New Airbus hub for next-generation wings

Airbus is investing further in its UK innovation capabilities with the opening of a new Wing Technology Development Centre (WTDC) at its Filton site that will build and test demonstrators for a range of programmes and research projects. Alongside engine optimisation, making wings longer, leaner and lighter is one of the biggest opportunities to improve fuel efficiency, reduce CO2 and ultimately work towards the aviation industry’s ambition to achieve net-zero carbon emissions by 2050.

Airbus head of Filton site and Wing of Tomorrow Programme Sue Partridge says: “The new WTDC will help us to ground our research in practicality. A key element of how we deliver technology for next-generation wings is through Wing of Tomorrow [WoT], our largest research and technology programme led by the UK team.” The WoT programme allows Airbus to explore new manufacturing and assembly technologies so future generations can continue to benefit from flying.
For further information www.airbus.com

The importance of self-centring work holding

Machinists obviously demand accuracy and repeatability, but according to Mate,these demands also extend to the vice that holds the workpiece. For this reason, Mate workholding functions as a system. A highly accurate and repeatable base needs a highly accurate and repeatable self-centring vice for the system to provide best-in-class operation. Here, Mate reports that its DynoGrip vices shorten set-up time and reduce process variability.

DynoGrip self-centring vices clamp parts to within 15 µm of perfect centre, repeatable to within 10 µm. These results are due in part to Mate manufacturing the lead screw in-house, using tool steel that is properly hardened and coated with titanium carbo-nitride. The screw has a fine 1.5 mm pitch and a trapezoidal thread yielding a strong, steady push.

Perhaps the most important feature is that Mate machines both the right and left sides of the lead screw from the same top dead centre. This process is how the company controls where the lead screw starts and stops. Mate does the same for the internal thread of the pusher to know the top dead centre. Since the company controls every element of the manufacturing process, it eliminates variability and makes it easy to get to the vice to centre accurately and in a repeatable manner.

DynoGrip self-centring vices also have an anti-lift design to counteract natural physicsthat will cause a part to rise up. The pushers and jaws work together to exert a downward force on the workpiece equal to the clamping force. Furthermore, the quick-change jaws feature a serrated tooth geometry which generates a downward force on the workpiece and a deliver superior ‘bite’ into the workpiece.
For further information www.mate.com

4D printing breakthrough

Researchers from Queen’s University Belfast have created personalised 4D-printed ‘smart’ implants for breast cancer management, representing the first application of the technology for this application. The multipurpose new implants are programmable, changing size to better fit within the breast cavity and deliver body personalisation. The result is improved aesthetics and confidence for those who have, or have had, breast cancer. Notably, the implants also have the ability to release chemotherapy drugs. The chemotherapeutic molecule protects patients from the return of cancer cells in the area.
For further information www.qub.ac.uk

Mazak hosts Primary STEM Challenge Final

Yamazaki Mazak hosted over 80 primary school students from across Worcestershire as they showcased their skills and ideas in the 2023 Primary STEM Challenge Final. While the judges deliberated, all the students who took part in the final had a guided tour of Mazak’s European Technology Centre, which also included the opportunity to help program some of Mazak’s latest machine tools. Teams from Nunnery Wood Primary School and Eldersfield Lawn CofE Primary School were eventually crowned winners.

Max Jones, people development manager at Yamazaki Mazak UK, says: “Fostering the next generation of engineering talent is central to the Mazak philosophy. While we have multiple entry points for school and university leavers, as well as experienced engineers and career-changers alike, activities such as the Primary STEM Challenge are a brilliant way of enlightening young minds to the rewarding opportunities a career in engineering can deliver.”
For further information www.mazakeu.co.uk

SOFTWARE MAKES TURNING COPPER AS EASY AS BRASS

A large proportion of work going through subcontractor C&M Precision’s Maldon factory involves machining copper that is bar-fed into CNC turn-mill lathes. Two sliding-head models out of the nine turning centres on the shop floor, all supplied by Citizen Machinery UK, have LFV (low-frequency vibration) functionality in the operating system of their Mitsubishi controls. This software results in much higher productivity and increased yield when converting malleable copper into high-end electronic components for OEMs in the medical, radar, satellite and broadcasting sectors.

Owner John Cable explains that for many of these jobs, a particular grade of copper known as OFHC (oxygen-free high conductivity) is required, which is more than 99% pure. One 60 mm long, tight-tolerance component previously produced from 3 mm diameter bar on an early Citizen Cincom M16 slider without LFV required turning in one pass through the guide bush down to 1.20 – 1.22 mm diameter along half its length. The continuous string of copper swarf frequently damaged the component and often became lodged in the counter spindle, preventing synchronous transfer after part-off and causing the machine to alarm out. The result was a severe impact on productivity and the scrapping of up to 20%of parts.

“Transferring the job to a Cincom L12-VIILFV we bought in 2019 was a real winner,” says Cable.“With the LFV function turned on, copper chips like brass. Yield is now 100%, throughput is high and we can even leave the machine to run unattended.”

The other Cincom slider on site with this chip-breaking functionality, a nominally 20 mm capacity L20-VIIILFV, arrived on the shop floor in 2017, making the subcontractor an early adopter of this novel technology. Supplied with a kit that allows feeding of oversize bar up to 25 mm diameter, the lathe is also proving useful for machining other materials that tend to generate stringy swarf, like nickel alloys and plastics, which the Maldon facility regularly turns.

C&M Precision began trading in 1992 as a CNC sliding-head, twin-spindle, turn-milling shop, following research at the time indicating that four-fifths of rotational parts produced in the UK were less than 25 mm in diameter. After starting out with a different brand of slider, Cable quickly changed to Cincoms, describing the transition as “a breath of fresh air”.

The first model to arrive in 2001 was a now discontinued M12, since sold on. The first job it tackled was the production of 120,000 brass connectors requiring the milling of 3/8-inch hex flats. Amazingly, due to the rigidity of the lathe that Cable described as “rock solid”, one 6 mm diameter carbide milling cutter completed all of the flats, 720,000 of them, and still had not worn out.

The subcontractor is an enthusiastic user of Cincom M-series machines due to their inclusion of a tool turret as well as a gang tool post, allowing the production of complex components. A 16 mm diameter bar model installed in 2004 was joined three years later by a pair of 32 mm diameter bar capacity lathes. The latter, third-generation M32 lathes have since been replaced by fifth-generation models to take advantage of Y-axis motion on the turret and an overall higher specification.

2014 and 2015 saw the arrival of three more 32 mm sliders, this time in the Cincom A-series. They have only gang tool posts, so are faster when manufacturing less complicated parts. One of the lathes does not have a guide bush, as it is devoted to relatively limited runs of short components such as mining industry connectors. The other two sliders with a guide bush produce tens of thousands of parts per week, 24/5. One example is a mild steel gas meter part which the customer orders at a rate of one million per year, with the subcontractor making weekly deliveries.

C&M Precision’s latest two acquisitions are from Citizen’s Miyano range of fixed-head lathes. Installed in January and March 2022 respectively, the twin-turret BNE-65MYY models with Y-axis motion on each tool carrier replaced two ageing lathes that had one Y-axis turret apiece.

“It made sense to go the Miyano route in view of our good experience with the Cincom lathes,” says Cable.“People say it is not good to have all your eggs in one basket, but in Citizen’s case it is. We now have a single point of contact for applications, back-up and service, and the supplier is very capable and responsive to our needs.”

He adds that the Miyano lathes have similar capability at both spindles and are highly productive, with advantage taken of Y-axis machining for a large proportion of the time. Simple off-centre holes are frequently drilled and bored, flats are easier to mill up to a shoulder, and roll marking often takes place using the Yaxes. Parts coming off the lathes are accurate due to one-hit production. It is possible to program cycles involving superimposed machining, where three tools are cutting simultaneously, although this facility has not seen use thus far.

Some parts are not possible at all on driven-tool lathes without Y-axis motion on at least one turret and would have to be put onto a machining centre for a second operation. Others, such as a pair of components – one aluminium and the other brass – for a broadcasting microphone, are produced much faster on the twin Y-axis Miyanos compared with the lathes they replaced. The company machines the more complex of the two, the aluminium part, in 4.5 minutes compared with 7.5 minutes previously. As the batch size is 2000-off, the saving is considerable.

As to the future, Cable sees continued purchase of LFV lathes inevitable. While high-pressure coolant systems break swarf adequately on his current larger lathes, as they mainly process free-cutting materials, there is one job presently produced from malleable, oversize, Swedish iron bar on the L20-VIIILFV that would profit from machining on a 32 mm Cincom in the same series with the chip-breaking technology.
For further information www.citizenmachinery.co.uk