بتن هوادهی شده و اتوکلاو شده

عنوان فارسی مقاله: مطالعه تجربی بتن هوادهی شده و اتوکلاو شده با کارایی بالا تولید شده با الیاف چوب بازیافتی و پودر لاستیک

عنوان انگلیسی مقاله: Experimental study of high-performance autoclaved aerated concrete produced with recycled wood fibre and rubber powder

مجله/کنفرانس: مجله تولید پاک – Journal of Cleaner Production

رشته های تحصیلی مرتبط: مهندسی عمران، مهندسی محیط زیست

گرایش های تحصیلی مرتبط: سازه، بازیافت و مدیریت پسماند

کلمات کلیدی فارسی: پودر لاستیک بازیافتی، الیاف چوب بازیافتی، بتن هوادهی شده و اتوکلاو شده، رسانایی دمایی، خواص مکانیکی

کلمات کلیدی انگلیسی: Recycled rubber powder، Recycled wood fibre، Autoclaved aerated concrete، Thermal conductivity، Mechanical properties

نوع نگارش مقاله: مقاله پژوهشی (Research Article)

شناسه دیجیتال (DOI): https://doi.org/10.1016/j.jclepro.2019.06.276

دانشگاه: School of Materials Science and Engineering, Xi’an University of Architecture & Technology, Xi’an, 710055, China

صفحات مقاله انگلیسی: 9

ناشر: الزویر - Elsevier

نوع ارائه مقاله: ژورنال

نوع مقاله: ISI

سال انتشار مقاله: 2019

ایمپکت فاکتور: 7.096 در سال 2018

شاخص H_index: 150 در سال 2019

شاخص SJR: 1.620 در سال 2018

شناسه ISSN: 0959-6526

شاخص Quartile (چارک): Q1 در سال 2018

فرمت مقاله انگلیسی: PDF

وضعیت ترجمه: ترجمه نشده است

قیمت مقاله انگلیسی: رایگان

آیا این مقاله بیس است: خیر

آیا این مقاله مدل مفهومی دارد: ندارد

آیا این مقاله پرسشنامه دارد: ندارد

آیا این مقاله متغیر دارد: ندارد

کد محصول: E12980

رفرنس: دارای رفرنس در داخل متن و انتهای مقاله

فهرست مطالب (انگلیسی)

Abstract

1. Introduction

2. Material and methods

3. Results and discussion

4. Conclusions

Acknowledgments

References

بخشی از مقاله (انگلیسی)

Abstract

The brittleness and low fracture toughness of autoclaved aerated concrete (AAC) could be improved by fibres, but the deterioration of its thermal insulation performance are commonly observed. In this study, different combinations of recycled wood fibre and rubber powder were added in AAC to improve its performance and reduce the negative environmental impacts of solid waste. In addition to the fluidity of slurry, the physical, mechanical and thermal properties of AAC were systematically investigated, together with the phase components and microstructure images. AAC with relative high mechanical strengths and excellent thermal insulation performances could be obtained because of the reinforcement of wood fibre and the gas introduced by rubber powder. The scanning electron microscopy (SEM) and X-ray diffraction (XRD) analyses revealed that the positive effects of wood fibre and rubber powder were the results of physical interactions.

Introduction

Recently, energy conservation with respect to buildings has become a growing concern (Kocí et al., 2013). In China, 20.6% of the total energy and 19.0% of the total carbon emission have been consumed by building in 2016 (China Building Energy Saving Technic Association, 2019). A series of energy codes for buildings has implemented to effectively reduce building energy consumption. To achieve the goal of 65% building energy conservation, the internal-external insulation measure and wall materials with good thermal insulation performance are adopted (Wang et al., 2019). Autoclaved aerated concrete (AAC) has been reported to be the only wall material meets the Chinese national standard requirement of the energy conservation for buildings (He et al., 2018). AAC is usually the mixture of quartz powder (or fly ash), cement, lime, gypsum, water and small quantities of aluminum powder, which is hardened and strengthened under pressurized steam (Israngkura Na Ayudhya, 2016; Schreiner et al., 2018). Compared with ordinary concrete, AAC has the more excellent thermal insulation properties and the lower density (Asadi et al., 2018; Ma et al., 2016; Yuan et al., 2017). However, AAC products also have some drawbacks, such as high brittleness and low mechanical strength, which limits their commercial applications (Cong et al., 2016; Ferretti et al., 2015; Koudelka et al., 2015). Moreover, recent trends have focused on utilizing industrial wastes to produce highperformance AAC, that is, AAC with high volume stability, high mechanical strength, and excellent thermal insulation properties (El-Didamony et al., 2019). Studies have shown that adding fibre was a simple and effective way to obtain AAC with relatively high volume stability and mechanical strength (Bonakdar et al., 2013; Laukaitis et al., 2012; Pehlivanlı et al., 2016).

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