DE102019006217A1 - Method for connecting at least two workpieces by means of a laser beam - Google Patents

Abstract

The invention relates to a method for connecting at least two workpieces by means of a laser beam, the first of the at least two workpieces being formed from or comprising a first metal or a first metal alloy, the second workpiece of the at least two workpieces being made of a second metal or a second Metal alloy is formed or has, wherein a) the at least two workpieces, in particular the first workpiece and the second workpiece, are arranged such that the at least two workpieces at least partially overlap, wherein b) the at least two workpieces by heat input by means of a laser beam are connected to one another, and wherein the laser beam has a wavelength of at least 350 nm to 600 nm.

Description

The invention relates to a method for connecting at least two workpieces by means of a laser beam.

With laser beam welding it is known that at high process speeds - sometimes also referred to as welding speed - of over 15 m / min, external seam defects - sometimes also referred to as "humping" - can occur. The seam defects are, in particular, predominantly periodic throws of the melt of the laser beam welding. Not only high welding speeds, but also other process parameters relevant for laser beam welding, such as in particular a beam power and the working gas used, can lead to such external seam defects.

From the German published application DE 10 2017 206545 A1 A method for connecting a first metallic workpiece to a second metallic workpiece by means of a laser beam is known, in which the first and / or the second metallic workpiece is made of a copper-zinc alloy and the laser beam has a wavelength in the blue to ultraviolet spectral range.

The invention is therefore based on the object of providing a method for connecting at least two workpieces by means of a laser beam, the disadvantages mentioned not occurring.

The object is achieved by providing the present technical teaching, in particular the teaching of the independent claim and of the preferred embodiments disclosed in the dependent claims and the description.

The object is achieved in particular by creating a method for connecting at least two workpieces by means of a laser beam, the first of the at least two workpieces being formed from or comprising a first metal or a first metal alloy, the second workpiece of the at least two workpieces being made of is formed or has a second metal or a second metal alloy, a) the at least two workpieces, in particular the first workpiece and the second workpiece, are arranged such that the at least two workpieces overlap at least partially, in particular are arranged one above the other, b) the at least two workpieces are connected to one another by heat input by means of a laser beam, the heat input at least partially leading to melting of the material of the two workpieces, whereby a cohesive connection is obtained, the laser beam emitting a wave has lengths of at least 350 nm to 600 nm. This has the particular advantage that external seam defects - sometimes referred to as “humping” - can be avoided in a simple manner.

According to a development of the invention, it is provided that the connection between the at least two workpieces is carried out at a speed - sometimes also referred to as the welding speed - of at least 30 m / min, preferably at least 35 m / min, particularly preferably at least 39 m / min . The mentioned speed in particular addresses the fact that the laser beam is moved, in particular guided, over the surface of the at least two workpieces at the mentioned speed. The high speed means in particular that very little mixing and thus, in particular in the case of mixed compounds, the risk of the formation of intermetallic phases being significantly reduced. The avoidance of the described seam defects is due on the one hand to a very homogeneous melt dynamics and on the other hand to the stable welding process resulting from the process using the specified wavelength and / or the specified welding speed.

It is particularly preferably provided that the first metal is copper and the second metal is aluminum. A laser beam with a wavelength of 515 nm, a focus diameter of 85 μm and a welding speed of 39 m / min are particularly preferably used for this purpose. This has the particular advantage that at least two workpieces can be connected at high speed and that no external seam defects occur. In this way, a cycle time in particular can be reduced, which can save costs.

In addition, the quality of the weld seam is significantly improved. Particularly in the case of mixed connections, such as copper with aluminum, the high speed results in only a lower material mixing and thus reduces the risk of the connection cracking. In this respect, the costs as well as the energy expenditure can be significantly reduced. The method according to the invention can be applied to all weldable materials. In particular, welding of several components with one welding process or one weld seam is possible.

According to a development of the invention, it is provided that the wavelength of the laser beam is 515 nm. This has the particular advantage that a particularly efficient one at this wavelength Entry in the workpieces to be welded can be achieved.

According to a development of the invention, it is provided that the laser beam has a focus diameter of at least 1 μm to at most 600 μm, preferably at least 1 μm to at most 200 μm. This has the particular advantage that a connection of workpieces, in particular two workpieces, can be achieved in a simple manner.

According to a development of the invention, it is provided that the first metal is selected from a group consisting of copper, aluminum and iron.

It is also preferably provided that the first metal alloy is an alloy of at least two alloy metals or the first metal alloy is an alloy of at least one alloy metal and at least one further element, preferably zinc, the alloy metals being selected from a group consisting of copper, aluminum and Iron.

According to a development of the invention, it is provided that the first metal alloy is a copper-zinc alloy - sometimes also called brass.

According to a development of the invention, it is provided that the second metal is selected from a group consisting of copper, aluminum and iron.

It is further preferably provided that the second metal alloy is an alloy of at least two alloy metals or the second metal alloy is an alloy of at least one alloy metal and at least one further element, preferably zinc, the alloy metals being selected from a group consisting of copper, aluminum and Iron.

According to a development of the invention, it is provided that the second metal alloy is a copper-zinc alloy - sometimes also called brass.

According to a development of the invention, it is provided that a focus diameter of the laser beam is selected as a function of a material thickness, in particular total material thickness, of the at least two workpieces to be connected, in particular the two workpieces to be connected, a focus diameter for a material thickness of ≤ 0.8 mm from at least 1 µm to a maximum of 200 µm is used and with a material thickness of> 0.8 mm a focus diameter of over 200 µm to 600 µm is used.

According to a development of the invention, it is provided that at least one workpiece - that is to say preferably the first and / or the second workpiece - of the at least two workpieces has a coating or a passivation, the coating preferably being a nickel coating.

The invention is explained in more detail below with reference to the drawing. The single figure shows a schematic representation of a flow chart of the method for connecting two workpieces by means of a laser beam.

The single figure shows a schematic representation of a flowchart of a method for connecting two workpieces by means of a laser beam, the first of the two workpieces being formed from or comprising a first metal or a first metal alloy, the second workpiece of the two workpieces being made of a second metal or is formed or has a second metal alloy, wherein a) the at least two workpieces, in particular the first workpiece and the second workpiece, are arranged such that the at least two workpieces at least partially overlap, wherein b) the at least two workpieces by heat input are connected to one another by means of a laser beam, the heat input at least partially leading to melting of the material of the two workpieces, as a result of which a material-liquid connection is obtained, and the laser beam having a wavelength of at least 350 nm to 600 nm.

Furthermore, it is preferably provided that the connection between the two workpieces is carried out at a speed of at least 30 m / min, preferably at least 35 m / min, particularly preferably at least 39 m / min.

According to a development of the invention, it is provided that the wavelength of the laser beam is 515 nm.

Furthermore, it is preferably provided that the laser beam has a focus diameter of at least 1 μm to at most 600 μm, preferably at least 1 μm to at most 200 μm.

Furthermore, it is preferably provided that the first metal is selected from a group consisting of copper, aluminum and iron.

It is further preferably provided that the first metal alloy is an alloy of at least two alloy metals or the first Metal alloy is an alloy of at least one alloy metal and at least one further element, preferably zinc, the alloy metals being selected from a group consisting of copper, aluminum and iron.

It is further preferably provided that the first metal alloy is a copper-zinc alloy - sometimes also called brass.

It is further preferably provided that the second metal is selected from a group consisting of copper, aluminum and iron.

It is further preferably provided that the second metal alloy is an alloy of at least two alloy metals or the second metal alloy is an alloy of at least one alloy metal and at least one further element, preferably zinc, the alloy metals being selected from a group consisting of copper, aluminum and Iron.

In addition, it is preferably provided that the second metal alloy is a copper-zinc alloy - sometimes also called brass.

In addition, it is preferably provided that a focus diameter of the laser beam is selected as a function of a material thickness, in particular total material thickness, of the at least two workpieces to be connected, a focus diameter of at least 1 μm to a maximum of 200 μm being used for a material thickness of 0,8 0.8 mm and with a material thickness of> 0.8 mm a focus diameter of 200 µm to 600 µm is used.

Furthermore, it is preferably provided that at least one workpiece - that is to say preferably the first and / or the second workpiece - of the at least two workpieces has a coating or a passivation, the coating preferably being a nickel coating

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102017206545 A1 [0003]

Claims (10)

Method for connecting at least two workpieces by means of a laser beam, the first of the at least two workpieces being formed from or comprising a first metal or a first metal alloy, the second workpiece of the at least two workpieces being formed from a second metal or a second metal alloy or this has, wherein a) the at least two workpieces, in particular the first workpiece and the second workpiece, are arranged such that the at least two workpieces at least partially overlap, b) the at least two workpieces are connected to one another by heat input by means of a laser beam, and wherein the laser beam has a wavelength of at least 350 nm to 600 nm and the laser beam has a focus diameter of at least 1 µm to at most 600 µm. Procedure according to Claim 1 , characterized in that the connection between the two workpieces is carried out at a speed of at least 30 m / min, preferably at least 35 m / min, particularly preferably at least 39 m / min. Procedure according to Claim 1 or 2nd , characterized in that the wavelength of the laser beam is 515 nm. Method according to one of the preceding claims, characterized in that the laser beam has a focus diameter of at least 1 µm to at most 200 µm. Method according to one of the preceding claims, characterized in that the first metal is selected from a group consisting of copper, aluminum and iron. Method according to one of the preceding claims, characterized in that the first metal alloy is an alloy of at least two alloy metals or the first metal alloy is an alloy of at least one alloy metal and at least one further element, preferably zinc, the alloy metals being selected from a group consisting of made of copper, aluminum and iron. Method according to one of the preceding claims, characterized in that the second metal is selected from a group consisting of copper, aluminum and iron. Method according to one of the preceding claims, characterized in that the second metal alloy is an alloy of at least two alloy metals or the second metal alloy is an alloy of at least one alloy metal and at least one further element, preferably zinc, the alloy metals being selected from a group consisting of made of copper, aluminum and iron. Method according to one of the preceding claims, characterized in that a focus diameter of the laser beam is selected as a function of a material thickness, in particular total material thickness, of the at least two workpieces to be connected, a focus diameter of at least 1 µm to a maximum for a material thickness of ≤ 0.8 mm 200 µm is used and with a material thickness of> 0.8 mm a focus diameter of 200 µm to 600 µm is used. Method according to one of the preceding claims, characterized in that at least one workpiece of the at least two workpieces has a coating or a passivation, the coating preferably being a nickel coating.

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