Click ME to close the menu.

Log In to MTD Channels to access your customer cockpit and see content more relevent to you.

Aerospace Component Machining Halved on Brother TC-31B
Aerospace Component Machining Halved on Brother TC-31B

Aerospace Component Machining Halved on Brother TC-31B

Added to MTDCNC by Whitehouse Machine Tools on 21 August 2012

Plymouth subcontractor, Morris Engineering, was faced with either losing an aerospace contract, quite possibly to an overseas supplier, or finding a way of manufacturing the components much less expensively. The resulting value engineering exercise, which involved investing in an additional Brother vertical machining centre, was so successful that cycle time and labour overhead were both cut by a factor of five, reducing the cost of manufacturing the components by 50 per cent.

Supplied by UK agent, Whitehouse Machine Tools, the Japanese-built Brother TC-31B automatic pallet change (APC) machine is a 30-taper model having a 16,000 rpm spindle with through-coolant, 26-pocket magazine for cutters, 1.7 seconds chip-to-chip tool change time, and 50 m/min rapid traverse in X, Y and Z around the 350 x 250 x 350 mm working envelope.

The machine is of smaller capacity, less well specified and a little slower than Brother's flagship APC machining centre, the TC-32B QT, of which Morris Engineering has three. Nevertheless, the TC-31B is eminently capable of producing the tightly toleranced aerospace parts and crucially, in the context of this price-sensitive application, it costs 40 per cent less than the TC-32B. Moreover, with a 3.2 m x 1.4 m footprint, the machine occupies only two-thirds of the floor area, which is also beneficial as space is limited at the Plymouth factory.

Morris Engineering started manufacturing the predecessors of these components for its aerospace customer in 2008 and has produced six iterations of the components over the years. At the outset, a vertical machining centre without APC was used for the work, as the three Brother TC-32B QTs were, and still are, devoted to producing microwave antenna parts.

Production manager Mathew Mann advised, "Average cycle time for the two or three operations on each aerospace component was originally around half an hour, although we eventually got it down to 12 minutes using multi-flute, solid carbide milling cutters from SGS.

"Manufacture was based on batches of 400-off, but the trouble was that when parts drifted out of tolerance, hundreds of parts could be scrapped, reducing our profit on the job.

"To make matters worse, the parts have been getting smaller and the tolerances tighter and more difficult to hold. The drawings now specify 10 microns on hole sizes and 0.05 mm on position and concentricity.

"Then the cost-down request came in from the customer, so we had to completely revise the manufacturing process to keep the work and make it pay."

There had already been a move towards lean manufacture and single piece flow at the Plymouth factory, following a request by another of the subcontractor's customers to move in that direction. Production of components in one or two hits was becoming the norm whenever feasible, as was investment in twin-pallet machines to take load/unload out of the production cycle.

The Brother TC-31B was identified as being ideally specified for manufacturing the aerospace parts. (Instead of the 16,000 rpm spindle, a 22,000 rpm option could have been supplied.) Whitehouse Machine Tools configured the machine at its Kenilworth technical centre to produce the current two pairs of parts, including writing the programs and carrying out time studies.

Two, three or four machining operations per part are required, according to the variant. Four MicroLoc fixtures on each pallet can clamp any of the four parts, speeding changeover between machining one pair components and the other. One component comes off complete every six minutes, representing a halving of the best previous cycle time and a five-fold reduction compared with the original time.

Theoretically, two clamping positions per pallet would have been enough to enable both sides of the components to be machined. However, to improve tool access and to make it easier to hold tolerance, in particular concentricity, one or two of the cycles have been split into two, resulting in three or four operations overall for some components.

Tim Winzer, managing director, commented, "Our ability to take 50 per cent out of the cost of manufacturing the parts, despite buying a new machine, is not down to the shorter cycles alone.

"Whereas before we had two operators running two machining centres over two shifts to fulfil the contract, we now have one operator looking after the TC-31B over a shift and a half.

"It has cut over 80 per cent from the labour cost associated with this long-running job, so we can compete with any potential supplier worldwide for the manufacture of this type of precision component.

"We have built the aerospace side of our business to about 20 per cent of turnover and are on track to achieve the SC21 bronze award later this year. It reaffirms our commitment to advancing our position in the aerospace supply chain as a specialist manufacturer of relatively small, high accuracy parts."

Building Location