Indian Patents. 269317:METHOD FOR CONNECTING SWITCH PARTS MADE OF AUSTENITIC MANGANESE STEEL CASTING, OR AUSTENITIC MANGANESE STEEL RAILS, WITH A RAIL OF CARBON STEEL

Title of Invention	METHOD FOR CONNECTING SWITCH PARTS MADE OF AUSTENITIC MANGANESE STEEL CASTING, OR AUSTENITIC MANGANESE STEEL RAILS, WITH A RAIL OF CARBON STEEL
Abstract	In a method for connecting switch or crossing parts made of austenitic manganese steel casting, or austenitic manganese steel rails, with rails of carbon steel, the parts to be connected, optionally upon interposition of an intermediate piece, are connected by friction welding, wherein the weld with the austenitic manganese steel is cooled at static air without heat treatment.

Full Text	Method for Connecting Switch Parts Made of austenitic Manganese Steel Casting, or austenitic Manganese Steel Rails, with a Rail of Carbon Steel The invention relates to a method for connecting switch or crossing parts made of austenitic manganese steel casting, or austenitic manganese steel rails, with rails of carbon steel. To connect cross frogs made of austenitic manganese steel with standard rails, it has already been proposed in AT 350881 B as well as in DE 2834282 A to realize a flash butt weld, by which an intermediate piece is connected with a standard rail. According to that prior proposal, the intermediate piece was, therefore, cut to a maximum length of 20 to 25 mm, whereupon the connection of the intermediate piece with the austenitic manganese steel casting cross frog was effected by a further flash butt weld. That second welding procedure called for more rapid cooling than after the first welding procedure, whereby slower cooling served to avoid an increase in the hardening of the rail steel. The use of an intermediate piece was above all necessary because alloying elements diffused into the carbon steel of the standard rail during those welding procedures, which resulted in unprecisely defined textures entailing increased risks of fracture. Intermediate pieces, on the other hand, are to be taken as substantially softer than austenitic manganese steel casting and, consequently, subject to elevated wear. Austenitic steels as proposed for such intermediate pieces are, therefore, less resistant to wear than the material of the cross frog such that dents have been observed on the upper surface of the intermediate piece with intermediate pieces of too great a length. If, on the other hand, the intermediate piece is chosen too short, this will again entail the risk of the alloying elements diffusing from the austenitic manganese steel into the carbon steel. The intermediate pieces, thus, 2 serve to separate the two welds in thermal respect in order to be able to keep to the respectively required cooling conditions on the respective welds and avoid embrittlements. Such embrittlements of austenitic manganese steel casting in the first place are due to diffustion effects, whereas carbon steel can be accordingly soft-cooled by the temperature of flash butt welding. A method for producing a connection between a rail of manganese steel casting and a rail of plain carbon steel is to be taken from EP 0070774 A, wherein a special alloy is to be used for the manganese steel casting rail part. For such connections between an austenitic manganese steel and a steel workpiece, also aluminothermal melts and the casting of a thus obtained metal between two rail parts placed in a mold in a spaced-apart relationship have already been proposed in EP 181251 A. In AT 395122 B, an intermediate piece of an austenitic, low-carbon steel stabilized with niobium and/or titanium was proposed, with a chromium-nickel steel having been used in particular, whereby also there a thermal treatment was required following the first welding operation between the intermediate piece and the standard rail, to which end a homogenization at temperatures of between 350° and 1000°C was proposed in particular. The invention aims to provide a method of the initially defined kind, which will do with substantially shorter intermediate pieces, wherein, in a preferred manner, the use of intermediate pieces may be renounced at all. To solve this object, the method according to the invention essentially consists in that the parts to be connected, optionally upon interposition of an intermediate piece, are connected by friction welding, wherein the weld with the austenitic manganese steel is cooled at static air without heat treatment. It has now been found in a surprising manner that by the application of a friction welding 3 process the thermal load on the welds, as compared with other known welding processes, can be reduced to such an extent that diffusion procedures will be minimized and undesired thermal shifts will be eliminated almost completely. By employing friction welding as a method for producing said connection, the interposition of an intermediate piece can be totally renounced without requiring a separate heat treatment following the welding operation. The only heat treatment optionally required, which is actually not to be addressed as a heat treatment, would consist in preheating the standard rail in order to be able to readily attain the temperatures required to make the weld. It is in any event feasible to allow the welding joint to cool at static air, even without the interposition of an intermediate piece, and without heat treatment, the method thus being substantially simplified over known methods. In a preferred manner, when using an intermediate piece, it is proceeded according to the invention in that an optionally effected heat treatment, or delayed cooling, is limited to the weld made between the carbon steel and the intermediate piece. However, such a heat treatment after having made the first weld, i.e., that between the rail and the intermediate piece, may, as a rule, be likewise omitted if a friction welding process is employed. A thermal aftertreatment after the realization of the weld with the austenitic manganese steel is not necessary for sure. Merely may the preheating of the standard rails for the friction welding process turn out to be advantageous. In the main, expensive heat treatments may, thus, be renounced in a particularly simple manner by using known friction welding processes as may be taken, for instance, from EP 1459833 Al or WO 2004/028733 Al, whereby the negative side effects of known 4 welding processes will surprisingly be eliminated even without the use of intermediate pieces, and the formation of soft- annealed zones which may lead to dents will be avoided. 5 Claims: 1. A method for connecting switch or crossing parts made of austenitic manganese steel casting, or austenitic manganese steel rails, with rails of carbon steel, characterized in that the parts to be connected, optionally upon interposition of an intermediate piece, are connected by friction welding, wherein the weld with the austenitic manganese steel is cooled at static air without heat treatment. 2. A method according to claim 1, characterized in that, when using an intermediate piece, an optionally effected heat treatment, or delayed cooling, is limited to the weld made between the carbon steel and the intermediate piece. In a method for connecting switch or crossing parts made of austenitic manganese steel casting, or austenitic manganese steel rails, with rails of carbon steel, the parts to be connected, optionally upon interposition of an intermediate piece, are connected by friction welding, wherein the weld with the austenitic manganese steel is cooled at static air without heat treatment.

Full Text

Method for Connecting Switch Parts Made of austenitic Manganese
Steel Casting, or austenitic Manganese Steel Rails, with a Rail
of Carbon Steel
The invention relates to a method for connecting switch or
crossing parts made of austenitic manganese steel casting, or
austenitic manganese steel rails, with rails of carbon steel.
To connect cross frogs made of austenitic manganese steel with
standard rails, it has already been proposed in AT 350881 B as
well as in DE 2834282 A to realize a flash butt weld, by which
an intermediate piece is connected with a standard rail.
According to that prior proposal, the intermediate piece was,
therefore, cut to a maximum length of 20 to 25 mm, whereupon the
connection of the intermediate piece with the austenitic
manganese steel casting cross frog was effected by a further
flash butt weld. That second welding procedure called for more
rapid cooling than after the first welding procedure, whereby
slower cooling served to avoid an increase in the hardening of
the rail steel. The use of an intermediate piece was above all
necessary because alloying elements diffused into the carbon
steel of the standard rail during those welding procedures,
which resulted in unprecisely defined textures entailing
increased risks of fracture. Intermediate pieces, on the other
hand, are to be taken as substantially softer than austenitic
manganese steel casting and, consequently, subject to elevated
wear. Austenitic steels as proposed for such intermediate pieces
are, therefore, less resistant to wear than the material of the
cross frog such that dents have been observed on the upper
surface of the intermediate piece with intermediate pieces of
too great a length. If, on the other hand, the intermediate
piece is chosen too short, this will again entail the risk of
the alloying elements diffusing from the austenitic manganese
steel into the carbon steel. The intermediate pieces, thus,

2
serve to separate the two welds in thermal respect in order to
be able to keep to the respectively required cooling conditions
on the respective welds and avoid embrittlements. Such
embrittlements of austenitic manganese steel casting in the
first place are due to diffustion effects, whereas carbon steel
can be accordingly soft-cooled by the temperature of flash butt
welding.
A method for producing a connection between a rail of manganese
steel casting and a rail of plain carbon steel is to be taken
from EP 0070774 A, wherein a special alloy is to be used for the
manganese steel casting rail part. For such connections between
an austenitic manganese steel and a steel workpiece, also
aluminothermal melts and the casting of a thus obtained metal
between two rail parts placed in a mold in a spaced-apart
relationship have already been proposed in EP 181251 A. In AT
395122 B, an intermediate piece of an austenitic, low-carbon
steel stabilized with niobium and/or titanium was proposed, with
a chromium-nickel steel having been used in particular, whereby
also there a thermal treatment was required following the first
welding operation between the intermediate piece and the
standard rail, to which end a homogenization at temperatures of
between 350° and 1000°C was proposed in particular.
The invention aims to provide a method of the initially defined
kind, which will do with substantially shorter intermediate
pieces, wherein, in a preferred manner, the use of intermediate
pieces may be renounced at all. To solve this object, the method
according to the invention essentially consists in that the
parts to be connected, optionally upon interposition of an
intermediate piece, are connected by friction welding, wherein
the weld with the austenitic manganese steel is cooled at static
air without heat treatment. It has now been found in a
surprising manner that by the application of a friction welding

3
process the thermal load on the welds, as compared with other
known welding processes, can be reduced to such an extent that
diffusion procedures will be minimized and undesired thermal
shifts will be eliminated almost completely. By employing
friction welding as a method for producing said connection, the
interposition of an intermediate piece can be totally renounced
without requiring a separate heat treatment following the
welding operation. The only heat treatment optionally required,
which is actually not to be addressed as a heat treatment, would
consist in preheating the standard rail in order to be able to
readily attain the temperatures required to make the weld. It is
in any event feasible to allow the welding joint to cool at
static air, even without the interposition of an intermediate
piece, and without heat treatment, the method thus being
substantially simplified over known methods.
In a preferred manner, when using an intermediate piece, it is
proceeded according to the invention in that an optionally
effected heat treatment, or delayed cooling, is limited to the
weld made between the carbon steel and the intermediate piece.
However, such a heat treatment after having made the first weld,
i.e., that between the rail and the intermediate piece, may, as
a rule, be likewise omitted if a friction welding process is
employed.
A thermal aftertreatment after the realization of the weld with
the austenitic manganese steel is not necessary for sure. Merely
may the preheating of the standard rails for the friction
welding process turn out to be advantageous.
In the main, expensive heat treatments may, thus, be renounced
in a particularly simple manner by using known friction welding
processes as may be taken, for instance, from EP 1459833 Al or
WO 2004/028733 Al, whereby the negative side effects of known

4
welding processes will surprisingly be eliminated even without
the use of intermediate pieces, and the formation of soft-
annealed zones which may lead to dents will be avoided.

5
Claims:
1. A method for connecting switch or crossing parts made of
austenitic manganese steel casting, or austenitic manganese
steel rails, with rails of carbon steel, characterized in that
the parts to be connected, optionally upon interposition of an
intermediate piece, are connected by friction welding, wherein
the weld with the austenitic manganese steel is cooled at static
air without heat treatment.
2. A method according to claim 1, characterized in that, when
using an intermediate piece, an optionally effected heat
treatment, or delayed cooling, is limited to the weld made
between the carbon steel and the intermediate piece.

In a method for connecting switch or crossing parts made of
austenitic manganese steel casting, or austenitic manganese
steel rails, with rails of carbon steel, the parts to be
connected, optionally upon interposition of an intermediate
piece, are connected by friction welding, wherein the weld with
the austenitic manganese steel is cooled at static air without
heat treatment.

Documents:

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Patent Number

269317

Indian Patent Application Number

2001/KOLNP/2007

PG Journal Number

42/2015

Publication Date

16-Oct-2015

Grant Date

15-Oct-2015

Date of Filing

04-Jun-2007

Name of Patentee

VAE GMBH

Applicant Address

ROTENTURMSTRASSE 5-9, A-1010 WEIN

Inventors:

#	Inventor's Name	Inventor's Address
1	OSSBERGER, HEINZ	MURSIEDLUNG 31 A-8734 GROSSLOBMING
2	STOCKER, ERIK	LOIS-HAMMER-GASSE 21/14, A-8720 KNITTELFELD

PCT International Classification Number

E01B 11/44,E01B 7/00

PCT International Application Number

PCT/AT2005/000487

PCT International Filing date

2005-12-02

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	A 2085/2004	2004-12-10	Austria