Intellectual Property India Publishes Patent Application for 'An Eco-Friendly Construction Material Composition For Enhanced Strength And Durability' Filed by Banoth Chittibabu; Banothu Venkati; Chatla Keerthana; Mamidi Sailaja; Kasimalla Ravindra; Anumula Nagaraju; Islavath Chandu; Kodamala Naresh Babu; and Mandava Institute Of Engineering & Technology

MUMBAI, India, Feb. 27 -- Intellectual Property India has published a patent application (202641019008 A) filed by Banoth Chittibabu; Banothu Venkati; Chatla Keerthana; Mamidi Sailaja; Kasimalla Ravindra; Anumula Nagaraju; Islavath Chandu; Kodamala Naresh Babu; and Mandava Institute Of Engineering & Technology, Jaggaiahpet, Andhra Pradesh, on Feb. 19, for 'an eco-friendly construction material composition for enhanced strength and durability.'

Inventor(s) include Banoth Chittibabu; Banothu Venkati; Chatla Keerthana; Mamidi Sailaja; Kasimalla Ravindra; Anumula Nagaraju; Islavath Chandu; and Kodamala Naresh Babu.

The application for the patent was published on Feb. 27, under issue no. 09/2026.

According to the abstract released by the Intellectual Property India: "The present invention discloses an eco-friendly construction material composition designed to enhance structural strength, durability, and environmental sustainability. The composition comprises alternative binders such as fly ash, ground granulated blast furnace slag (GGBS), and silica fume, partially or substantially replacing Ordinary Portland Cement, along with natural and recycled aggregates and performance-enhancing additives including superplasticizers and water-reducing agents. The composition is engineered for optimized particle packing, uniform binder-aggregate interaction, and controlled water-to-binder ratio, resulting in improved compressive, tensile, and flexural strength. The material exhibits reduced porosity, enhanced resistance to moisture ingress, chemical attack, carbonation, thermal variation, and freeze-thaw cycles, thereby ensuring extended service life. The invention supports sustainable construction practices by minimizing carbon emissions, conserving natural resources, and utilizing industrial by-products and recycled materials. The composition is compatible with conventional construction techniques, suitable for residential, commercial, and infrastructure applications, and provides a cost-effective, scalable, and environmentally responsible alternative to conventional cement-based materials."

Disclaimer: Curated by HT Syndication.