CN107931975A - Titanium alloy tilting axis processing method - Google Patents

Abstract

Titanium alloy tilting axis processing method of the present invention is related to field of machining, and in particular to titanium alloy tilting axis processing method, comprises the following steps：Milling four directions, using carbide end mill, high-speed cutting speed is 100m/min；Drill centers, the drill centers on drilling machine；Mulberry workpieces processing is breathed out in toolroom miling machine, rotating speed 1200r/min, centre drill material is YG330；The large cylindrical of turner on lathe；On CA6163 lathes, positioned using centre bore, heart carrier for bolt clamps workpiece, is interrupted turning workpiece excircle, cutter material W18Cr4V, and tool orthogonal rake is 25 °, and elder generation's low speed machining in lathe during turning, smart car after shaping, ensures workpiece shapes precision；The large cylindrical of clamping workpiece, centering centre bore, jerk value is in 0.01mm, one end step surface of turner, and stays finishing processing surplus 0.2mm, using the same method turner other end；Process of the present invention is simple, easily operated, it is ensured that the processing quality and dimensional accuracy of workpiece, reduce production cost, improve production efficiency.

Description

Titanium alloy tilting axis processing method

Technical field

The present invention relates to field of machining, and in particular to titanium alloy tilting axis processing method.

Background technology

Titanium alloy inclined shaft uses extensively in aviation machine, but the processing of titanium alloy in itself is more difficult, and since axis is Inclined shaft, is more difficult in process of manufacture, general processing method, and the part produced always is expired for the low equipment of required precision Foot requires, but for the high mechanical equipment of required precision, does not then reach requirement, often influence the service life of workpiece and set Standby stable operation, and produce insecurity.

The content of the invention

To solve the above-mentioned problems, a kind of process of present invention offer is simple, easily operated, it is ensured that the processing of workpiece Quality and dimensional accuracy, reduce production cost, improve the titanium alloy tilting axis processing method of production efficiency.

Titanium alloy tilting axis processing method of the present invention, comprises the following steps：

The first step, milling four directions, using carbide end mill, high-speed cutting speed is 100m/min；

Second step, drill centers, the drill centers on drilling machine；

3rd step, breathes out mulberry workpieces processing, rotating speed 1200r/min, centre drill material is YG330 in toolroom miling machine；

4th step, the large cylindrical of turner on lathe；

5th step, on CA6163 lathes, is positioned using centre bore, and heart carrier for bolt clamps workpiece, is interrupted turning workpiece excircle, cutter Material is W18Cr4V, and tool orthogonal rake is 25 °, and elder generation's low speed machining in lathe during turning, smart car after shaping, ensures workpiece shapes precision；

6th step, the large cylindrical of clamping workpiece, centering centre bore, jerk value is in 0.01mm, one end step surface of turner, And finishing processing surplus 0.2mm is stayed, using the same method turner other end；

7th step, drilling, tapping, uses clamping with three-jaw chuck workpiece large cylindrical on lathe, one shaft end of center rest support workpiece, Centering workpiece large cylindrical jerk value is less than 0.01mm, tapping；

8th step, fraising, using hole in CNC milling machine workpieces processing, positions workpiece, vice is clamped using workpiece bottom and side Workpiece, first drills, then hole milling, finally reams, and ensures positional precision；

9th step, wire cutting groove, positions workpiece, on cutting on line lathe, cut-in groove, ensures ruler using workpiece bottom and side Very little precision；

Tenth step, is examined.

Process of the present invention is simple, easily operated, it is ensured that the processing quality and dimensional accuracy of workpiece, reduction are produced into This, improves production efficiency.

Embodiment

Titanium alloy tilting axis processing method of the present invention, it is characterised in that comprise the following steps：

The first step, milling four directions, using carbide end mill, high-speed cutting speed is 100m/min；

Second step, drill centers, the drill centers on drilling machine；

3rd step, breathes out mulberry workpieces processing, rotating speed 1200r/min, centre drill material is YG330 in toolroom miling machine；

4th step, the large cylindrical of turner on lathe；

5th step, on CA6163 lathes, is positioned using centre bore, and heart carrier for bolt clamps workpiece, is interrupted turning workpiece excircle, cutter Material is W18Cr4V, and tool orthogonal rake is 25 °, and elder generation's low speed machining in lathe during turning, smart car after shaping, ensures workpiece shapes precision；

6th step, the large cylindrical of clamping workpiece, centering centre bore, jerk value is in 0.01mm, one end step surface of turner, And finishing processing surplus 0.2mm is stayed, using the same method turner other end；

7th step, drilling, tapping, uses clamping with three-jaw chuck workpiece large cylindrical on lathe, one shaft end of center rest support workpiece, Centering workpiece large cylindrical jerk value is less than 0.01mm, tapping；

8th step, fraising, using hole in CNC milling machine workpieces processing, positions workpiece, vice is clamped using workpiece bottom and side Workpiece, first drills, then hole milling, finally reams, and ensures positional precision；

9th step, wire cutting groove, positions workpiece, on cutting on line lathe, cut-in groove, ensures ruler using workpiece bottom and side Very little precision；

Tenth step, is examined.

Claims (1)

1. a kind of titanium alloy tilting axis processing method, it is characterised in that comprise the following steps：

The first step, milling four directions, using carbide end mill, high-speed cutting speed is 100m/min；

Second step, drill centers, the drill centers on drilling machine；

3rd step, breathes out mulberry workpieces processing, rotating speed 1200r/min, centre drill material is YG330 in toolroom miling machine；

4th step, the large cylindrical of turner on lathe；

5th step, on CA6163 lathes, is positioned using centre bore, and heart carrier for bolt clamps workpiece, is interrupted turning workpiece excircle, cutter Material is W18Cr4V, and tool orthogonal rake is 25 °, and elder generation's low speed machining in lathe during turning, smart car after shaping, ensures workpiece shapes precision；

6th step, the large cylindrical of clamping workpiece, centering centre bore, jerk value is in 0.01mm, one end step surface of turner, And finishing processing surplus 0.2mm is stayed, using the same method turner other end；

7th step, drilling, tapping, uses clamping with three-jaw chuck workpiece large cylindrical on lathe, one shaft end of center rest support workpiece, Centering workpiece large cylindrical jerk value is less than 0.01mm, tapping；

8th step, fraising, using hole in CNC milling machine workpieces processing, positions workpiece, vice is clamped using workpiece bottom and side Workpiece, first drills, then hole milling, finally reams, and ensures positional precision；

9th step, wire cutting groove, positions workpiece, on cutting on line lathe, cut-in groove, ensures ruler using workpiece bottom and side Very little precision；

Tenth step, is examined.