Radiation shielding is vital for areas using ionizing radiation to diagnose illnesses, detect structural flaws, or sterilize food. Conventional protective materials like concrete and lead can be expensive, and their production may harm the environment. In contrast, volcanic ash-based construction materials could offer a lightweight, eco-friendly alternative.

In 2020, Taal Volcano unleashed an eruption that shrouded Luzon with ash, creating disposal issues. Researchers Floyd Rey P. Plando, Myris V. Supnad, and Joel T. Maquiling turned that challenge into an opportunity. Through comprehensive testing, they discovered that TVA-based geopolymer mortar contains iron-rich minerals that help reduce radiation penetration.

"Iron has greater interaction power because it contains more electrons. In addition, it is a dense metal due to its heavy and tightly-packed structure. High-electron and denser material, such as TVA, has stronger efficiency in blocking hazardous X-rays and gamma rays," Plando said.

"Moreover, the optimal blend of volcanic ash and aggregates result in effective photon (radiation) attenuation because of the resulting disorder (entropy) in granular matter microstructures," Maquiling further explained.

Since the Philippines sits along the Pacific Ring of Fire, ample volcanic material is readily available. This discovery not only provides an innovative strategy for handling volcanic debris but also promises improved safety in facilities that rely on radiation-based procedures.

Further experiments will focus on refining the material's resilience and optimizing its capacity to block dangerous radiation. Still, the study proves that even destructive geological events can spark critical advancements in technology and public welfare.

Research Report:Assessment of compressive strength, microstructure, thermal, and radiation shielding properties of Taal volcanic ash-based geopolymer mortar

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