Institute of Welding & Testing Technology plays a crucial role in the defense sector, contributing significantly to the Training and Certification of Welding & NDT “Make in India” for military equipment, vehicles, and infrastructure. Manufacturing Military Equipment like Armored Vehicles and Tanks, Naval Vessels, Aircraft, Building and maintaining military infrastructure, such as hangars, bridges, and bunkers, involves extensive welding for structural durability and security.

Welding technology plays a critical role in the Indian defence industry, as it is integral to the production and maintenance of military assets, including aircraft, ships, vehicles, and advanced weaponry. India’s defence industry is expected (Atmanirbhar Bharat) to be a rapidly evolving sector as the country aims for greater self-reliance and a larger footprint on the global arms market. Key factors shaping the industry is Welding technology, partnerships Start-up India and private sector involvement. The Government of India has set a goal of manufacturing a significant portion of defence equipment domestically, aiming to reduce reliance on imports and enhance national security.

Institute of Welding & Testing Technology support to the defence sector for welding specialized materials are essential for enhancing the durability, strength, and functionality of military assets under extreme conditions. Welding Armor plating to heat-resistant materials for hypersonic vehicles, these innovations provide superior performance for a wide range of applications. Here are some of the key materials developed specifically for defence. Welding Armor steel is a specialized area that demands high precision and expertise due to the unique properties of Armor steels, which are designed to be incredibly hard and resilient against impacts. The main challenge in welding Armor steel lies in preserving its hardness and toughness, while also ensuring strong, defect-free welds.

Institute of Welding & Testing Technology support to weld Nickel-Based Superalloys like Inconel and Hastelloy are known for their ability to maintain strength at high temperatures, making them ideal for jet engines, hypersonic vehicle components, and missile technology. Tungsten and Molybdenum Alloys can withstand extremely high temperatures and are used in rocket nozzles, leading edges, and other components exposed to intense heat and stress.