مؤسسة الشرق الأوسط للنشر العلمي
عادةً ما يتم الرد في غضون خمس دقائق
In the distant past, humans harnessed the skeletal remains of animals to shape their environment. Cow bones, known for their exceptional strength that persists beyond death, slowly decompose over time. Building on this concept, we will explore the thermal buckling characteristics of a concrete slab. By incorporating crushed bovine bone particles after homogenization, in line with the principles of physical energy conservation, we aim to determine the highest temperature at which thermal buckling occurs. This study seeks to understand the thermal behaviour of buckling in concrete plates. Moreover, the widespread local consumption of cows encourages the recycling of bones from commonly eaten animals, aiming to reduce waste from homes and meat markets, lower the risk of harmful bacteria, and investigate potential future uses for these bones. Replacing fine sand with cow bone powder could benefit the economy and mining sectors by reducing environmental damage. Developing a new, efficient, environmentally friendly concrete marks a step forward in exploring alternative materials in concrete research. Mining not only helps conserve natural resources but also supports the global effort toward environmental preservation and a green economy. Cow bone powder offers concrete significant benefits, promoting a sustainable method to integrate waste recycling into concrete production