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dc.contributor.authorLebedev, M. S.-
dc.contributor.authorChulkova, I. L.-
dc.date.accessioned2018-10-25T08:24:02Z-
dc.date.available2018-10-25T08:24:02Z-
dc.date.issued2017-
dc.identifier.urihttp://dspace.bstu.ru/jspui/handle/123456789/1860-
dc.descriptionLebedev M. S. Study of structure formation in bitumen-mineral compositions based on fly ash under water saturation / M. S. Lebedev, I. L. Chulkova // Advances in Engineering Reeseach (Actual Issues of Mechanical Engineering AIME 2017). - 2017. - Vol. 133. - P. 403-408.ru_RU
dc.description.abstractThe industrial powder waste from thermal power plants such as fly ash is used as asphalt or mineral filler due to its properties and dispersibility. However, the conflicting data on the fly ash usage are due to the different compositions, dispersibility, reaction capacity of the used fly ash. This paper presents the detailed research of the structuring process in bitumen-mineral compositions experimentally studied under the water saturation tests. The water saturation for the asphalt cements evaluates the strength of adhesion of the binder film to the particle surface as well as the stability of the bitumen-mineral structure when saturating water under the reduced pressure and elevated temperature. Depending on the fly ash composition, the structure formation operates differently at the component cohesion stage and during the swelling test. In bitumen-mineral composites, based on the high-lime ash, the mineral hydration leads to the binder film liftoff as well as to the change of the ash phase composition due to the low adhesion of bitumen and mineral particles. That results in undesirable formations in the system such as calcium sulfate dihydrate and ettringite, particularly. These formations cause the structural softening and the swelling of asphalt cements. The higher bitumen – low-lime ash adhesion provided the more stable structure of asphalt cements under testing. That resulted just in the binder film deformation without its liftoff. The swelling of the bitumen compositions was provided by the low packing density of ash particles in the asphalt cementru_RU
dc.language.isoenru_RU
dc.publisherPublished by Atlantis Pressru_RU
dc.subjectAuthors of BSTUru_RU
dc.subjectthe thermal power plant fly ashru_RU
dc.subjectswelling testru_RU
dc.subjectasphalt cementru_RU
dc.subjectstructure formationru_RU
dc.subjectnew formationru_RU
dc.titleStudy of structure formation in bitumen-mineral compositions based on fly ash under water saturationru_RU
dc.typeArticleru_RU
Appears in Collections:Chemistry, chemical technology and special purposed composites

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