US3182474A

US3182474A - Hot extrusion of materials

Info

Publication number: US3182474A
Application number: US408465A
Authority: US
Inventors: Buffet Jean
Original assignee: Cefilac SA
Current assignee: Cefilac SA
Priority date: 1959-10-07
Filing date: 1964-10-29
Publication date: 1965-05-11
Anticipated expiration: 1982-05-11
Also published as: ES261245A1; FR1246808A; GB905083A

Description

May, 1965 J. BUFFET HOT EXTRUSION OF MATERIALS Filed 001;. 29, 1964 United States Patent 3,182,474 HOT EXTRUSION OF MATERIALS Jean Bufiet, Versailles, France, assignor to Compagnie Du Filage des Metaux et des Joints (Iurty, Paris, France Filed Oct. 29, 1964, Ser. No. 408,465 Claims priority, application France Oct. 7, 1959, 8 7,081 2 Claims. (Cl. 72-41) This application is a continuation-in-part of my application Serial No. 57,464, filed September 21, 1960, now abandoned, relating to Hot Working of Materials. This invention relates to methods of hot-working materials,

particularly metal and alloys, and is chiefly concerned with the hot-working for extrusion of materials having high resistance to deformation, especially certain metals and alloys.

The invention is broadly applicable to the hot-working for extrusion of such materials, including especially highspeed steels, refractory alloys, allied steels, alloys comprising a number of phases and the compositions known as cermets and the like. Extreme difficulties have often been experienced in the past when exposing such materials to hot-working processes such as extrusion, piercing, and the like, because of the deformation of cracks and similar flaws at the surface of the material during the hot-working process. A chief factor responsible for this cracking tendency has been the sudden cooling effect exerted on the surface of the heated ingot or billet by the cool surfaces of the hot-working press equipment that act thereon. Since the materials under consideration are, as a general rule, poorheat conductors, such heat is not transferred to the core of the billet rapidly enough to avert the setting up of steep thermal gradients in the material, which in turn generates high internal stresses resulting in the aforementioned cracks.

In Buffet and Meriaux prior patent application No. 646,192 of March 15, 1957, now abandoned, for Method of Hot Extrusion of Metals, an improved method of hot-working brittle materials was disclosed, wherein the ingot or billet of material was encased in a readily deformable metallic case or sheath. While this prior method has constituted a noteworthy advance in the art and has permitted the hot-working of 'metals and other materials which were not practically amenable to such treatment in the past, it had certain disadvantages which it is the specific object of the present invention to eliminate.

The chief drawback of the earlier method just recalled (the method of application 646,192) was the fact that the hot-worked, e.g. extruded or otherwise deformed, article obtained was itself coated with a thin coating of foreign material constituted by the sheath or case deformed simultaneously with the material. The removal of this coating, by mechanical or chemical means, constituted a supplementary operation which complicated the process. Moreover, the final hot-worked article after removal of the coating was in certain cases apt to exhibit surface flaws or roughness. Also dimensional accuracy was difficult to maintain in view of the variations in thickness of the deformed case.

A broad object of this invention is to provide an improved method of hot-working of such materials which are difficult to be deformed heretofore even by hot-working. Another object is to provide such a method in which the final hot-worked article will be produced in a directly usable form. V

The invention provides a method of hot-working, which comprises encasing a billet or ingot of the material in a case or sheath having somewhat larger inner dimensions than the outer dimensions of the billet to define clearance space therewith, interposing in said space a ice mass of lubricant substance so selected as to have substantial viscosity in the range of desired hot-working tem- .peratures, heating the billet and case to said desired range, placing the heated cased billet into a press chamber having wall surfaces closely surrounding the case, and applying hot-working pressure to the billet but not the case in the chamber so as to form a hot-Worked article from said billet, which article slides along the major portion of the case or sheath during deformation, while said case or sheath remains in position in the press chamber without being substantially deformed.

Owing to the presence of the heated sheath encasing the material, the latter will be effectively protected from rapid cooling from the hot-working tooling equipment acting thereon, and will therefore not tend to develop cracks or other defects but will deform smoothly and uniformly throughout. Furthermore, the provision of a layer of viscous lubricant material (e.g. glass) between the material and its case will enable the material to be readily separated from the case on, or after, being subjected to the desired hot-working step. Thus, where the method is applied to a hot extrusion process for example, extruding pressure can be applied only to the billet but not to the surrounding case or sheath, so that only the billet will be extruded out of the extrusion chamber through the usual dieplate orifice while the case will remain in the chamber.

It will be understood that the word billet as used herein and in the claims serves to designate any body of the material to be hot-worked, such as a cast ingot for example, in the form in which it is to be subjected to the hot-working operation.

The lubricant substance may be any substance selected so as to exhibit substantial viscosity in the range of temperatures to which the material is to be exposed. Where the material is metallic, the lubricant substance is suitably vitreous in character, e.g. powdered glass.

The billet and its case or sheath may be heated simultane'ously with the former encased in the latter, or billet and sheath may be heated separately and the heated billet encased in the heated sheath.

The above and further features and advantages of the invention will stand out clearly from the ensuing description, made with reference to the accompanying diagrammatic drawings, given by way of illustration but not of limitation, and wherein:

FIG. 1 shows in vertical section a billet encased in a sheath according to one form of embodiment of the invention;

FIG. 2 is a similar view relating to a modified embodiment;

FIG. 3 illustrates an encased billet of the kind shown in FIG. I placed in position in the extrusion chamber of a suitable extrusion press, adjacent parts of which are diagrammatically shown, before beginning of the actual extrusion process;

FIG. 4 is a view similar to FIG. 3 towards the end of the extrusion process;

Referring first to FIG. 1, a billet 2 made from an alloy that is difiicult to work is surrounded by a case or sheath 1, the walls of which are spaced from the surfaces of the billet so as to provide a substantially uniform clearance space, say of about 1 mm. in width, in which a coat of suitable lubricant substance 3' is interposed. The lubricant 3 may be any suitable substance having sufficient viscosity in the working temperature range so as not to flow out during the working process, and is preferably a substance of vitreous character, e.g. powdered glass. The lubricant coat or layer 3 may be provided by any suitable method, e.g. it may be spray-coated over the surface of the biliet and/or the sheath 1.

snsaara lubricant 3 and 'billet 2, of either of the forms shown in- FIGS. 1 and 2, is heated to a suitable extrusion temperature, and is then placed into the container 6 of a conventional extrusion press, as shown in FIG. 3. Alternatively,

the billet 2 and case 1 or 1' may be heated separately before assembly. In this example the extrusion press comprises a dieplate member 7 positioned at the base of the container and having an extrusion orifice therein, and a plunger or punch 8 penetrating into the container from the upper end of it and slidable in the container. A diskshaped plug of lubricant material 5 is positioned atop the die-plate 7 according to usual procedure to facilitate the initial operation. The punch 8 is fitted with a dummy block 9 having a diameter just smaller than the inner diameter of case 1.:

In operation, when pressure is applied to the upper end of punch 8 with conventional press mechanism not shown, the punch end piece 9 engages the upper surface of billet 2 within the case l and forces the billet through the bottom wall of the case and through the die-plate, as shown in FIG. 4,.to provide the extruded product at 2'. Thecase 1 itself remains in the container and is not forced out.

In one practical embodiment of the invention, described by way of illustration, a billet was prepared from precipitation-hardened nickel-chrome-cobalt-molybdenum alloy, a material which is found to be impossible to extrude by conventional methods without cracking. The composion of this alloy was:

The billet, 56 mm. in diameter and 80 mm. long, was spray-coated with powdered sheet glass over its outerj'surface, and was placed into a mild-steel case of 57 mm. inner diameter and 60.5 mm. outer diameter. The assembly was heated in an electric furnace to a temperature ,of

1,050 C. A dieplate of 27 mm. orifice diameter was used.

The inner diameter of the container was 62 mm., and the extrusion punchwas fitted with an end piece 9 which was 57 mm. in diameter. A disk of sintered sheet glasspowder about 4 mm. deep was placed on top of the die-plate.

The resulting extruding article was found to be entirely free of cracks.

In order to ensure more positively'that. the case will be retained within the container, in the deformation processes of the general types described above, it may be desirable to subjectthe outer surface of the case 1 to a treatment that will increase its adhesion to the surrounding Wall surfaces of the container. This may be done by merely omitting anylubrication whatever between the case and container, and/ or by oxidizing the outer surface of the case as by heating in an oxidizing atmosphere.

Further, in the extrusion process, means, not illustrated in FIGURES 3 and 4 may-desirably-be provided for centering the pressure member, 8,'or the dummy block 9 of it, within the container in order to guide the said terminal part relatively to the case 1 and encased billet 2, and ensure that pressure is applied to the latter rather than the former. Such guidemeans may assume the form of a centering ring surrounding the pressure member and slidable with respect to it or/ and to the container.

Various other:modifications may be made in the structural details illustrated and described, and theinvention may be applied for hot-working processes as well as to materials otherv than'those specifically mentioned.-

While I have shown and described preferred embodiments of my invention, it may be otherwise embodied Within the scope of the appendant claims.

What I claim is: V

l. A method of hot-extruding material selected from the group consisting of steels, alloy steels, refractory alloys, and cermets which comprises encasing a billet of' said material ina sheath so that there is a clearance space between said billet and said sheath, said sheath being made from a rigid material, interposing in said clearance space a substance selected from within the group of substances having a substantial viscosity in the range of temperatures including the desired hot extrusion temperature of said billet, heating said billet, said sheath and said substance to a hot extrusion temperature of said billet, placing said heated billet and its sheath into a press chamber ofan extrusion press having a die opening at one end thereof and extruding said billet through said die. opening by applicationof extrusion pressure directly to saidbillet but not to. said sheath which does not undergo hot extrusion and which remains in its position in said press chamber.

2. The method of claim 1 characterized by said sheath being made of. a mild steel.

References Cited by the Examiner CHARLES LANHAMyPrimary Examiner.

Claims

1. A METHOD OF HOT EXTRUDING MATERIAL SELECTED FROM THE GROUP CONSISTING OF STEELS, ALLOY STEELS, REFRACTORY ALLOYS, AND CERMETS WHICH COMPRISES ENCASING A BILLET OF SAID MATERIAL IN A SHEATH SO THAT THERE IS A CLEARANCE SPACE BETWEEN SAID BILLET AND SAID SHEATH, SAID SHEATH BEING MADE FROM A RIGID MATERIAL, INTERPOSING IN SAID CLEARANCE SPACE A SUBSTANCE SELECTED FROM THE GROUP OF SUBSTANCES HAVING A SUBSTANTIAL VISCOSITY IN THE RANGE OF TEMPERATURES INCLUDING THE DESIRED HOT EXTRUSION TEMPERATURE OF SAID BILLET, HEATING SAID BILLET, SAID SHEATH AND SAID SUBSTANCE TO A HOT EXTRUSION TEMPERATURE OF SAID BILLET, PLACING SAID HEATED BILLET AND ITS SHEATH INTO A PRESS CHAMBER OF AN EXTRUSION PRESS HAVING A DIE OPENING AT ONE END THEREOF AND EXTRUDING SAID BILLET THROUGH SAID DIE OPENING BY APPLICATION OF EXTRUSION PRESSURE DIRECTLY TO SAID BILLET BUT NOT TO SAID SHEATH WHICH DOES NOT UNDERGO HOT EXTRUSION AND WHICH REMAINS IN ITS POSITION IN SAID PRESS CHAMBER.