Revolutionizing Radiation Safety with Enhanced Cement Mortar
Researchers at IIT Guwahati have developed a stronger, more durable cement mortar that enhances radiation shielding. This innovation aims to make nuclear facilities safer by improving the material's density and durability, thus reducing radiation leakage. The team now seeks collaborations for testing and scaling up their development.
- Country:
- India
In a groundbreaking development, scientists at the Indian Institute of Technology (IIT) Guwahati have designed a novel cement mortar engineered to bolster the strength and radiation-blocking capacity of materials used in nuclear facilities. Their approach aims to enhance the mortar's density and durability, crucial in limiting radiation penetration.
According to Hrishikesh Sharma, Associate Professor at IIT Guwahati, mortar made with these innovations has the potential to significantly reduce radiation leakage, enhancing safety standards in nuclear reactors and sensitive installations globally. The research highlights the critical role of containment materials in safeguarding nuclear infrastructure from disasters like Chernobyl and Fukushima.
The IIT team is now focused on scaling up this technology for practical applications, seeking partnerships with nuclear energy agencies and infrastructure firms. Optimizing this microparticle-infused mortar for real-world use promises a leap forward in the safe expansion of nuclear energy resources.
(With inputs from agencies.)
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