CS230137B1 - Method of cumulative surface hot forming and device to perform the method - Google Patents

Description

The present invention relates to a method and apparatus for cumulatively surface thermoforming.

The known forming processes with the bulk heating of the semi-finished product have a temperature gradient outwardly from the body, which causes internal stresses which, together with the inhomogeneous distribution of deformation and hence additional tensile stresses, cause cracks, especially in alloy steels with lower plasticity.

The above-mentioned drawbacks are eliminated by the method and apparatus for the cumulatively surface thermal forming according to the invention, which is based on the fact that after a gradual shape differentiation! heating of the semi-finished product is first preheated by the low-frequency heating of the thermosetting caliber. Thereafter, the surface layer of the blank is heated by the inductor while simultaneously heat-sealing the caliber. Finally, the heated surface layer of the semi-finished product is shaped by means of a thermally stable caliber and optionally further heat-treated under pressure. Essentially, in the apparatus for performing the method, between the low-frequency volume pre-gullet, the shaped thermosetting caliber and the surface layer of the preformed blank embedded in the frame is an inductor. This is identical in shape to the surface of the blank. The inductor is attached to the spatial manipulation robot by supply pipes. The inductor tubes are connected to the RF source and frequency converter via contacts.

230 137

By adjusting and aligning to the cumulatively surface thermoforming, the controlled surface-thermo-mechanical effects, often also following the final heat treatment under pressure, induce the desired deformation of the rugged surface of the blank to the final shape. at the same time, the structure of the surface layer is softened, which achieves high strength and toughness with intensive braking or closing of surface imperfections and failures · /

The accompanying drawing shows an example of the use of the method and apparatus for the cumulatively surface thermal forming according to the invention, wherein in FIG. 1 is an elevational view of the device; and FIG. 2 is a plan view of an inductor.

In this example, it is a calibration of the cavity of the blank 4 ' which is embedded in the frame 2. FIG. ¹ ' 3 ' shows a low-frequency pre-heated preformed thermoformed caliber 2; and the surface layer of the preformed cavity of the blank 4 is inserted by an inductor 2, similar in shape to the surface of the cavity of the blank 4. The inductor 1 is attached to the spatial manipulation robot by the feed tubes 6;

The method and apparatus can be used in the manufacture and renovation of precision-shaped surfaces of products with steel defects after welding, casting and pressing of powders or machined with concentrated electric energy · Cumulative surface heat treatment with tuned mechanical heat superposition effects. dimensions are refined, imperfections and cracks are closed, the structure of the surface layer is refined and its mechanical properties are modified, in particular wear resistance ·

Claims (2)

OBJECT OF THE INVENTION 230 137 Method for the cumulative surface thermoforming of pre-heated layers of a semi-finished product surface, characterized in that after successively differentiated heating of the semi-finished product (4), the thermoformed caliber (2) is first preheated by low frequency heating and then inductor (1) of the blank (4), whereby the thermoformed caliber (2) is simultaneously heated, and then the surface layer (3) of the blank (4) is shaped by a preheated thermoformed caliber (2) and optionally further processed thermally under pressure. 2. Apparatus according to claim 1, characterized in that an inductor (1) similar in shape to the shape of the thermoformed caliber (2) and the surface layer (3) of the blank (4) embedded in the frame (5) is inserted between the low-frequency bulk. with a feed tube (6), with contacts (7) for connecting a high-frequency source and a frequency converter, the feed tubes (6) of the inductor (1) being attached to the spatial handling robot (3).