thermophysics》|2017年|various paging|共4页
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Jan Koci; Lukas Fiala;
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中图分类 TB94-53;
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1. Development of the experimental stand for investigation of heating and drying phenomena in the porous building materials with one surface of the sample exposed to the flowing air [J] . ?ukasz Cie?likiewicz, Piotr ?apka, Micha? Wasik, E3S Web of Conferences . 2018,第1期

机译：开发用于研究多孔建筑材料中加热和干燥现象的实验台，样品的一个表面暴露于流动的空气中
2. Development of the experimental stand for investigation of heating and drying phenomena in the porous building materials with one surface of the sample exposed to the flowing air [J] . ?ukasz Cie?likiewicz, Piotr ?apka, Micha? Wasik, E3S Web of Conferences . 2018,第3期

机译：开发用于研究多孔建筑材料中加热和干燥现象的实验台，样品的一个表面暴露于流动的空气中
3. A comment to 'Assessment of the effects of temperature and moisture content on the hygrothermal transport and storage properties of porous building materials' [J] . Chi Feng, Hans Janssen Heat and mass transfer . 2020,第8期

机译：评论“评估温度和水分含量对多孔建筑材料湿热运输和储存特性”的评估'
4. Experimental Monitoring of Electrical Properties of Porous Building Materials Exposed to Low Temperatures [C] . Jan Koci, Lukas Fiala International Meeting of Thermophysics . 2017

机译：多孔建筑材料电气性能的实验监测暴露于低温下的电气性能
5. Compressive and flexural properties of porous building materials created from contaminated waste glass. [D] . Prabhakar, Renuka. 2012

机译：由受污染的废玻璃制成的多孔建筑材料的压缩和弯曲特性。
6. Micropatterning Method for Porous Materials Using the Difference of the Glass Transition Temperature between Exposed and Unexposed Areas of a Thick-Photoresist [O] . Hidetaka Ueno, Kiichi Sato, Kou Yamada, 2020

机译：利用厚光刻胶曝光区和非曝光区之间玻璃化转变温度的差异对多孔材料进行微图案化的方法
7. Mechanical properties of various concrete after high temperature exposure Mechanical property of various types of concrete after high temperature exposure is investigated. Considering compressive strength requirement for a vertical element in high rise building, concrete specimens with various design strengths of 35, 80, 100, and 150 MPa were tested. Particularly, the influence of incorporated steel fiber on fire resistance is of interest in this study. Experimental results show that the fire resistance depends on the design strength and steel fiber content. Normal strength concrete (NSC) of a design strength of 35 MPa or high performance concrete (HPC) of 80-100 MPa does not spall when exposed to 100-400 °C of temperature. However, an explosive spalling occurs at 300 °C when the HPCs contain 1 vol. of steel fiber. Ultra-high performance concrete (UHPC) of a design strength of 150 MPa and 1.5 vol. of steel fiber also shows dramatic spalling at 300 °C. The experimental results found in this study can contribute to a better understanding of the behaviors of HPC and UHPC under fire and the role of steel fiber on the fire resistance. [O] . 2017

机译：研究了高温暴露后各种混凝土高温曝光机械性能各种混凝土的机械性能。考虑到高层建筑中垂直元件的抗压强度要求，测试了35,80,100和150MPa各种设计强度的混凝土试样。特别是，在这项研究中，掺入钢纤维对耐火性的影响。实验结果表明，耐火性取决于设计强度和钢纤维含量。在暴露于100-400°C的温度时，80-100MPa的设计强度为35MPa或高性能混凝土（HPC）的正常强度混凝土（NSC）不会击落。然而，当HPC含有1体积的钢纤维的百分比时，爆炸性剥落发生在300℃。超高性能混凝土（UHPC）的设计强度为150 MPa和1.5 Vol。钢纤维的百分比也显示出300℃的剧烈剥落。本研究中发现的实验结果可以有助于更好地了解在火灾中的HPC和UHPC的行为以及钢纤维对耐火性的作用。
8. Electrical Properties of Materials and Their Measurement at Low Temperatures [R] . Fickett, F. R. 1982

机译：材料的电学特性及其低温测量

Experimental Monitoring of Electrical Properties of Porous Building Materials Exposed to Low Temperatures

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