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o meet the growing need to increase output, boost production quality and maximise profit, engineering companies that manufacture metal parts are taking new approaches, writes Mark Jennings, engineering director at Dawson Shanahan
Engineering firms are constantly seeking new opportunities to apply more cost-effective measures that will save energy, carbon and money. But such measures as installing energy-efficient components can sometimes be ignored because they seem to demand a longer payback period than can be justified. However, upgrading gearboxes, drives, couplings and motors can create huge savings.
Similarly, material costs for manufacturers of metal components are sometimes seen as something to be endured, but there are now an increasing number of options available with which to cut costs and achieve a more efficient and sustainable manufacturing programme.
You can’t control the market cost of the metal you use, but how about considering production methods that could allow you to use less of the same? Dawson Shanahan has pioneered a metal manufacturing process that can cut production costs without sacrificing the quality of components – it offers big material savings but also an enhanced surface finish and improved mechanical characteristics.
As it retains the integrity of the metal, while also producing parts with highly polished surfaces, the performance of a component can be improved dramatically. This process – cold forming – produces simple, high volume components, but is now increasingly used to produce precision components in, for example, laser applications, where cold-formed nozzles can increase cutting precision significantly.
With cold forming, metal is shaped without removing material. A simple blank (either sawn or cropped from a round bar or wire or as a cold headed pre-form) is placed within a die and a punch is pressed into the blank at ambient temperature. The blank then takes on the form of the punch and the die. With appropriate force, hard material such as copper, aluminium, brass and now even stainless steel can be formed to the required shape, as can other precious materials, such as gold and silver.
Material savings
Thanks to cold forming, up to 80% material savings can be achieved, as well as time and costs saved that would otherwise have been incurred by machining. Not only that but component performance is also improved through the enhanced qualities cold forming brings to the structure of the metal.
For example, Dawson Shanahan precision engineered laser nozzles have an internal surface finish of just around 0.1µm. The enhanced mirror finish and curved internal nozzle profile gives better, less turbulent gas flow, resulting in improved cut quality and speed. Nozzle damage by misalignment and clipping of the laser beam is also reduced. YAG (yttrium aluminium garnet) laser nozzles, traditionally difficult and expensive to manufacture due to the length of the tapered bore, can also be manufactured using the technology.
Looking beyond cold forming, there are other relatively new methods of saving on costs that have recently gained attention, such as new systems that use vacuum pumps to automatically collect swarf from the machining process. Honda UK Manufacturing (HUM) is using a swarf collection system to process 1,000 tonnes of swarf waste every year. Manufacturers can land themselves with tonnes of valuable metal using this method and, if they can conduct recycling operations in-house without contracting out, the benefits are greater still.
So, those who have not seriously considered methods such as swarf collection and cold forming can make a major reduction in costs by avoiding the waste of the precious metal they buy.
Dawson Shanahan
