Production forging involves significant capital expenditure for machinery, tooling, facilities and personnel. In the case of hot forging, a high temperature furnace (sometimes referred to as the forge) will be required to heat ingots or billets. Owing to the massiveness of large forging hammers and presses and the parts they can produce, as well as the dangers inherent in working with hot metal, a special building is frequently required to house the operation. In the case of drop forging operations, provisions must be made to absorb the shock and vibration generated by the hammer. Most forging operations will require the use of metal-forming dies, which must be precisely machined and carefully heat treated to correctly shape the workpiece, as well as to withstand the tremendous forces involved. 

 

SME is very careful with raw material source. Chemical composition of every single batch must be tested and proven to meet order requirements. SME laboratory is equipped with Spectrometer instruments that secures material correctness.
3.1B Test Report is always available upon request. You can identify below items from SME Test Certificate according to UNIEN ISO 9001:2000.
* Chemical analysis, including main proportions. Taking brass test for instance, critical composition of Cu%, Zn%, Pb%, Fe% will be identified. Order quantity and standarised material codes are refered to for swift comparison.
* Pressure test results.

Open-die forging is also known as smith forging. In open-die forging, a hammer, weighing up to 630 tons maximum in SME capacities, strikes and deforms the workpiece, which is placed on a stationary anvil. Open-die forging gets its name from the fact that the dies (the surfaces that are in contact with the workpiece) do not enclose the workpiece, allowing it to flow except where contacted by the dies. Therefore the operator needs to orient and position the workpiece to get the desired shape. The dies are usually flat in shape, but some have a specially shaped surface for specialized operations.

Cogging is successive deformation of a bar along its length using an open-die drop forge. It is commonly used to work a piece of raw material to the proper thickness. Once the proper thickness is achieved the proper width is achieved via edging.

SME has in its brass forging capacity of 1 set of 630 tons, 2 sets of 360 tons, 2 sets of 200 tons, 4 sets of 100 tons and 6 sets of 63 tons. Housing 76 crews, the manufacturing center covers over 3500 square meters. Years of experienced management and working flow of mass production make it a sure promise for swift delivery within 45 days (including weekends) for brass couplings manufacture. Workers in SME are well educated prior to their practice on site. Quality inspector are patrolling at sites throughout all procedures on regular basis to make sure mistakes are corrected at earliest stages.