Stability Evaluation and Mechanism of Asphalts Modified With Various Rubber Powder Contents

Xue, Hengxiao; Cao, Yuanbo; Liu, Qi; Zhang, Hongfei; Zhang, Mingliang

doi:10.3389/fmats.2020.622479

Cited by 10 publications

(2 citation statements)

References 19 publications

(23 reference statements)

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“…Brookfield rotational viscosity and softening point are more reasonable characterization methods for determining the high-temperature performance index of CR-modified asphalt, whereas the low-temperature performance is characterized by the 5 °C ductility test [ 30 ]. Figure 7 shows the performance indexes of LRMA and pure AO modification.…”

Section: Resultsmentioning

confidence: 99%

Study on the Low-Temperature Pre-Desulfurization of Crumb Rubber-Modified Asphalt

et al. 2023

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Waste tires can be ground as crumb rubber (CR) and incorporated into asphalt pavement for efficient resource utilization. However, due to its thermodynamic incompatibility with asphalt, CR cannot be uniformly dispersed in the asphalt mix. In order to address this issue, pretreating the CR with desulfurization is a common way to restore some of the properties of natural rubber. The main technique of desulfurization and degradation is dynamic desulfurization, requiring a high temperature that may lead to asphalt fires, aging, and the volatilization of light substances, generating toxic gases and resulting in environmental pollution. Therefore, a green and low-temperature controlled desulfurization technology is proposed in this study to exploit the maximum potential of CR desulfurization and obtain high-solubility “liquid waste rubber” (LWR) close to the ultimate regeneration level. In this work, LWR-modified asphalt (LRMA) with superior low-temperature performance and processability, stable storage, and less susceptibility to segregation was developed. Nevertheless, its rutting and deformation resistance deteriorated at high temperatures. The results showed that the proposed CR-desulfurization technology could produce LWR with 76.9% solubility at a low temperature of 160 °C, which is close to or even better than the finished products produced at the preparation temperature of TB technology, i.e., 220–280 °C.

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Section: Resultsmentioning

confidence: 99%

Study on the Low-Temperature Pre-Desulfurization of Crumb Rubber-Modified Asphalt

et al. 2023

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“…Plenty of earlier experiments [18][19][20][21][22][23][24] also suggested that it was possible to effectively improve cementation between rubber powders and cement and increase the flexural and compressive strength of rubber cement-based composite materials by giving specific treatments to the surface of rubber powders. For example, Senouci et al removed the stains on the surface of rubber powders simply by soaking and rinsing; Rostami et al soaked and cleaned the rubber powders with distilled water, CCl 4 reagent, and organic mixed emulsion.…”

Section: Introductionmentioning

confidence: 99%

Influence of Rubber Powder Modification Methods on the Mechanical and Durability Properties of Rubberized Magnesium Oxychloride Cement

Zhong

Wang

et al. 2021

Crystals

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In the present study, three modification methods, including water washing, sodium hydroxide (NaOH), and styrene–acrylic emulsion, were used to modify waste rubber powders. The influence of rubber powders on the mechanical properties and frost resistance of magnesium oxychloride cement was examined, and the different modification mechanisms were also analyzed. Based on the analysis of hydrophilic properties after modification, styrene–acrylic emulsion achieved the best modification effect, while water washing produced the least modification effect; regarding mechanical properties, magnesium oxychloride cement mixed with NaOH modified rubber powders achieved the best modification effect, in which the 28 d flexural strength and compressive strength increased by 41.2% and 59.6%, respectively. During the freeze-thaw cycles, the mass loss of specimens was reduced with an increase in the content of rubber powders. In addition, after 300 cycles, the relative dynamic modulus of elasticity of the blank sample was about 28.12%, while that of the magnesium oxychloride cement mixed with NaOH modified rubber powders was approximately 42.38%. In general, the properties of the modified rubber powder–magnesium oxychloride cement composite material can meet the requirements for engineering materials, which provides a theoretical basis and technical support for the application of rubberized magnesium oxychloride cement.

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Effect of the binary compound method of TOR promoting dissolution and NaOH solution surface treatment on the performance of rubber asphalt

Liu

Yang

et al. 2021

Construction and Building Materials

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Stability Evaluation and Mechanism of Asphalts Modified With Various Rubber Powder Contents

Cited by 10 publications

References 19 publications

Study on the Low-Temperature Pre-Desulfurization of Crumb Rubber-Modified Asphalt

Study on the Low-Temperature Pre-Desulfurization of Crumb Rubber-Modified Asphalt

Influence of Rubber Powder Modification Methods on the Mechanical and Durability Properties of Rubberized Magnesium Oxychloride Cement

Effect of the binary compound method of TOR promoting dissolution and NaOH solution surface treatment on the performance of rubber asphalt

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