Abstract
Secondary sulfur obtained as a by-product in the oil refining process is a major problem as an environmental pollutant. One of the possibilities of environmental protection is the use of sulfur obtained in this way as a component of sulfur concrete. Mixing of sulfur with suitable additives can provide longer working lifetime of sulfur concrete, as well as maintenance of the former physical, chemical, and mechanical properties of concrete. Such mixtures are usually called modified sulfur or sulfur cement. Secondary sulfur produced in the oil refining process by the Klaus process (approval of crude oil) cannot be used in this form. In order to be ready for the use of sulfur concrete and asphalt, it is necessary to modify elemental sulfur from cyclic to chain form, obtaining of modified sulfur whose application is as a binding agent in a concrete instead of portland cement is described in this paper. Influence of dicyclopentadien, an organic additive, on sulfur modification has been studied in this research. Microstructure and mineral analysis of modified and unmodified sulfur cement binding are performed using polarized and scanning electron microscopes and X-ray diffraction spectrometer.
Highlights
In recent years, there is enormous increase in the production of sulfur in whole world
Many researchers have dealt with the problem of the use of elemental sulfur (Mohammed, and Poornima, 2018). This situation has led to use the sulfur as a low-cost construction material for producing sulfur concrete and sulfur infiltrated concrete
Previous researches and comparing of unmodified and modified sulfur cement were based on XRD analysis
Summary
There is enormous increase in the production of sulfur in whole world. One of directions in our research was to utilize some of the secondary sulfur physical and chemical properties, that are chemical passivity above all, high resistance to aggressive agents (first of all acids) and outstanding hydrophobicity, and to provide stability of sulfur crystal modification after fast cooling and long holding on ambient temperature. Previous researches and comparing of unmodified and modified sulfur cement were based on XRD analysis They show that majority of XRD diagrams indicate presence of orthorhombic sulfur modification (Sα), with very narrow and pronounced peaks, but in some cases in which sulfur is modified by high percentage of polymer modifier, 20-25 %, XRD diagrams shown small amount of monoclinic Sβ or peaks of Sα were not distinctive. To this, influence of dicyclopentadien, an organic additive, on sulfur modification has been studied in this research (ACI MCP604, 2004; Blight et al 1978)
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