In milling, an important characteristic of titanium alloys is extremely poor thermal conductivity. Due to the high strength and low thermal conductivity of titanium alloy materials, extremely high cutting heat (up to 1200C if not controlled)....
In the fine machining of thin parts, the difference from rough machining is that the influence of clamping force, cutting tool and process parameters on the internal stress of the part must be fully considered in the finishing process. As we....
Turning and milling thin parts (aluminum, aluminum alloy, pure titanium, copper, magnesium alloy) are always prone to deformation during machining. Oval or waist shape with a small middle and large ends, which makes it difficult to ensure t....
For CNC machining of aluminum parts with a large margin (large, thin-walled, aluminum cavity parts), in order to have better heat dissipation conditions during the machining process and avoid heat concentration, symmetric machining should be....
There are many reasons for the deformation of machined aluminum parts, which are related to the aluminum material, the shape of the part, and the CNC machinery and equipment. There are mainly the following aspects: blank internal stress, cutting force....
The machining technology of titanium parts includes: turning, milling, tapping, reaming, drilling, grinding 1. Turning titanium parts Turning titanium alloy products can easily obtain better surface roughness, and the work hardening is not s....