FLAT ROLL ROOFS LIFE CYCLE MANAGEMENT IMPROVING WITH ADVANCED TECHNICAL STATE INSPECTION

A. Dolzhenko, A. Naumov, O. Shchenyatsky
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Abstract

The quality of life cycle management of flat rolled roofs depends on the effectiveness of the technology for assessing their physical deterioration, the value of which is significantly affected by the operating conditions of roofs and sources of impacts. Flat rolled roofs are the most common technical solutions in the real estate and are very defect-intensive building systems, the physical deterioration of which affects the structural safety and functional reliability not only of them, but of the entire building as a whole. Defects in flat rolled roofs, as well as defects in building structures in general, are in close organizational and technological relationship, in which the life cycle of an individual defect can be a synergistic multiplication or subtraction in defects life cycle parameters. The key flaw of modern methods for assessing physical deterioration are the initial and predominantly manual instrumental studies, in connection with which the methods are overly simplified, templated, subjective in natural assessment of life cycle resource intensity. In this regard, it seems promising targeted research related to the comprehensive improvement for construction and technical flaw detection methods, both in software improving that increases the reliability and quality of the factual result, and algorithms for predictive estimation of individual defects and building systems life cycles. That manages life cycle more effectively in the media of practical methods for dynamic defects analyzing and assessing the technical condition of structures in general. The paper presents mainline in improving of method for assessing the physical deterioration of flat rolled roofs, quantitatively taking into account the combined impact of defects on building system technical condition at its life cycle, significant expanding the operational tools for building technical management.
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采用先进的状态检测技术,提高了平卷屋顶全生命周期管理水平
平卷屋顶生命周期管理的质量取决于评估其物理退化的技术的有效性,其价值受到屋顶的操作条件和影响来源的重大影响。平卷屋顶是房地产中最常见的技术解决方案,并且是非常缺陷密集的建筑系统,其物理劣化不仅影响其结构安全和功能可靠性,而且影响整个建筑的整体可靠性。平卷屋顶的缺陷和一般建筑结构的缺陷有着密切的组织和技术关系,其中单个缺陷的生命周期可以是缺陷生命周期参数的协同乘法或减法。评估物理退化的现代方法的主要缺陷是最初的和主要的手工仪器研究,与此相关的方法在生命周期资源强度的自然评估中过于简化、模板化和主观。在这方面,似乎有希望进行有针对性的研究,包括对建筑和技术缺陷检测方法的全面改进,包括提高事实结果的可靠性和质量的软件改进,以及对单个缺陷和建筑系统生命周期进行预测估计的算法。这在动态缺陷分析和评估结构技术状况的实用方法中更有效地管理了生命周期。本文主要介绍了平卷屋顶物理劣化评估方法的改进,定量地考虑了缺陷在其生命周期内对建筑系统技术状况的综合影响,大大扩展了建筑技术管理的操作工具。
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