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@inproceedings{50982, author = {Plachý, Jan and Vysoká, Jana and Vejmelka, Radek}, address = {Spojené království}, booktitle = {IOP Conference Series: Materials Science and Engineering}, doi = {http://dx.doi.org/10.1088/1757-899X/471/3/032078}, edition = {471}, editor = {Yilmaz I.,Decky M.,Rybak J.,Dabija A.-M.,Marschalko M.,Coisson E.,Drusa M.,Segalini A.}, keywords = {reinforced bitumen sheets for waterproofing (RBS); softening point; bitumen; mass of bitumen; flow resistance; Method of Ring and Ball}, howpublished = {elektronická verze "online"}, language = {eng}, location = {Spojené království}, pages = {1-10}, publisher = {Institute of Physics Publishing}, title = {Mutual correlation between softening point and flow resistance at elevated temperature according to bitumen mass in bitumen sheets}, year = {2019} }
TY - JOUR ID - 50982 AU - Plachý, Jan - Vysoká, Jana - Vejmelka, Radek PY - 2019 TI - Mutual correlation between softening point and flow resistance at elevated temperature according to bitumen mass in bitumen sheets PB - Institute of Physics Publishing CY - Spojené království KW - reinforced bitumen sheets for waterproofing (RBS) KW - softening point KW - bitumen KW - mass of bitumen KW - flow resistance KW - Method of Ring and Ball N2 - Bitumen sheets are isolating materials that are used in the building construction, primarily as roof waterproofing, vapor barrier and waterproofing of the substructure. For civil engineering they are applied as the isolation of concrete bridge decks and they are used as the main waterproofing for underground construction. Currently, bitumen sheets mentioned above are modified by polymers of elastomer and plastomer. In the places where the bitumen sheets are exposed to UV radiation or to high temperatures, the manufacturer is, according to the product standards, required to declare the flow resistance at elevated temperatures. This paper deals with the investigation of the interdependence between the flow resistance at elevated temperature and the softening point of the bitumen matter in these bitumen sheets. In practice, the results of this dependence are often used in the production of bitumen sheets during the inter-operative check, where the softening point value determines the value of the flow resistance at elevated temperature. This allows to determine whether the produced bitumen sheets will fulfill the values declared by the manufacturer with advance. Since the test for detection of the value of the softening point takes in average 30 minutes then it is possible to react quickly and efficiently during the production and to make the appropriate corrections. Reinforced bitumen sheets which are used for waterproofing of the isolation of concrete bridge decks were selected as the samples from various manufacturers. In practice, this aforementioned dependency is often cited but it is not explicitly documented by a sufficiently large number of samples. The authors of this article found during the previous research that the dependence is influenced by the temperature value – the higher the temperature, the more obvious is the dependence. For this reason, it is very evident in the case of bitumen sheets modified by polymers of the plastomeric character. The hypothesis, that there exists some relationship between the flow resistance at high temperatures concerning to bitumen sheets and the softening point of the bitumen matter, was confirmed only partially. The aim of the paper is to confirm or refute the hypothesis even for materials modified by polymers of elastomeric character. For this reason, the number of bitumen sheets modified by polymers of both plastic and elastomeric character was increased. Results were formulated based on the statistical evaluation of data obtained from laboratory measurements. ER -
PLACHÝ, Jan, Jana VYSOKÁ and Radek VEJMELKA. Mutual correlation between softening point and flow resistance at elevated temperature according to bitumen mass in bitumen sheets. In Yilmaz I.,Decky M.,Rybak J.,Dabija A.-M.,Marschalko M.,Coisson E.,Drusa M.,Segalini A. \textit{IOP Conference Series: Materials Science and Engineering}. 471st ed. Spojené království: Institute of Physics Publishing. p.~1-10. ISSN~1757-8981. doi:10.1088/1757-899X/471/3/032078. 2019.
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