All the latest news from the industry weekly compiled by the editorial team for you free of charge.
This eMail is already registered.
An unexpected error occured.
Please accept our Terms of Use.
Registration successful.
2 Ratings


Mar 1, 2022

Aerospace experts are anticipating a significant growth with more than 30,000 new passenger and freight aircraft required by 2033. This is going to pose immense quantitative and qualitative challenges to the existing aerospace manufacturing plants. The case study talks about how Augsburg-based Airbus subsidiary, Premium AEROTEC, ensures its participation in this fiercely competitive field with the support of CGTech’s NC simulation software, VERICUT, and the application of the new Force module for ongoing operational reliability & machining efficiency.

Premium AEROTEC is amongst the world leaders in the development and manufacturing of structures and manufacturing systems for civil and military aircraft alike. With locations in Augsburg, Bremen, Hamburg, Nordenham, Varel and Braşov (Romania), Europe’s leading aviation suppliers develop and manufacture the very latest in modern aircraft structures, from aluminium to titanium to carbon fibre composites for the entire Airbus family.

The company is a key partner in the development and production of the A350 XWB as well as provides parts for the Boeing 787 ‘Dreamliner’, the Eurofighter Typhoon and the Airbus A400M heavy-lift military transport aircraft. Premium AEROTEC was established in January 2009 with the merger of the EADS plant in Augsburg, with the facilities of Airbus Germany in Nordenham and Varel. Under the governance of the Airbus Group, the company’s headquarter is in Augsburg. There are around 4,000 people employed with the focus on the manufacturing and assembly of fuselage parts and heavy-duty structural components for military & civil programmes with the use of hybrid lightweight structures, carbon fibre technologies, infusion processes and sandwich construction techniques.

Fast, precise, reliable and reproducible

To guarantee the surface qualities and workpiece tolerances required, high performance material machining techniques are employed in Premium AEROTEC’s production area. These techniques must meet the defined quality required without scrap or elaborate repeat machining to rework components. They must also minimise the wear on the machines and cutting tools, reduce downtimes to a minimum and be highly efficient even with complex components running in small batches. In other words, they must be fast, precise, reliable and reproducible – without compromise.

Of course, this is an environment familiar to many in the aerospace sector where machine tool safety and security are critical to meet the ongoing delivery targets. To ensure this, the company has used the industry standard NC simulation software, VERICUT, as an integral element of its manufacturing processes since 1991. The fundamental aim is to avoid machine tool collisions, either with the structural components of the machine, the raw material or component, and even the fixturing systems.

Simulation proving its worth

VERICUT was chosen to check the NC code that generates the milling paths on the machine tools, and in 26 years of use it has more than proved its worth. “Today, there are no more prove-outs required on the machine. No NC program goes onto the machine without having been tested first in VERICUT,” explained Werner Flagner and Michael Hoffmann, under whose supervision more than 30 Premium AEROTEC personnel work with VERICUT.

The leading independent NC simulation and optimisation software, CGTech’s VERICUT simulates the entire CNC manufacturing process, regardless of the machine, control system and CAM systems involved and tests the NC program for interferences & errors before anything runs on the real machines. More than 25 different machining centres used at Premium AEROTEC are simulated using VERICUT.

Differentiating between CAD & simulated workpiece

Auto-diff is a very important VERICUT module at the Augsburg plant. It provides an automated identification of the differences between a CAD model and a workpiece simulated by VERICUT. Within the module, anyone involved in the manufacturing process can detect points that have been incorrectly processed or errors in the programming. “It is an ideal tool that is particularly important when extremely expensive parts are involved, and which, when it comes to allowances and tolerances, has proved to be indispensable,” said Flagner. “Auto-diff helps cut programming time and speeds up the entire process,” added Hoffmann.

Given the high material removal rates of up to 98%, is it even possible to achieve a reduction in production times – including setting up, parts handling, measuring and run-through? There are several approaches to improving machining efficiency. These include machining in a single setting with the integration of different manufacturing procedures. Ideally, the complete machining process takes place in ‘one-hit’, reducing positioning errors or damage to the components during manual handling. Optimised workholding strategies and new machine tools with modern cutting tools also have the potential to increase cutting speeds, material removal volumes and improve machining qualities, while also increasing service life.

Force increasing efficiency

However, process safety and security remain an absolute requirement in manufacturing. That is why Premium AEROTEC has applied the new physics-based module, Force, from CGTech to increase efficiency while maintaining operational reliability. Force is the culmination of a joint development between CGTech and United Technologies Corporation (UTC). A physical and scientific optimisation method, Force is a software module within VERICUT that uses known physical parameters to determine the maximum reliable feed rate for a given cutting condition based on four factors – force on the cutter, spindle power, maximum chip thickness and maximum allowable feed rate. It calculates ideal feed rates by analysing tool geometry & parameters, material properties of the stock & cutting tool, detailed cutting tool edge geometry and VERICUT cut-by-cut contact conditions.

Tony Shrewsbury, Managing Director, CGTech, explained “It relates to helix and rake angle as well as the general geometric form of the tool. What is decisive is the material type – carbide or hard metal or HSS – and the issue of when the tool breaks. As loading peaks are also displayed in Force, these can be managed and reduced to ‘smooth’ the loading to make the cutting action less ‘shocking’ to both the tool, workpiece and the elements of the machine tool.”

Another advantage is that Force does not need any user findings; it is optimised solely based on the values determined. Likewise, no elaborate software tests are required. Shrewsbury goes on, “The issue is not about milling strategies of existing programs. No tool path needs to be changed. Force simply divides or splits the path to introduce advances. Everything is governed by the feed advance, so the geometries are not altered.”

More potential benefits in the future

Premium AEROTEC has really gained right from the start with the new Force solution. The savings achieved so far are around 22% reduction in machine cycle times with programs optimised by Force, with a substantial improvement in tool life as well. Shrewsbury is confident there are still more potential benefits to be seen in the future. “Force is extremely well-suited to materials that are difficult to machine and for complex multi-axis operations. We are encountering both these factors increasingly, not only in the aerospace sector but in all precision machining industries. For real world efficiency gains, Force is the most innovative software currently available.”

Courtesy: CGTech

Image Gallery

  • Auto-diff provides an automated identification of the differences between a CAD model and a workpiece simulated by VERICUT

  • A physical and scientific optimisation method, Force is a software module within VERICUT that uses known physical parameters to determine the maximum reliable feed rate for a given cutting condition based on four factors – force on the cutter, spindle power, maximum chip thickness and maximum allowable feed rate

Companies related to this article
Related articles