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Sustainable Asphalt Rejuvenation by Using Waste Tire Rubber Mixed with Waste Oils

SUSTAINABILITY (2022)

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Article Construction & Building Technology

Investigating the properties of rejuvenated asphalt with the modified rejuvenator prepared by waste cooking oil and waste tire crumb rubber

Huifang Yang et al.

Summary: The study revealed that the modified rejuvenator prepared by waste tire crumb rubber and waste cooking oil can effectively reactivate and modify aged asphalt, showing excellent compatibility and high and low-temperature properties, as well as significant effects in anti-rutting performance, aging, and fatigue resistance.

CONSTRUCTION AND BUILDING MATERIALS (2022)

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Review Green & Sustainable Science & Technology

Sustainable asphalt rejuvenation using waste cooking oil: A comprehensive review

Muhammad Zahoor et al.

Summary: Roads play a vital role in developing economies and the maintenance of asphalt pavements has significant impacts. Waste cooking oil has been proposed as a sustainable solution for improving asphalt recycling, but its addition can affect the properties of the asphalt.

JOURNAL OF CLEANER PRODUCTION (2021)

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Article Multidisciplinary Sciences

Properties of waste-distilled engine oil and biodiesel ternary blends

Dennis Kipkorir et al.

Summary: This study aimed to improve the fuel properties limitations of biodiesel by using a ternary mixture design model and fitting the experimental data with existing models. It was found that the viscosity, density, heating value, and flash point of the ternary blend mixtures met ASTM specifications. The results demonstrated that the properties of the ternary blend mixtures were well predicted by the empirical mixing rule model.

HELIYON (2021)

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Article Construction & Building Technology

Effect of process variables on the chemical characteristics of crumb rubber desulfurized by waste cooking oil and its desulfurization mechanism

Mengzhen Zhao et al.

Summary: This study investigates the impact of waste cooking oil on the desulfurization of crumb rubber. Results suggest that temperature and the dosage of waste cooking oil significantly affect the desulfurization process. It is recommended to keep the reaction time under 2 hours, maintain a temperature of at least 260 degrees Celsius, and use a waste cooking oil mass ratio of 0.4 to 0.5 for effective desulfurization and energy efficiency.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Rheological, healing and microstructural properties of unmodified and crumb rubber modified asphalt incorporated with graphene/carbon black composite

Jingwen Liu et al.

Summary: By compounding graphene with carbon black, dispersion in asphalt matrix is improved, costs are reduced, and asphalt performance is enhanced.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

The interaction mechanism and rejuvenation effect of crumb rubber and waste cooking oil blends

Xingyu Yi et al.

Summary: This study investigated the effect of rubber content and reaction time on the rejuvenation properties of waste rubber/oil (WRO) rejuvenators, finding that higher rubber content led to higher polymer concentration and longer reaction time resulted in more viscous supplement and less elastic retention to the aged asphalt. The results suggest that the recommended reaction time for WRO is 0.5 h, as longer reaction times reduced the resistance to ageing and decrease the concentration of large molecules and sulfoxide function group in the rejuvenated asphalt.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Review Engineering, Environmental

Recycling asphalt using waste bio-oil: A review of the production processes, properties and future perspectives

Muhammad Zahoor et al.

Summary: Roads are crucial for the economic development of nations, leading road agencies to trade-off among economic, performance, and environmental challenges to maintain and build road assets. Bio-oil can be utilized as an organic binder to recycle and reuse end of life road materials, reducing dependency on petroleum products and minimizing waste.

PROCESS SAFETY AND ENVIRONMENTAL PROTECTION (2021)

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Article Engineering, Environmental

Use of microbially desulfurized rubber to produce sustainable rubberized bitumen

Sk Faisal Kabir et al.

Summary: This study examines the use of microbially desulfurized rubber to enhance the performance of bituminous pavements and promote the recycling of scrap tires. The results show that microbial desulfurization significantly improves the interactions between rubber and bitumen, leading to enhanced properties such as increased elastic recovery, resistance to moisture diffusion, reduced viscosity, increased stiffness, and stress relaxation capacity.

RESOURCES CONSERVATION AND RECYCLING (2021)

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Review Environmental Sciences

Current progress in waste tire rubber devulcanization

Ricky Saputra et al.

Summary: The rubber industry has evolved to meet global demands, with focus on the recovery and regeneration of waste tire rubber. Various devulcanization methods have been explored to selectively cleave vulcanizate's crosslinks while retaining polymeric networks, offering new sustainability pathways and economic opportunities.

CHEMOSPHERE (2021)

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Article Construction & Building Technology

Improvement of short-term aging resistance of styrene-butadiene rubber modified asphalt by Sasobit and epoxidized soybean oil

Qishi Li et al.

Summary: By adding Sasobit, ESO, and Sasobit/ESO composite to reduce the preparation temperatures of SBRMA mixture, it was found that the Sasobit/ESO composite not only has better lowering effects on temperatures, but also enhances the high- and low-temperature performance of SBRMA, mitigating the adverse impacts of aging on its performance.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Investigating the effects of waste oil and styrene-butadiene rubber on restoring and improving the viscoelastic, compatibility, and aging properties of aged asphalt

Shisong Ren et al.

Summary: This study investigated the effects of using waste cooking oil, waste engine oil, and styrene butadiene rubber on the performance restoration and improvement of aged asphalt. The results showed that waste oil improved certain properties but had negative impacts, while the addition of SBR further enhanced performance. The recommended optimal dosages were determined for overall performance enhancement.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Reaction mechanism and rheological properties of waste cooking oil pre-desulfurized crumb tire rubber/SBS composite modified asphalt

Mengzhen Zhao et al.

Summary: The study developed ODR/SBS composite modified asphalt, with analysis through FTIR, GPC, and FM to elucidate the reaction mechanism of the composite modification. The results showed the formation of a continuous and homogeneous microstructure with increased molecular weight, reduced phase segregation, and enhanced rutting and cracking resistance, contributing to improved performance of the modified asphalt.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Review Engineering, Environmental

An overview on the recycling of waste ground tyre rubbers in thermoplastic matrices: Effect of added fillers

Friday Nwankwo Archibong et al.

Summary: The increasing generation and accumulation of waste tyres threaten the ecosystem, making recycling of waste tyre rubber necessary. One potential recycling strategy is the blending of thermoplastics with ground tyre rubber (GTR), but achieving homogenous dispersion of GTR in matrix poses a challenge, requiring techniques such as surface treatments and additives.

RESOURCES CONSERVATION AND RECYCLING (2021)

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Review Green & Sustainable Science & Technology

Waste Cooking Oil as a Sustainable Bio Modifier for Asphalt Modification: A Review

Zafreen Elahi et al.

Summary: This study investigates the potential of waste cooking oil (WCO) as a modifier in the pavement industry. WCO shows significant improvement in low- and intermediate-temperature performance, but compromises high-temperature performance and physical properties. By controlling the quality of WCO or adding modifiers, its performance can be further enhanced.

SUSTAINABILITY (2021)

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Article Construction & Building Technology

Research on highly dissolved rubber asphalt prepared using a composite waste engine oil addition and microwave desulfurization method

Pei Xu et al.

Summary: The study proposed a composite method for preparing highly dissolved rubber asphalt, which significantly improved pavement performance and promoted the sustainability of asphalt pavement construction.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Effect of crumb rubber size on the performance of rubberized asphalt with bio-oil pretreatment

Yong Lei et al.

Summary: The study evaluated the effect of crumb rubber size on asphalt performance, finding a positive correlation between crumb rubber size and fatigue life, with the composite modified asphalt containing 40 mesh crumb rubber showing the lowest segregation index. This indicates that crumb rubber size influences the performance of the composite modified asphalt. The pretreatment of bio-oil on crumb rubber promoted the swelling and depolymerization of crumb rubber in the melt asphalt.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Green & Sustainable Science & Technology

Rheological and microscopic characteristics of bio-oil recycled asphalt

Songtao Lv et al.

Summary: The study investigates the use of bio-oil and recycled asphalt as substitutes for petroleum asphalt in road engineering. Laboratory aging tests were conducted on six aging asphalt samples to determine their rheological behaviors. Results showed that bio-oil had a significant impact on the high-and low-temperature behaviors of aging asphalt. Microscopic tests revealed that the addition of bio-oil to aging asphalt led to physical reactions, and the recycled asphalt had similar microscopic characteristics to the original asphalt. Overall, this study provides a theoretical foundation for bio-oil regeneration of asphalt and promotes its utilization in road construction.

JOURNAL OF CLEANER PRODUCTION (2021)

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Article Engineering, Environmental

Understanding the role of waste cooking oil residue during the preparation of rubber asphalt

Jianmin Ma et al.

Summary: This study demonstrated that the compatibility of rubber asphalt was significantly improved by pre-swelling the ground tire rubber (GTR) with waste cooking oil residue (WCOR) prior to preparation, compared to other methods such as untreated GTR or simultaneous blending of GTR and WCOR. Chemical and compositional characterization suggested that the improved compatibility was mainly attributed to the extended release of natural rubber (NR) and traces of synthetic rubber (SR) and inorganic filler into the asphalt phase.

RESOURCES CONSERVATION AND RECYCLING (2021)

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Article Green & Sustainable Science & Technology

Using Molecular Dynamics Simulation to Analyze the Feasibility of Using Waste Cooking Oil as an Alternative Rejuvenator for Aged Asphalt

Lin Li et al.

Summary: The addition of WCO decreased the viscosity, shear modulus (G), bulk modulus (K), and elastic modulus (E) of aged asphalt, improving its CED. With increasing content of rejuvenator or WCO, the nature of the aged asphalt was gradually restored. Comparatively, WCO was more effective in restoring the viscosity of aged asphalt, while the recovery of CED and mechanical properties was relatively low.

SUSTAINABILITY (2021)

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Review Engineering, Environmental

Surface activation of scrap tire crumb rubber to improve compatibility of rubberized asphalt

Jin Li et al.

Summary: Scrap tires management has become a major concern, with crumb rubber being used as a modifier for paving asphalt to create rubberized asphalt. Despite being considered a green paving material, rubberized asphalt faces limitations due to incompatibility with the asphalt matrix; surface activation of rubber can address this issue.

RESOURCES CONSERVATION AND RECYCLING (2021)

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Article Green & Sustainable Science & Technology

The Addition of a High Dosage of Rubber to Asphalt Mixtures: The Effects on Rutting and Fatigue

Amin Chegenizadeh et al.

Summary: Studies have shown that adding crumb rubber to asphalt can improve the performance of the mixture and reduce maintenance costs. This study investigated the effects of adding rubber in different types of asphalt mixtures, with the SMA10 mixture showing the best performance, with higher fatigue cycle counts and lower rut depths.

SUSTAINABILITY (2021)

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Article Construction & Building Technology

Investigation of rejuvenation and modification of aged asphalt binders by using aromatic oil-SBS polymer blend

Wei Hong et al.

CONSTRUCTION AND BUILDING MATERIALS (2020)

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Article Construction & Building Technology

Development of a novel binder rejuvenator composed by waste cooking oil and crumb tire rubber

Yi Xingyu et al.

CONSTRUCTION AND BUILDING MATERIALS (2020)

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Article Green & Sustainable Science & Technology

Sustainable asphalt concrete containing high reclaimed asphalt pavements and recycling agents: Performance assessment, cost analysis, and environmental impact

Hamid Jahanbakhsh et al.

JOURNAL OF CLEANER PRODUCTION (2020)

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Article Construction & Building Technology

Relations between colloidal indices and low-temperature properties of reclaimed binder modified with softer binder, oil-rejuvenator and polybutadiene rubber

Ali Mansourkhaki et al.

CONSTRUCTION AND BUILDING MATERIALS (2020)

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Selective adsorption of bio-oils' molecules onto rubber surface and its effects on stability of rubberized asphalt

Sk Faisal Kabir et al.

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Article Engineering, Environmental

Recycling waste rubber tyres in construction materials and associated environmental considerations: A review

Abbas Mohajerani et al.

RESOURCES CONSERVATION AND RECYCLING (2020)

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Article Polymer Science

The Effect of Waste Engine Oil and Waste Polyethylene on UV Aging Resistance of Asphalt

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Crumb rubber asphalt mixtures: A literature review

Luis G. Picado-Santos et al.

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Article Construction & Building Technology

Rubber asphalt modified with waste cooking oil residue: Optimized preparation, rheological property, storage stability and aging characteristic

Jianmin Ma et al.

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Miriam Arabiourrutia et al.

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Full Recycling of Asphalt Concrete with Waste Cooking Oil as Rejuvenator and LDPE from Urban Waste as Binder Modifier

Carlos Rodrigues et al.

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Evolution of Waste Cooking Oil Collection in an Area with Long-Standing Waste Management Problems

Giovanni De Feo et al.

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Comparing effects of physisorption and chemisorption of bio-oil onto rubber particles in asphalt

Tao Zhou et al.

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Article Engineering, Mechanical

Fatigue performance characterization and prediction of asphalt binders using the linear amplitude sweep based viscoelastic continuum damage approach

Wei Cao et al.

INTERNATIONAL JOURNAL OF FATIGUE (2019)

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Francisco Chavez et al.

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Recycled Heavy Bio Oil as Performance Enhancer for Rubberized Bituminous Binders

Jiangmiao Yu et al.

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Effect of Waste Engine Oil and Waste Cooking Oil on Performance Improvement of Aged Asphalt

Haibin Li et al.

APPLIED SCIENCES-BASEL (2019)

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JOURNAL OF CLEANER PRODUCTION (2019)

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Ground tire rubber thermo-mechanically devulcanized in the presence of waste engine oil as asphalt modifier

Yue Li et al.

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Evaluation of the ageing behaviour of waste engine oil-modified asphalt binders

Shengjie Liu et al.

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Enhancing effect of microalgae biodiesel incorporation on the performance of crumb Rubber/SBS modified asphalt

Shaochan Duan et al.

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Characterization of crumb tire rubber lightly pyrolyzed in waste cooking oil and the properties of its modified bitumen

Ruikun Dong et al.

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Mohd Rosli Mohd Hasan et al.

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Investigating short-term and long-term binder performance of high-RAP mixtures containing waste cooking oil

Hamed Majidifard et al.

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Rejuvenation of aged asphalt binder extracted from reclaimed asphalt pavement using waste vegetable and engine oils

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Damage characteristics of waste engine oil bottom rejuvenated asphalt binder in the non-linear range and its microstructure

Yanjun Qiu et al.

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Evaluation of fatigue behavior of high reclaimed asphalt binder mixes modified with rejuvenator and softer bitumen

Mahmoud Ameri et al.

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Md Tareq Rahman et al.

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Tao Wang et al.

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Dong Zhang et al.

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Weihua Luo et al.

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Shifeng Wang et al.

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Chemical modification of waste cooking oil to improve the physical and rheological properties of asphalt binder

Wan Nur Aifa Wan Azahar et al.

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Physical-chemical properties of aged asphalt rejuvenated by bio-oil derived from biodiesel residue

Minghui Gong et al.

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Chemical and rheological investigation of high-cured crumb rubber-modified asphalt

Naipeng Tang et al.

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Ka Lai N. Ng Puga et al.

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Dharamveer Singh et al.

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Dongdong Ge et al.

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A comprehensive review on the applications of waste tire rubber in cement concrete

Blessen Skariah Thomas et al.

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Herda Yati Katman et al.

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Usage of slurry oil for the preparation of crumb-rubber-modified asphalt emulsions

Xiaolong Zhou et al.

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Infrared spectra and rheological properties of asphalt cement containing waste engine oil residues

Xiaoyang Jia et al.

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Physical, chemical and rheological properties of waste edible vegetable oil rejuvenated asphalt binders

Meizhu Chen et al.

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Mechanical performance of dry process fine crumb rubber asphalt mixtures placed on the Portuguese road network

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Davide Lo Presti

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Use of a warm mix asphalt additive to reduce the production temperatures and to improve the performance of asphalt rubber mixtures

Joel R. M. Oliveira et al.

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Effects of an Asphalt Rubber Membrane Interlayer on Pavement Reflective Cracking Performance

Yu Chen et al.

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Tyre rubber-modified bitumens development: the effect of varying processing conditions

Davide Lo Presti et al.

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Estimation of RAP's binder viscosity using GPC without binder recovery

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Waste cooking oil-an economical source for biodiesel: A review

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Properties of concrete containing scrap-tire rubber - an overview

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