ASSESSMENT OF FIRE RESISTANCE OF FIREPROOF STEEL BEAMS

A. Kovalov, Roman Purdenko, Y. Otrosh, Vitalii Tomenko, Evhen Kachkar, R. Maiboroda
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Abstract

Purpose. Development of a computer model for the study of fire resistance of steel structures protected by fire-resistant coatings, using the example of a fire-resistant steel beam created in the LIRA-SAPR software complex (Ukraine). Methods. Finite element method, application of computational methods of numerical modelling of the LIRA-SAPR software complex, mathematical modelling of thermal processes of non-stationary thermal conductivity. Results. A computer model was developed in the LIRA- SAPR software complex, with the help of which thermal engineering calculation of the beam was carried out. The model makes it possible to evaluate the fire resistance of both unprotected and fire-protected steel beams, to take into account the properties of the beam material and the material of the fire-resistant coating. The peculiarity of modelling the non-stationary heating of a fire-resistant steel beam is to specify the thermophysical characteristics of the fire-resistant coating when solving the problem of non-stationary thermal conductivity. The results of the calculated determination of the fire resistance of the fire-resistant steel beam were compared with experimental data. As a result, a satisfactory convergence of the results of the calculation and experimental study of fire resistance was established (the error is no more than 12%). The results of the experimental determination of the fire resistance of unloaded beams under fire conditions of the standard fire temperature regime were analysed. The accuracy of the developed computer model was evaluated with the results of the experiment. Scientific novelty. A finite-element model of a fire-resistant steel beam has been developed in the LIRA- SAPR software complex, which allows calculating the fire resistance limits of beams protected by fire-resistant coatings with scientifically justified parameters with sufficient accuracy for engineering calculations. Practical significance. It consists in creating the basis for the calculated assessment of fire resistance of building structures protected by fire-resistant coatings by creating computer models capable of performing fire resistance calculations. Due to this, there should be a significant reduction in the cost of work on fire resistance assessment and, as a result, an increase in the effectiveness of measures to increase the fire resistance of building structures.
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防火钢梁的耐火性评定
目的。以乌克兰LIRA-SAPR软件综合体中创建的耐火钢梁为例,开发了一个计算机模型,用于研究由耐火涂层保护的钢结构的耐火性能。方法。有限元法,应用计算方法对LIRA-SAPR软件复合体进行数值模拟,对非平稳导热过程进行数学建模。结果。在LIRA- SAPR软件综合体中建立了计算机模型,并利用该模型对梁进行了热工计算。该模型使评估无保护和防火钢梁的耐火性能成为可能,同时考虑了梁材料和防火涂层材料的性能。耐火钢梁非定常加热建模的特点在于,在求解非定常导热问题时,可以明确耐火涂层的热物理特性。对耐火钢梁耐火性能的计算结果与试验数据进行了比较。结果表明,计算结果与试验研究结果吻合较好(误差不超过12%)。分析了在标准火灾温度条件下,对空梁耐火性能的试验测定结果。用实验结果对所建立的计算机模型的准确性进行了评价。科学的新奇。在LIRA- SAPR软件综合体中开发了一个耐火钢梁的有限元模型,该模型允许计算具有科学合理参数的耐火涂层保护的梁的耐火极限,具有足够的工程计算精度。现实意义。它包括通过创建能够进行防火计算的计算机模型,为耐火涂料保护的建筑结构的防火性计算评估提供基础。因此,在防火评估方面的工作成本应该会显著降低,从而提高提高建筑结构防火性措施的有效性。
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