A study of high efficiency face milling tools

“…Especially in this situation, the contact length between the chip and the tip is decreased. However, if the lead angle is increased from 30 to 40 , the cutting force will increase because the contact length between the chip and the cutter is increased [12]. In Figs.…”

“…A chamfered main cutting edge tool, which can produce a secondary chip, reduces the cutting force and aids thermal dissipation. Based on the experimental results of Hoshi [6], and Chang [12], the basic force model for a sharp corner tool with a chamfered main cutting edge ( 0) = R shown in Fig. 1 was derived as follows:…”

“…Due to the size effects, a modified cutting force is presented in this paper to get more precise results. Besides the horizontal force , the plowing force due to the effects of the tool edge and the wear force due to the effects of flank wear [12] are considered in the prediction of the modified horizontal cutting force, , as illustrated in Fig. 4.…”

“…is flank wear of tips and for simplification, the value of is set to be 0.05mm. is the contact length between the cutting edge and the workpiece and is the projected contact length between the tool and the workpiece, as referred to [12], can be determined according to the following conditions. is equal to (Eq.…”

“…Chang [12] has presented that milling of medium carbon steel with chamfered main cutting edge tools could improve cutting efficiency. However, the effects of tool with face milling stainless steel were excluded from his discussion.…”

Prediction of Cutting Forces in Milling Stainless Steels using Chamfered Main Cutting Edge Tool

“…Especially in this situation, the contact length between the chip and the tip is decreased. However, if the lead angle is increased from 30 to 40 , the cutting force will increase because the contact length between the chip and the cutter is increased [12]. In Figs.…”

“…A chamfered main cutting edge tool, which can produce a secondary chip, reduces the cutting force and aids thermal dissipation. Based on the experimental results of Hoshi [6], and Chang [12], the basic force model for a sharp corner tool with a chamfered main cutting edge ( 0) = R shown in Fig. 1 was derived as follows:…”

“…Due to the size effects, a modified cutting force is presented in this paper to get more precise results. Besides the horizontal force , the plowing force due to the effects of the tool edge and the wear force due to the effects of flank wear [12] are considered in the prediction of the modified horizontal cutting force, , as illustrated in Fig. 4.…”

“…is flank wear of tips and for simplification, the value of is set to be 0.05mm. is the contact length between the cutting edge and the workpiece and is the projected contact length between the tool and the workpiece, as referred to [12], can be determined according to the following conditions. is equal to (Eq.…”

“…Chang [12] has presented that milling of medium carbon steel with chamfered main cutting edge tools could improve cutting efficiency. However, the effects of tool with face milling stainless steel were excluded from his discussion.…”

Prediction of Cutting Forces in Milling Stainless Steels using Chamfered Main Cutting Edge Tool

3-Dimensional kinematics simulation of face milling

Prediction of cutting forces for the milling of plain carbon steel using chamfered main cutting edge tools