Preliminary raw material  are seleted considering the reduction ratio  cut. In preparation for forging, the raw material must be heated up to temperature of 1200°C. Forging is the process by which metal is heated and is shaped by plastic deformation by suitably applying compressive force. Usually the compressive force is in the form of hammer blows using a power hammer or a press. Accordingly the raw material changed to Rounds, Block, Flat, Blanks etc. as per the requirement of the customer.


Physical inspection of raw material
Normalising of forged product
Chemical check up of raw material Hardness testing of normalized product
Ultrasonic diagnosis of raw material Tensile test of normalized product
Normalising of sophisticated raw material Micro struture testing as per customer's requirement
Furnace temperature vigilance during preheating & forging Stamping of our trade mark on the product
Transferring the forge product in MICA PIT Sawing of product as per customer's requirement
Ultrasonic scanning of the normalized product Colouring and painting


Ultrasonic testing facility   Tensile testing facility
Chemical testing facility   Hardness testing facility

Directional Strength: The forging process produces directional alignment (grain flow) for important directional properties of strength, ductility and resistance to impact and fatigue.
Impact Strength: Through proper grain flow orientation; the forging Process can develop the maximum impact strength and fatigue resistance. Possible in a metal.
Structural Integrity: As is well known, a forging’s structural reliability is Exceptional compared to other metalworking processes. There are no Internal gas pockets or voids that may cause unexpected failure underconditions of high stress or impact.
Conclusion: Forging is not the least expensive method but it is the best. When looking for hubs, axles, spindles and similar, don't be fooled by low Pricing that may indicate an inferior method of manufacturing.