CAM competes with aerospace challenges

AMNov19Features - open mind1
AMNov19Features - open mind1

Specialist CAM solution provider, Open Mind reveals how its software technology is helping customers keep pace with the latest aerospace manufacturing challenges. Aerospace Manufacturing reports.

 

There are many CAM software products in the market and most have targeted capabilities. The focus may be on processes such as 5-axis milling, mill-turn, or wire EDM. The ideal CAM software for aerospace manufacturers has to excel at high material removal and machining of aluminium structures, and work well with high precision requirements of compressors and turbines that are often machined with long slender cutters.

High-performance roughing is necessary to bring aluminium blocks or plates to near-net shape. Up to 90% or more of the block weight may be removed during roughing processes. Not only is this important in typical 3-axis structural components, but equally crucial in 5-axis components.

Dealing with rough stuff

Many CAM software programs have a high-performance roughing module. Open Mind offers hyperMILL MAXX Machining as its roughing module. This machining approach is based on Celeritive’s Volumill kernel, but has been extended by Open Mind to have applications for 5-axis roughing. In cases of shaped structural components (some wing segments for example or doors), a 5-axis roughing process provides a huge benefit to subsequent machining processes. Following high-performance roughing operations, innovative finishing techniques can have a big impact on results.

The surfaces of standard structural parts are machined with a swarf milling operation, with the side of the cutter aligned to the side of the part. This process enables very good performance, but is limited to ‘short’ wall surfaces typically up to 50mm height. For larger wall surfaces, the swarf milling operation may lead to vibration in the cutter or in the wall surface, or multiple steps with overlap and inconsistent deflection patterns. In these cases, or other cases that do not have ruled surface walls, the next best option is point milling in many passes by using the tip of a ball-nose endmill with a small step-over. This point milling method increases cutting time dramatically.

hyperMILL MAXX Machining and conical barrel cutters enable large contact radius and clearance from wall surfaces

Recent innovations include applying barrel cutter geometry to these surfaces. Open Mind’s hyperMILL MAXX Machining finishing approach uses a conical barrel cutter to enable a barrel contact radius of 1,000mm or more, thereby producing a wider step-down 10x to 15x compared to that of a ball-nose endmill. This enables the cutting time for these surfaces to be reduced by 90% or more. The conical barrel cutter has the large barrel radius ground on a tapered feature, compared to a traditional barrel cutter where the large radius blend to be tangent to the cutter shank.

The benefit of having the taper angle is that the cutter axis can be pulled away from the surface being cut. The result is a shorter and stiffer cutter without interference from the cutter holder. The machining benefits far outweigh the increased cost of conical barrel cutters, especially in aerospace production applications. Though the tangent barrel cutter provides some benefit, the conical barrel cutter is generally superior to enable larger barrel radius and to allow shorter cutters without interference from the cutter holder.

Conical barrel cutters exhibit long life and very consistent machining performance. In addition, the ball end on the tip of the conical barrel cutter can be used to clean fillets and blend surfaces, using the same cutter.

A material whirl

Engine components are generally classified in two categories – multi-blade and single-blade. The difference is that the multi-blade components are produced as a monolithic shape from one stock. And single-blade components are machined as individual airfoils with mechanical attachment features, and then are mechanically assembled to make the engine components. Engine components face high temperature and stresses, and potentially the impact of FOD, so materials like titanium, steel and superalloys are used.

Single-blade machining can start from rectangular block, cylindrical stock, or near-net forgings. Roughing is a critical task to control costs, and also to set up for finishing operations. Due to various starting stock shapes and irregular finishing shapes, stock tracking is essential during roughing operations to avoid wasteful air cuts. As blades can also be twisted, multiple cutting orientations should be used during roughing to leave minimal stock for finish.

Single-blade finishing is historically performed with ball nose endmills, especially on twisted surfaces and near attachment platforms. Open areas of the blade surface are often cut with a tilted bull-nose cutter. This cutting style gives a large effective radius of curvature and can produce a fine surface finish with fewer passes compared to a ball-nose endmill. As with structural components, recent developments with conical barrel cutters further extend the benefits of using large contact radius with a stable and controlled machining process.

The finishing of multi-blade components raises additional challenges due to tight blade spacing and requirements for high aspect ratio cutters. The CAM software must possess robust collision detection and avoidance techniques to find a solution in the close spacing between blades.

hyperMILL MAXX Machining roughing with 5-axis shape offset leaves a uniform stock for subsequent finishing operations

Due to the small cutter radius that is allowed based on blade spacing and fillet geometry and the fine surface finishes required to meet design specifications, hundreds of passes around the blade may be required to attain the needed surface finish using a ball-nose endmill. Applying these long path lengths against hard metals is time consuming and leads to cutter wear and concerns for manufacturing consistency. Some engine manufacturers change a cutter for each subsequent blade surface to assure a consistency of wear and reduced imbalance of the resulting machined part.

Twisted multi-blade surfaces typically do not allow use of swarf milling process. Conical barrel cutter solutions are also being applied to achieve cycle time and quality improvements. The larger step-over for conical barrel cutter processes mean less overall path length and tool wear compared to ball nose endmills.

Both single-blade and multi-blade components can be classified with feature-based and family-of-parts (macro) programming. In both cases, there are repeated geometry selections of curves and surfaces. These are more complex than typical holes and pockets, but can equally be represented by feature definitions. Re-using best practices for materials and tooling including feedrate and spindle speed, holders, step-down, step-over and more, can be useful when programming for multiple parts. By having a comprehensive family-of-parts strategy, the programming effort can be reduced over many parts while achieving high productivity results.

CAM software has a large influence over machine tool performance, so users can gain benefits by selecting the proper CAM software for the application at hand. The most advantageous CAM software is continually evolving with each new version release to offer enhancements and innovations which keep up with the requirements of aerospace manufacturing.

www.openmind-tech.com

Company

Open Mind

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