DE102004023579A1 - Process for heat treatment of a stainless steel joint part involving heat treatment of a partial region of the part with resultant softening of the steel useful in automobile construction, especially for strengthening of automobile bodies - Google Patents

Abstract

Process for heat treatment of a stainless steel joint part involving heat treatment of a partial region (5) of the part (1) with resultant softening of the steel. An IDEPENDENT CLAIM is included for a process of joining of joint parts, at least one of which consists of high strength steel.

Description

The The present invention is in the technical field of machining and connection of parts to be joined and in particular relates to a method for heat treatment of a joining part made of high-strength steel, as well as such a heat treatment process comprehensive Joining processes.

When Strength of steels In general, the resistance that a steel is subjected to the action of an external force is considered contrary, without the steel breaks. To characterize the strength of a steel is sufficient in the most cases the specification of the tensile strength. Especially lead to long-lasting stress or those at higher Temperatures earlier to break, whereby the behavior of the material under these circumstances by the creep rupture strength and the fatigue strength are expressed.

To the Purpose of hardening gets at steels generally a heat treatment performed that for martensite formation of the microstructure leads. In such a heat treatment the steel will first open curing temperature heated and then cooled quickly. The material must have 0.5 to 0.8% carbon to harden it can. If the content is carbon, it will harden can. If the content of carbon is lower, then before hardening be carburized.

When special hardening process become the transformation hardening, precipitation hardening and (without heat treatment) cold hardening distinguished. The transformation hardening This is only possible with materials undergoing γ-α conversion (iron-carbon diagram) during cooling and is not for austenitic or ferritic steels applicable. requirement for one increase in hardness is the presence of carbon dissolved in gamma-iron but can not diffuse out with fast conversion and the ferrite grid braced. The precipitation hardening used the temperature-dependent Dissolving power of Iron grid for certain foreign atoms. saturated Mixed crystals are quenched and separated at room temperature excess impurities, not solved anymore can be out. These brace the grid and thus lead to an increase in strength. Cold hardening after all, is a concomitant of cold forming. It is created by the sliding operations in structure and by the deformation and strain of the crystallites.

During curing, stresses usually arise which can be reduced by tempering the steel (heating the steel to a temperature below the first transformation point A _c1 ).

As high-strength steel, a steel is generally referred to, which has a minimum yield strength of 355 N / mm ² at room temperature. These steels show a fine-grained microstructure with ferrite grain sizes <6. High-strength steels combine high tensile strength with high yield strength values of at least 1,200 N / mm ² .

high-strength steels are an interesting material for industrial mass production. For example, there is a desire in the automotive industry a use of high-strength steels in the body shop, since this on the one hand a reduction in sheet thickness, d. H. Weight reduction ,. and on the other hand, higher strength allows the components is. However, this is the case in industrial series production Problem on that joining parts made of high-strength steels difficult to add are and therefore only very limited or only under high technical Effort in established manufacturing processes or process lines can be processed.

So so far there are none for industrial mass production suitable economic welding processes, with which a high strength of the welded joint at high-strength toughen can be achieved. Also can self-tapping fasteners are not used because these are unable to penetrate high-strength steel.

In contrast, lies over the object of the present invention therein, a joining method for joining parts made of high-strength steels to enable so that joining parts made of high-strength steels in easier and cheaper Way in industrial mass production using conventional joining methods together can be.

This object is achieved according to a first aspect of the invention by a method for heat treatment of a joining part made of high-strength steel, which is characterized in that in at least a portion of the joining part, a heat treatment is performed by which the high-strength steel is softened. Such a heat treatment generally causes a structural change of the high strength steel to a softer texture, such as a structural change from a martensite texture to a softer austenite texture. In the context of the present invention, a heat treatment is understood to mean a process in which an adherend of high-strength steel is heated, with the aim to set a defined property, namely a softening of the high-strength steel, or a softened this state underlying structure. According to the invention, the high-strength steel is softened at the heat-treated points in such a way that conventional joining methods of industrial series production, such as welding methods or self-tapping fastening means, can be used to join the joining part. The high-strength steel is converted at the heat-treated sites generally into a normal or low-strength steel. The heat-treated joining part thus no longer has a uniform microstructure. As high-strength steel according to the invention is an alloyed or unalloyed steel in question.

According to the invention is doing only a partial area or a plurality of partial areas in the adherend heat treated from a high strength steel.

The heat treatment for softening the high strength steel is typically carried out so that the joining part made of high-strength steel during the heat treatment on a chosen one Heat treatment temperature brought and for a chosen one Heat treatment period at this heat treatment temperature is held, where it may then cool.

The adherend made of high-strength steel can be annealed for the purpose of heat treatment, wherein as an annealing process especially soft annealing, especially in the form of "GKZ soft annealing", in which also Zementitteilchen be formed spherically, is used. Equally is it is possible that the joining part tempered from high strength steel.

In the heat treatment method according to the invention, the temperature of the heat treatment is advantageously above the lower transformation point A _c1 . In this case, the high-strength steel is usually austenitized, ie the structure is partially or completely converted into austenite. The austenite grain size is generally determined by the steel.

Likewise, it may be advantageous according to the invention if the temperature of the heat treatment is above the upper transformation point A _c3 at which a structural change likewise occurs.

The Temperatures during the heat treatment, especially in the two abovementioned cases, expressed in absolute terms advantageous in a range between 700 ° C and 1100 ° C.

The lower and upper transformation points A _c1 and A _c3 referred to here refer to the usual iron-carbon diagram, where the subscript "c" is, as usual, "chauffage" and indicates the transformation points in the case of heating. The iron-carbon diagram and the resulting conversion points are known to the person skilled in the art, so that it need not be discussed here in detail.

at the method according to the invention for heat treatment of a high-strength steel are those to be subjected to a heat treatment Subareas substantially circular disc-shaped, in particular punctiform, formed. The subareas can be arranged here in particular regularly.

to heat treatment can in the process according to the invention a conventional one Heat treatment means such as a laser source, a flame source, in particular a gas flame source, or an electric induction heater can be used.

According to one In another aspect, the invention includes a method of joining Joining parts, wherein at least one of the parts to be joined made of a high strength steel, being in this joining process first a heat treatment process as described above at the joining part made of high strength steel and the parts to be joined subsequently, d. H. after the execution the heat treatment process, at least one heat treated Subarea joined become.

Should For example, two parts to be joined made of high-strength steel become, so on each joining part at least one subregion by means of the heat treatment process according to the invention heat treated, the heat-treated Subareas in joining position the two parts to be joined opposite each other should. Is only one of the joining parts off Made of high-strength steel, it is sufficient if only this adherend a heat treatment process according to the invention is subjected.

To the Add the joining parts at the heat treated Positioning advantageously becomes a conventional welding process used in industrial series production. This comes in particular the resistance welding in which the metal compound is heated by heating the Contact surface of the joining parts with the help of electrical current (ohmic resistance) and through subsequent compression takes place. Resistance welding delivers a high quality and is for the industrial mass production ideally suited. The resistance welding will this usually performed in the form of spot or projection welding.

alternative or in addition this, can equally Advantageously, a self-tapping attachment method for joining the joining parts be used. This can be about a self-tapping Fixing screw acting in at least one of joined joining parts at the heat treated Cut in place. Such a method is, for example, under the term "flow-drilling method" known. In the latter Case are the heat treated Partial areas is advantageous circular disk-shaped, wherein the circular disks have a diameter in the range of about 10 - 15 mm. In use a self-tapping fastening method can be in extremely advantageous Way steely and non-steel joining parts be connected to each other.

The joining method according to the invention is advantageous in the automotive industry, especially in the bodywork, used.

The The invention will now be described with reference to an embodiment of the heat treatment process according to the invention explained in more detail, wherein Reference to the attached Drawings is taken. Show it

1 a schematic sectional view of a structure for the heat treatment of a joining part made of high strength steel;

2 a plan view of the joining part of 1 ,

In 1 schematically the structure for the heat treatment of a joining part of high-strength steel is shown in section. At the in 1 The structure shown is a joining part made of high-strength steel 1 on a table 2 by means of partial recordings 3 added. Adjacent to the joining part 1 are a plurality (five) of heat sources 4 positioned for pointwise heat treatment of the part to be joined. The heat sources are, for example, lasers, gas flames or electrodes for induction heating.

As 2 , a plan view of the joining part 1 , in which also the heat sources 4 are schematically indicated, it can be seen, are by the heat sources 4 a variety of heat treated points 5 in which the high-strength structure of the steel has been changed to a non-high-strength, ie normal-strength or low-strength, microstructure. The joining part 1 Made of high strength steel can now be used at the heat treated points 5 be joined, including, for example, resistance welding or a self-tapping fastener is used.

1

adherend

2

table

3

part shots

4

heat sources

5

heat-treated Put

Claims (18)

Process for the heat treatment of a joining part made of high-strength steel, characterized in that in at least one subregion ( 5 ) of the joining part ( 1 ) a heat treatment is carried out, by which a softening of the high-strength steel is effected. Treatment method according to claim 1, characterized in that that through the heat treatment a structural change of the high-strength steel is effected. Treatment method according to claim 1 or 2, characterized characterized in that the joining part in the heat treatment on a chosen one Heat treatment temperature brought and for a chosen one Heat treatment period at this heat treatment temperature is held. Treatment method according to one of the preceding Claims, characterized in that the at least one portion of the Joining parts annealed, in particular annealed, becomes. Treatment method according to one of the preceding claims 1 to 4, characterized in that the at least one portion of the joining part is tempered. Treatment method according to one of the preceding claims, characterized in that the temperature of the heat treatment is above the lower transformation point A _c1 . Treatment method according to one of the preceding claims, characterized in that the temperature of the heat treatment is above the upper transformation point A _c3 . Treatment method according to one of the preceding Claims, characterized in that the temperature of the heat treatment in a range between 700 ° C and 1100 ° C lies. Treatment method according to one of the preceding Claims, characterized in that in the heat treatment austenitization of the high-strength steel is effected. Treatment method according to one of hergehen claims, characterized in that the at least one portion is substantially circular disk-shaped. Treatment method according to one of the preceding Claims, characterized in that the at least one subregion in essential punctiform is. Treatment method according to one of the preceding Claims, characterized by a substantially regular arrangement of subregions. Treatment method according to one of the preceding Claims, characterized in that a heat treatment by means of a or more heat treatment agents, chosen from the group consisting of a laser source, a flame source, in particular a gas flame source, and an electric induction heater is performed. Method of joining of joining parts, wherein at least one of the joining parts consists of a high strength steel, characterized in that it is a treatment method according to one of the preceding claims 1 to 15 includes, wherein the joining parts after the execution the treatment process on the at least one heat-treated portion together become. joining methods according to claim 14, characterized in that the joining parts by a self-tapping fastener, in particular a self-tapping Screw, joined become. joining methods according to claim 15, characterized in that the at least one Partial area is essentially circular disk-shaped, which circular disks have a diameter in the range of about 10 - 15 mm. joining methods according to claim 14, characterized in that the joining parts through a welding process together become. Use of the joining method according to one of the claims 14 to 17 in the automotive industry, especially in the attachment of Body attachments.