Our projects

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Effect of pre strain on the structural, mechanical and electrochemical properties of Al7075 alloy

We advance a data-driven materials engineering platform that quantifies the coupled effects of pre-strain on strength, durability, and corrosion performance of high-strength Al-Zn-Mg-Cu alloys. The technology integrates mechanical testing, electrochemical diagnostics, and microstructural analytics to predict real-world service life under aggressive enviroments. By enabling informed trade-offs between forming, performance, and corrosion risk, it supports safer, lighter, and longer-lasting aerospace and defense components.
Designed for industrial scalability, the platform delivers measurable commercial value through lifecycle optimization, risk reduction, and sustainable structural design.

Study of Electrochemical behaviour of 304l stainless steel in acidic, alkali and neutral solution

Our science company delivers advanced electrochemical and surface analysis solutions to understand material performance in aggressive environments. We evaluate corrosion behavior of industrial alloys, including 304L stainless steel, across acidic, alkaline, and saline media using potentiodynamic polarization and electrochemical impedance spectroscopy. By integrating SEM and Raman spectroscopy, we uncover surface degradation mechanisms and corrosion-induced phase changes. Our work helps industries enhance material reliability, lifespan, and process safety.

Electrochemical behaviour of high Molybdenum Maraging Steel in neutral, acidic and alkaline media

We deliver advanced industrial and mining technology solutions that transform materials science and process research into scalable, industry-ready applications. Our expertise combines process engineering, microstructural optimization, and performance validation to ensure reliability and efficiency under demanding operating conditions. By embedding sustainability, resource efficiency, and lifecycle optimization into technology design, we reduce environmental impact while improving operational economics. Our solutions are engineered to generate measurable commercial value and support long-term growth across mining, energy, and heavy industrial sectors.

Influence of ECAP Passes and Deformation Temperature on the Compressive Response of Al5083 Aluminum Alloy

We advance industrial and mining technology solutions that translate materials engineering and mechanical performance research into scalable, deployment-ready applications. Our expertise integrates process engineering, microstructural optimization, and rigorous performance validation to ensure strength, reliability, and operational efficiency. By embedding sustainability, resource efficiency, and lifecycle optimization into technology development, we reduce environmental impact while enhancing economic performance. Our solutions are designed to deliver measurable commercial value and support resilient growth across mining, energy, and heavy industrial sectors.

Microstructure evaluation study of Al5083 alloy using EBSD technique after processing with different ECAP processes and temperatures

We engineer advanced industrial and mining technology solutions that transform materials and process research into scalable, industry-ready applications. Our capabilities integrate materials science, process optimization, and performance validation to ensure reliability and efficiency under demanding operating conditions. By embedding sustainability, resource efficiency, and lifecycle performance into technology design, we reduce environmental impact while strengthening operational economics. Our solutions are structured to deliver measurable commercial value and support long-term growth across mining, energy, and heavy industrial sectors.

Effect of pH and cl- concentration on corrosion behavior of 17-4 PH martensitic stainless steel

We deliver advanced industrial and mining technology solutions that translate corrosion science and materials engineering research into scalable, industry-ready applications. Our expertise integrates surface engineering, process optimization, and performance evaluation to enhance durability and reliability in aggressive operating environments. By embedding sustainability, resource efficiency, and lifecycle performance into technology design, we reduce environmental impact while improving operational economics. Our solutions are engineered to create measurable commercial value and support long-term growth across mining, energy, and heavy industrial sectors.

Electrochemical Energy Through Development Of Aluminium-Ion Rechargeable Battery

We advance industrial and mining technology solutions that convert scientifically validated research into scalable, deployment-ready systems. Our expertise integrates process engineering, materials science, and performance optimization to deliver reliable outcomes under demanding operating conditions. By embedding sustainability, efficiency, and resource optimization into technology design, we reduce environmental impact while strengthening lifecycle economics. Our solutions are structured to deliver measurable commercial value and support long-term growth across mining, energy, and heavy industrial sectors.

Development of inexpensive and environmental friendly double layer electrodes for proton exchange membrane fuel cell

We deliver advanced industrial and mining technologies that translate scientifically validated processes into scalable, field-deployable solutions for resource-intensive operations. Our expertise integrates process engineering, materials science, and system optimization to ensure reliability under demanding operating conditions. By embedding sustainability, efficiency, and process stability into technology design, we reduce environmental impact while strengthening lifecycle economics. Our solutions are engineered to generate measurable commercial value and support long-term growth across mining, energy, and heavy industrial sectors.

Corrosion characteristic of Austenitic stainless steel 304 at different pH and temperature

We develop advanced industrial and mining technologies that convert scientifically validated processes into scalable, field-deployable solutions for resource-intensive operations. Our expertise integrates process control, materials and chemical engineering, and performance optimization to ensure operational reliability under variable conditions. By embedding sustainability, efficiency, and process stability into technology design, we reduce environmental impact while improving lifecycle economics. Our solutions are engineered to deliver measurable commercial value and support long-term growth across mining, energy, and heavy industrial sectors.

Estimation of corrosion rate of Mild steel in synthetically produced sea water Affiliation

We develop advanced industrial and mining technologies that transform research-driven innovation into scalable, industry-ready solutions for complex operating environments. Our expertise integrates materials science, process engineering, and performance optimization to enhance efficiency, durability, and asset reliability. By embedding sustainability and resource efficiency into technology development, we enable environmentally responsible operations with improved lifecycle economics. Our solutions are designed to deliver long-term commercial value while supporting resilient growth across mining, energy, and heavy industrial sectors.

Evaluation of Changes of Strength and Microstructural Proper-Ties of Heat-Treated High Molybdenum Maraging Steel by EBSD and TEM Technique

We deliver advanced industrial and mining technology solutions that translate high-performance materials research into scalable, production-ready applications. Our expertise spans materials engineering, process optimization, and rigorous performance validation to ensure strength, durability, and operational reliability at industrial scale. By embedding sustainability and resource efficiency into technology development, we reduce environmental impact while enhancing lifecycle economics. Our solutions are engineered to generate long-term commercial value and support resilient growth across mining, energy, and heavy industrial sectors.

Effect of Molybdenum Content and Heat Treatment on Microstructure, Phase Evolution, and Mechanical Properties of Cobalt-Free Maraging Steel

We deliver advanced industrial and mining technology solutions that translate high-performance materials research into scalable, industry-ready applications. Our capabilities span materials engineering, process optimization, and performance validation to ensure superior strength, durability, and operational reliability. By embedding sustainability and resource efficiency into technology development, we reduce environmental impact while improving lifecycle economics. Our solutions are designed to generate long-term commercial value and support resilient growth across mining, energy, and heavy industrial sectors.