WELCOME TO MY PORTFOLIO - Works performed in welding field 

Worked in fabrication of pressure vessels, heat exchangers, various elements at RO, Desalination plant, Repair of components in food industries, Oil & gas, Airlines, Pre-Engineering Steel Buildings & Hot Rolled Structural Steel; maintenance, Power generation etc.

Specialized in low heat input techniques using EUTETIC+CASTROLIN & MATRODE Low heat alloys on cast iron, Aluminium, stainless steel & other metals, super jet alloy welding, Cast iron, Aluminium, Stainless Steel & Other metals. Super jet Talon Welding, TIG & ARC.

X-ray Welding is an experimental welding process that uses a high powered X-ray source to provide thermal energy required to weld materials.
Introduction - X ray Welding

Many advances in welding technology have resulted from the introduction of new sources of the thermal energy required for localised melting. These advances include the introduction of modern techniques such as gas tungsten arc, gas-metal arc, submerged-arc, electron beam, and laser beam welding processes.

However, whilst these processes were able to improve stability, reproducibility, and accuracy of welding, they share a common limitation - the energy does not fully penetrate the material to be welded, resulting in the formation of a melt pool on the surface of the material. To achieve welds which penetrate the full depth of the material,
it is necessary to either specially design and prepare the geometry of the joint or cause to cause vaporization of the material to such a degree that a "keyhole" is formed, allowing the heat to penetrate the joint. This is not a significant disadvantage in many types of material, as good joint strengths can be achieved, however for certain material classes such as ceramics or metal ceramic composites, such processing can significantly limit joint strength. They have great potential for use in the aerospace industry, provided a joining process that maintains the strength of the material can be found.

Until recently, sources of x-rays of sufficient intensity to cause enough vometric heating for welding were not available. However, with the advent of third-generation synchrotron radiation sources, it is possible to achieve the power required for localized melting and even vaporization in a number of materials. X-ray beams have been shown to have potential as welding sources for classes of materials which cannot be welded conventionally.
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