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Waste Recovery and Sustainable Development. A Case Study of Material Development from Used Tires in Africa
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作者 Bachirou Bogno Paul-Salomon Ngohe Ekam +3 位作者 Mohammadou Sali Dieudonné Kidmo Kaoga Abderrezak Guenounou Michel Aillerie 《Smart Grid and Renewable Energy》 2023年第6期107-129,共23页
This paper outlines a mechanical transformation process for rubber recycling, demonstrating the development of a new material from used tires. With the crumbs obtained using a crusher-compactor, a novel material for t... This paper outlines a mechanical transformation process for rubber recycling, demonstrating the development of a new material from used tires. With the crumbs obtained using a crusher-compactor, a novel material for the manufacture of O-rings has been developed, with properties close to those found on the market. The process includes an experimental methodology of a sulfur vulcanization system choice and the quantification of ingredients, as well as the experimental determination of cure parameters. Mechanical tests on the samples completed the work by providing the mechanical characteristics of both unaged and aged (thermo-oxidative ageing) novel material. This process has a high potential for sustainable development and industrialization, making it a valuable contribution to the recycling of rubber in African developing countries. 展开更多
关键词 Sustainable Development Circular Economy used tires Elastomers Recycling Vulcanization Parameters
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Study of the Evolution of Properties of Concrete Containing Used Tire Aggregates
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作者 Mamery Adama Serifou Ouaga Jean Bruce Nataniel Gboga +1 位作者 Bleh Raoul Ulrich Kouassi Edjikémé Emeruwa 《Geomaterials》 2024年第4期49-58,共10页
Concrete is generally composed of cement, water, gravel, and sand. However, some research focuses on substituting aggregates with waste materials. In this study, used tires are used as a substitute for gravel. Charact... Concrete is generally composed of cement, water, gravel, and sand. However, some research focuses on substituting aggregates with waste materials. In this study, used tires are used as a substitute for gravel. Characteristics such as tensile strength, compressive strength, and porosity were monitored at 7, 14, and 28 days of maturation. The results show that aggregates made from used tires are suitable for concrete production and can replace natural gravel. Regarding the formed concrete, low substitution rates lead to improved concrete properties, but only at an early age. A reaction between the cement and rubber could be the underlying cause. Additionally, the products of this reaction may mitigate the evolution of the compressive strength of the concrete over time. 展开更多
关键词 CONCRETE used Tire POROSITY Mechanical Strength
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