Thin-wall components are some critical parts that are extensively used in modern industries
due to their high structural efficiency and low specific weight. However, precision machining …

Turbine blades are widely used in aviation industries for its aero-dynamic performance.
However, as a kind of thin-walled parts with complex surfaces, to machine blades with high …

Presently, the service performance of new-generation high-tech equipment is directly
affected by the manufacturing quality of complex thin-walled components. A high-efficiency …

The precision and performance of machined flexible parts are under influence of
deformation errors during end milling operations. Thus, prediction and compensation of …

In flank milling of thin-walled parts, the profile tolerance would usually be violated by the
excessive static deformations. This paper presents a comprehensive method to compensate …

Large thin-walled parts are widely used in aerospace. Due to its low rigidity, force-and
thermal-induced cutting deformation immediately affects the dimensional accuracy of …

The machining deformation prediction and control is the key issue to ensure the dimensional
accuracy of parts and guarantee the quality of products. However, with the material removal …

During milling operations, regenerative and periodic forces are generated from the
interactions of cutting tools and workpieces. While the regenerative forces can be preempted …

Especially with increased cutting forces using complex-shape tools such as long end milling
tools, deflection in machining significantly affects the dimensions and geometry. This kind of …

Tool-workpiece deflection is one of the major error sources in machining thin walled
structures like blades. The traditional approach in industry to eliminate this error is based on …