The most important test result: when it comes to vibration damping, hydrostatic guides cannot be topped. This is an area in which Starrag already has experience. Rainer Hungerbühler, Sales Director for Aerospace and Turbines, takes a look back: “More than 15 years ago we already had hydrostatically guided machining centres. However, the dynamics of these machines left a lot to be desired, which is why we equipped the subsequent STC series with roller guides. Given today’s customer demands and the lessons we’ve learned, we wanted to change it back.” So the Starrag developers re-addressed the topic of hydrostatics and achieved an impressive result, as Rainer Hungerbühler enthusiastically confirms: “Our new STC 1250 HD is fantastic. The first tests have already shown that it sets a completely new benchmark in terms of stock removal rates during roughing. It even has considerable advantages to offer in terms of dynamics.”

A look behind the technical scenes

Rolando Senn is the lead designer in hydrostatics. He explains the strengths of this technique: “The essential feature of hydrostatic guides is the permanent oil film between the slide and the bed or the standing structural part. This means that there is no contact between the guide rails and the carriage travels completely without friction.” Owing to the lack of friction, there is no wear and the oil dampens the vibrations that occur during machining. The large contact surfaces also ensure tremendous rigidity.

“We have increased this even further by choosing one with pre-tensioned handle guides instead of a statically open system,” explains Rolando Senn. To be able to classify these strengths, it is necessary to look at the essential characteristics of other guide systems. Hydrodynamic guides, for example, have many similar properties to hydrostatic guides, but one major disadvantage: the guide elements come into contact when stationary. The separating oil film only forms when they are moving, so static friction has to be overcome when starting up, which causes the undesirable stick-slip effect. Pure sliding guides also exhibit a stick-slip effect and are additionally subject to high friction and corresponding wear. Roller guides are not as prone to friction and wear, but they are also less rigid and damping. In addition, micro-vibrations occur during the rolling process, which can impair the surface quality during finishing operations.

Using the example of a typical structural component, a framed door with dimensions of 80 × 300 × 1,220 mm, Starrag made a comparison with the previous STC 1250. The 37.1 kg forged part made of Ti6Al4V had a 13 mm allowance on each side and had to be machined to 5.5 kg. The specification: a perfect surface with thin walls and floors. With the hydrostatic STC 1250 HD, it was possible to halve the roughing time and reduce the total machining time by a total of 30%. These values can be used to calculate another, initially unexpected advantage: the reduced energy consumption during roughing. This is because the halved roughing time saves the user – despite the one-third higher power consumption – half of the drive power previously required plus that of the basic load, which consists of the power consumption of the cooling lubricant system, hydraulics, pneumatics, cooling, etc. Overall, the exemplary component consumes 33% less energy.

Another plus point: the minimal maintenance required

Due to the lack of friction, the guide rails of the hydrostatic system do not wear out, whereas with roller guides they have to be replaced at great expense every five to ten years. In addition, the entire hydraulic system is extremely easy to maintain. Here is a brief look at the technology of hydrostatic bearing.

On the Starrag STC 1250 HD, the hydrostatic unit actively delivers the oil into the pressure pockets of the guide plates at a pressure of 80 bar. A dynamic pressure builds up there, which creates a 0.02 to 0.03 mm gap filled with oil between the bed and the slide. The oil that permanently escapes at the guide edge flows back along the bed into a collection container. Another pump delivers it back to the hydrostatic unit via a changeover filter. The undesired mixing of the hydrostatic oil with other oils is simply avoided by Starrag. Rolando Senn explains: “We also use the hydrostatic oil to lubricate the turntable and other bearings. Even if small amounts of oil were lost from these components, they would end up in the hydrostatic tank, where they would not cause any damage. On the contrary. If, over time, the amount increases slightly, you can drain some oil and use it to dispose of impurities collected at the drain plug.”

To prevent service and maintenance measures and ensure safe processes, Starrag protects the guide rails and the associated hydrostatic circuit from dirt, water and chips in two ways: with telescopic steel covers and bellows underneath.

Starrag has also thought ahead for the worst case scenario, a crash, and defined an initial wear point. The pressure pockets installed in the guides are made of a material that is significantly softer than the machine bed and can therefore absorb most of the energy. As these pockets are easy to replace, the damage is limited in the event of minor accidents.