Machining strategies for hole making in composites with minimal workpiece damage by directing the process forces inwards

Schulze, Volker; Becke, Chris; Weidenmann, Kay André; Dietrich, Stefan

doi:10.1016/j.jmatprotec.2010.10.004

Cited by 60 publications

(36 citation statements)

References 18 publications

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“…The concept of intermittent cutting through orbital drilling (OD) is based on using high-speed machining to eliminate some of the existing problems in conventional drilling (CD); namely, [193]. 37.…”

Section: Orbital Drillingmentioning

confidence: 99%

High performance cutting of advanced aerospace alloys and composite materials

M’Saoubi¹,

et al. 2015

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Section: Orbital Drillingmentioning

confidence: 99%

High performance cutting of advanced aerospace alloys and composite materials

M’Saoubi¹,

et al. 2015

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“…Optimizations usually aim at reducing the forces by means of special tool geometries for drilling and milling [4,5] or adapted machining strategies such as circular milling [6]. Process strategies which are designed to direct resulting process forces toward the center of the workpiece when machining composites showed significant reduction in workpiece damages [7].…”

Section: Introductionmentioning

confidence: 99%

Specific machining forces and resultant force vectors for machining of reinforced plastics

2011

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“…Two milling strategies, which follow a different basic approach, have been investigated by Schulze et al [10,11]: a combined circular and spiral milling process as well as the five-axial process of wobble milling. These machining strategies aim not only at reducing machining forces when machining the workpiece's top layers, but at directing the resultant process forces toward the center of the workpiece.…”

Section: Hole Making In Fiber Reinforced Plasticsmentioning

confidence: 99%

“…The process of wobble milling for hole making has been thoroughly investigated experimentally for the machining of a short glass fiber reinforced polyester [11] and a carbon fiber reinforced epoxy laminate (0°/90°, thickness 3 mm). The results have been compared to reference processes such as circular milling.…”

Section: Wobble Millingmentioning

confidence: 99%

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A voxel-based kinematic simulation model for force analyses of complex milling operations such as wobble milling

Schulze

Spomer

Becke

2011

Prod. Eng. Res. Devel.

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Mechanical machining of fiber reinforced plastics poses special challenges due to the heterogeneous and anisotropic material composition. Process strategies for the generation of drill holes, which aim at directing the resultant process forces toward the center of the workpiece, have been shown to obtain good machining results with less process induced damage. However, these strategies (e.g. wobble milling) might involve complex multiaxial tool movements and are thus very difficult to analyze and optimize. A voxel-based kinematic simulation program has been set up, which allows analyses of process forces for arbitrary milling operations based on the time-resolved determination of the cutting thickness and multivariate process force regression models. A basic analysis of the process of wobble milling is presented as well. It confirms that the resultant process forces are directed toward the center of the workpiece when the outer material layers are machined. The resultant force is directed in a favorable direction throughout the complete cut during the actual process step of wobble milling.

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Machining strategies for hole making in composites with minimal workpiece damage by directing the process forces inwards

Cited by 60 publications

References 18 publications

High performance cutting of advanced aerospace alloys and composite materials

High performance cutting of advanced aerospace alloys and composite materials

Specific machining forces and resultant force vectors for machining of reinforced plastics

A voxel-based kinematic simulation model for force analyses of complex milling operations such as wobble milling

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