CN1824402A

CN1824402A - Alloy pipe hot extrusion method and extrusion die

Info

Publication number: CN1824402A
Application number: CNA2006100461431A
Authority: CN
Inventors: 王忠堂; 张士宏
Original assignee: Shenyang Ligong University
Current assignee: Shenyang Ligong University
Priority date: 2006-03-23
Filing date: 2006-03-23
Publication date: 2006-08-30

Abstract

The present invention relates to a hot extrusion method of alloy pipe material and its extrusion die arrangement. It includes an extrusion chamber, said extrusion chamber is placed in the extrusion chamber seat and is fixed on the base plate by means of pressure plate, the concave die is placed in the lower end of extrusion chamber and is fixed in the recessed groove on the base plate, the base plate is fixed on the base seat of extruder by means of bolt, the extrusion ram is set in the glass pad, extrusion billet material, graphite pad and extrusion pad, and is fixed on the extrusion shaft, and said extrusion shaft is fixed under the extrusion head of extruder by means of fixing seat. Said extrusion process includes the following steps: (1) preheating die arrangement; (2) applying lubricating agent; (3) heating billet material; (4) extrusion forming; (5) annealing; and (6) cleaning extruded pipe billet.

Description

A kind of alloy pipe material thermal extrusion method and extrusion die

Technical field

The invention belongs to tubing hot extrusion technology, particularly a kind of alloy pipe material thermal extrusion method and extrusion die.

Background technology

High-temperature alloy material has anti-oxidant under the high temperature, anticorrosive and advantage such as compressive property is good, especially nickel based tubular product made from high temperature alloy, serviceability temperature is widely used in industry neck cities such as Aeronautics and Astronautics aircraft, generating, rocket engine, nuclear reactor, petrochemical industry up to more than 700 ℃.But, nickel based tubular product made from high temperature alloy is when shaping, also the technical problem underlying of Cun Zaiing has: (1) is because strength of materials height, material flowability is poor, so when adopting common taper matrix structure and the hot-pressed tubing of lubricating method, because the manufacturability of extruding is relatively poor, the pipe severe crack, it is difficult to be shaped, and produces the percent defective height; (2) the hot extrusion deformation temperature range of nickel base superalloy is narrow, goes back neither one rational and effective extrusion temperature scope at present, and also there are a lot of deficiencies in the hot extrusion forming process parameter; (3) if adopt the boring cold rolling process, then there are problems such as productivity ratio is low, waste of material is big.Therefore, in extrusion process, how to select a rational and effective hot extrusion forming process parameter and process, improve the plastic deformation performance, cost is low and to improve the quality of products be to be badly in need of the technical problem underlying that solves.

Summary of the invention

The objective of the invention is in order to solve the technical problem that existing alloy pipe exists in hot-pressed process, improve technological parameter and processes such as extrusion billet heating-up temperature, mold preheating temperature, extrusion speed, provide a kind of production efficiency height, cost is low and the alloy pipe material thermal extrusion method of good product quality and extrusion die.

Alloy pipe hot-extrusion mold of the present invention, comprise extrusion axis, recipient, dummy block, graphite pads, pressure ram, glass isolator, die, base plate, the extruding cylinder base, holder, recipient is arranged in the extruding cylinder base, and be fixed on the base plate by pressing plate, die is arranged on the lower end in the recipient, and be fixed in the groove on the base plate, base plate is by on the base that is bolted to extruder, be disposed with glass isolator above the die, extrusion billet, graphite pads, dummy block, pressure ram is arranged on glass isolator, extrusion billet, graphite pads, in the hole of dummy block, and be fixed on the extrusion axis, extrusion axis is fixed on by holder below the extrusion head of extruder, the working surface of described die is taper, sizing mouth place is that circular arc is excessive, circular arc R 3.5～R5, the working surface of described die and glass isolator is conical, and coning angle is 35 °≤θ 〉=45 °.

Alloy pipe material thermal extrusion method of the present invention, the extrusion process step is:

(1) preheated mold: mold preheating temperature is 350～580 ℃;

(2) apply lubricant: extrusion billet, recipient are heated to 100～150 ℃, at the surface-coated glass powdery lubricant of heating blank; Inner surface coated glass powdery lubricant at the heating recipient;

(3) heating extrusion billet: the extrusion billet of coated glass powdery lubricant is lain in the bell furnace, feed oxygen content＜0.2%, dew point is-60 ℃ N ₂Protection gas, be warming up to 680～860 ℃ after the sealing after, be heated to 1050～1160 ℃ with programming rate＜30 ℃/h again;

(4) extrusion molding: earlier the heated glass pad is contained in die above, successively extrusion billet, graphite pads, dummy block are contained in the recipient again, begin extruding then, extrusion speed is 60～100mm/s, best extrusion speed is 75～92mm/s, extrusion ratio is 4.5～13.5, and the blank extrusion temperature is 1050～1160 ℃, and best blank extrusion temperature is 1080～1140 ℃;

(5) annealing: hot-pressed pipe is put into cold water be cooled to room temperature, eliminate inner surface crystal grain thin layer pockety;

(6) cleaning extrusion tube blank: pipe endoporus and outer surface after the extruding are cleaned out, helped the cold rolling time raising surface quality of subsequent handling.

The present invention has the production efficiency height, cost is low and advantage such as good product quality, and the Extruding die life-span improves more than 100%, and production efficiency improves more than 200%, and cost reduces more than 55%, can satisfy the needs of the hot-pressed mass production of nickel-base alloy tubing.

Description of drawings

Fig. 1 is the structural representation of alloy pipe hot-extrusion mold;

Among the figure: 1 extrusion axis, 2 recipients, 3 dummy blocks, 4 graphite pads, 5 pressure rams, 6 extrusion billets, 7 glass isolators, 8 dies, 9 base plates, 10 pressing plates, 11 extruding cylinder bases, 12 holders.

The specific embodiment

Further specify the structure and the pressing method of alloy pipe hot-extrusion mold of the present invention below in conjunction with example.

As shown in Figure 1, a kind of alloy pipe material thermal extrusion method and extrusion die comprise extrusion axis 1, recipient 2, dummy block 3, graphite pads 4, pressure ram 5, extrusion billet 6, glass isolator 7, die 8, base plate 9, pressing plate 10, extruding cylinder base 11, holder 12.Recipient 2 is arranged in the extruding cylinder base 11, and be screwed on base plate 9 by pressing plate 10, die 8 is arranged on the lower end in the recipient 2, and be fixed in the groove on the base plate 9, base plate 9 is by on the base that is bolted to extruder, on die 8, put heated glass pad 7 again, refill the extrusion billet 6 of heating, put graphite pads 4 and dummy block 3 then, pressure ram 5 is installed in glass isolator 7, extrusion billet 6, graphite pads 4, in the hole of dummy block 3, and be fixed on the extrusion axis 1, extrusion axis 1 is fixed on by holder 12 below the extrusion head of extruder.During extruding, the extrusion head of extruder moves downward, and by extrusion axis 1, dummy block 3, graphite pads 4 extrusion billet 6 in recipient 2, finishes extrusion process.

Because adopting the working surface of die is that taper, sizing mouth place are that circular arc is excessive, its circular arc R 3.5～R5, the working surface of die and glass isolator be taper shape, and coning angle is 35 °≤θ 〉=45 °.Therefore, on the extrusion billet surface, adhere to one deck glass film easily, thus high insulating effect, extrusion billet is rationally mobile, and extruding force is low, has significantly improved the tube surfaces quality, makes extrusion billet finish extrusion process smoothly.

A kind of nickel-base alloy tubing hot-extrusion method, with extrusion billet size: outer diameter D=85mm, inside diameter D=22mm, height L=200mm, its extrusion process step is:

(1) preheated mold: mold preheating temperature is 450 ℃

(2) apply lubricant: extrusion billet, recipient are heated to 150 ℃, at the surface-coated glass powdery lubricant of heating blank; Inner surface coated glass powdery lubricant at the heating recipient;

(3) heating extrusion billet: extrusion billet is lain in the bell furnace, feed oxygen content＜0.2%, dew point is-60 ℃ N ₂Protection gas, be warming up to 750 ℃ after the sealing after, be heated to 1150 ℃ with programming rate＜30 ℃/h again;

(4) extrusion molding: earlier the heated glass pad is contained in die above, successively extrusion billet, graphite pads, dummy block are contained in the recipient again, begin extruding then, extrusion speed is 85mm/s, extrusion ratio is 9.5, the blank extrusion temperature is 1120 ℃;

The present invention is owing to adopt rational hot extrusion process method and improved die and glass isolator combination hot-extrusion mold passes structure, significantly improved tubing material flowability and forming effect when hot-pressed.

Claims

1, a kind of alloy pipe material hot extrusion method is characterized in that, the pipe material hot extrusion process step is:

(1) Preheating the mold: the mold preheating temperature is 350-580°C;

(2) Coating lubricant: heat the extrusion billet and extrusion cylinder to 100-150°C, coat the surface of the heated billet with glass powder lubricant; coat the inner surface of the heated extrusion cylinder with glass powder lubricant agent;

(3) Heating the extruded billet: put the extruded billet flat in the bell-type furnace, pass through _N2 protective gas with an oxygen content of <0.2% and a dew point of -60°C, heat up to 680-820°C after sealing, Then heat up to 1060-1150°C at a heating rate of <30°C/h;

(4) Extrusion forming: first install the heated glass pad on the top of the die, then install the extrusion blank, graphite pad, and extrusion pad in the extrusion cylinder in turn, and then start extrusion at a speed of 60 ～100mm/s, the extrusion ratio is 4.5～13.5;

(5) Annealing: put the hot-extruded tube blank into cold water to cool to room temperature, and eliminate the thin layer with uneven grain distribution on the inner surface;

(6) Clean the extruded tube billet: clean the inner hole and outer surface of the extruded tube billet, which is beneficial to the subsequent cold rolling forming.

2. A method for hot extrusion of alloy pipes according to claim 1, characterized in that the optimum billet temperature for extrusion forming is 1080-1120°C.

3. A method for hot extrusion of alloy pipes according to claim 1, characterized in that the optimal extrusion speed of said extrusion is 75-92 mm/s.

4. A hot extrusion die for alloy pipes, including an extrusion shaft, an extrusion barrel, an extrusion rod, and an extrusion barrel seat. The extrusion barrel is arranged in the extrusion barrel seat and fixed on the bottom plate by a pressure plate. It is set at the lower end of the extrusion cylinder and fixed in the groove on the bottom plate. The bottom plate is fixed on the base of the extruder by bolts, and the top of the die is sequentially provided with a glass pad, an extrusion blank, a graphite pad, an extrusion Pad, the extrusion rod is set in the hole of the glass pad, extrusion blank, graphite pad, extrusion pad, and fixed on the extrusion shaft, the extrusion shaft is fixed under the extrusion head of the extrusion machine through the fixing seat, its The feature is that the working surface of the concave mold is conical, the sizing opening is an arc transition, the arc is R3.5-R5, the working surface of the concave mold and the glass mat is conical, and the cone angle is 35°≤θ ≥45°.