Outline
- Abstract
- Graphical Abstract
- Keywords
- 1. Introduction
- 2. Materials
- 3. Test Methods
- 3.1. Compressive and Flexural Strength Test
- 3.2. Alkali-Silica Reaction (asr) Test
- 3.3. Translucency
- 3.4. Photocatalytic Oxidation of Air Pollutants
- 4. Concrete Design
- 5. Results and Discussion
- 5.1. Compressive and Flexural Strengths
- 5.2. Asr
- 5.3. Translucency
- 5.4. Photocatalytic Air Pollutant Oxidation
- 6. Conclusions
- Acknowledgements
- References
رئوس مطالب
- چکیده
- 1. مقدمه
- 2. مصالح
- 3. روش های ازمایش
- 3.1 ازمایش قدرت موجی و فشاری
- 3.2 ازمایش واکنش قلیایی-سیلیکا
- 3.3 فراتابی
- 3.4 اکسیداسیون فتوکاتالیستی الوده کننده های هوا
- 4. طراحی بتن
- 5. نتایج و بحث
- 5.1 قدرت انعطافی و فشاری
- 5.2 واکنش قلیایی-سیلیسی
- 5.3 فراتابی
- 5.4 اکسیداسیون الوده کننده هوای فتوکاتالیستی
- 6. نتیجه گیری
Abstract
This article addresses the development of a translucent and air purifying concrete containing waste glass. The concrete composition was optimized applying the modified Andreasen & Andersen model to obtain a densely packed system of granular ingredients. Both untreated (unwashed) and washed waste glass fractions were utilized in concrete. The fresh and hardened concrete properties were investigated. In order to ensure a durable material, the expansion due to the alkali-silica reaction was also analyzed. Subsequently, concrete tiles of different thicknesses were produced and their translucency was quantified. Additionally, two different types of TiO2 were utilized in concrete to analyze the glass aggregates effect on the photocatalytic degradation of air pollutants (NO and NO2). The obtained results indicate that the developed concrete has satisfactory mechanical properties, coupled with good durability, translucency and enhanced air purification properties.
Keywords: ASR - Concrete - Mechanical properties - Photocatalytic oxidation - Sustainability - Waste glassدانلود ترجمه تخصصی این مقاله دانلود رایگان فایل pdf انگلیسی