CH658045A5 - Process for the production of glass moulds for machines for the production of hollow glass - Google Patents

Abstract

The surfaces coming into contact with the glass are treated, after sand blasting with crushed corundum, with an alloy comprising 1 - 4% B, 1.5 - 4.5% Si, 0.03 - 0.6% C, 0 - 5% Fe, 0 - 15% Cr and the remainder of Ni by plasma spraying or flame spraying without melting. For reinforcement or during repair, the edge regions of the moulding are coated with an alloy from the same range by flame spraying with simultaneous melting.

Description

       

  
 

** WARNING ** beginning of DESC field could overlap end of CLMS **.

 



   PATENT CLAIMS
1. A method for producing glass molds for hollow glass production machines, in which a hollow molded body is first cast from metal and post-processed by turning, characterized in that the inner surface of the molded body with broken corundum in a grain size between 0.5 and 1.5 mm below a Pressure of 5 to 7 105 Pa is blasted and then directly onto this surface a protective layer made of an alloy of the following composition, in percent by weight,
B
Si 1.54.5
C 0.03-0.6
Fe 0-5
Cr 0-15
Ni rest is applied by plasma spraying or flame spraying without melting in a thickness of 0.15-1 mm and finally the coated surface is polished.



   2. The method according to claim 1, characterized in that at least one edge portion of the molded body is additionally coated with an alloy from the same composition range by flame spraying with simultaneous melting.



   The invention relates to a process for the production of glass molds for hollow glass production machines, in which a hollow molded body is first cast from metal and post-processed by turning.



   In order to increase the service life of the outer molds used in hollow glass production, attempts have already been made to provide the surfaces that come into contact with the glass with a protective layer produced by melting or melting by means of melting from one of the given loads against a resistant alloy.



   It has been found, however, that moldings coated in this way can no longer be repaired by subsequent thermal spraying if the edge parts which have been subjected to increased stress, in particular impact, have been damaged. In particular, there is no sufficient bond with the originally applied layer or, compared to an originally melted-in layer, such high voltages occur that the repair application is no longer possible.



   The invention has for its object to provide a method for producing the glass molds mentioned, which brings about a long service life of the molds, in particular by the possibility of edge reinforcement during manufacture, and which enables the molds to be repaired later.



   This is achieved according to the invention by the method steps specified in claim 1.



   The edge section can additionally be coated with an alloy from the same composition range by flame spraying with simultaneous melting.



   The molds produced by the process according to the invention have a very dense, excellently polishable surface on the parts which come into contact with the glass, and enable repair by coating with melting, a high mechanical strength being able to be achieved.



   The following examples illustrate the invention using specific embodiments.



   Example I
A gray cast iron hollow glass mold for green glass was created on the
Inner surface of the molded body after sandblasting with corundum from 0.5 to 1.25 mm grain size with a 0.5 mm thickness
Coat the following alloy (in percent by weight):
Si 2.5
B 1.8
Fe 0.1
C 0.03
Ni rest
The coating was carried out with the aid of a plasma powder application device which worked with argon-hydrogen plasma.



  The edges of the mold were then broken and coated in an approximately 2-3 mm wide zone around the edges by powder deposition welding with the same alloy with a thickness of approximately 2 mm. The edge was then mechanically reworked and the entire molding surface polished.



  The coating of the contact surface had a density of 95-98% of the theoretical density, had a perfect surface and showed no tendency to lift off during practical use. The coating increased the service life of the mold by about twice.

 

   It was also found that the edge can be repaired without difficulty by mechanical preparation and local application of the same alloy.



   Example 2
A shape similar to that in Example 1, but for white glass, was coated after the preparation mentioned there with an autogenous flame spray burner on the surface coming into contact with the glass, an alloy powder consisting of, in percent by weight,
Si 2.5
B 1.8
Cr 9
Fe 2
C 0.4
Ni rest was used.



   To reinforce the edges or for repairs, an alloy is made, in percent by weight,
Si 2.5
B 1.8
Cr 5
Fe 1
C 0.2 used and applied by powder deposition welding.



  The application thicknesses are the same as in example 1.



   The service life of the mold was increased to two to three times the service life of an uncoated mold.


    

Claims (2)

 PATENT CLAIMS 1. A method for producing glass molds for hollow glass production machines, in which a hollow molded body is first cast from metal and post-processed by turning, characterized in that the inner surface of the molded body with broken corundum in a grain size between 0.5 and 1.5 mm below a Pressure of 5 to 7 105 Pa is blasted and then directly onto this surface a protective layer made of an alloy of the following composition, in percent by weight, B Si 1.54.5 C 0.03-0.6 Fe 0-5 Cr 0-15 Ni rest is applied by plasma spraying or flame spraying without melting in a thickness of 0.15-1 mm and finally the coated surface is polished.  2. The method according to claim 1, characterized in that at least one edge portion of the molded body is additionally coated with an alloy from the same composition range by flame spraying with simultaneous melting.  The invention relates to a process for the production of glass molds for hollow glass production machines, in which a hollow molded body is first cast from metal and post-processed by turning.  In order to increase the service life of the outer molds used in hollow glass production, attempts have already been made to provide the surfaces that come into contact with the glass with a protective layer produced by melting or melting by means of melting from one of the given loads against a resistant alloy.  It has been found, however, that moldings coated in this way can no longer be repaired by subsequent thermal spraying if the edge parts which have been subjected to increased stress, in particular impact, have been damaged. In particular, there is no sufficient bond with the originally applied layer or, compared to an originally melted-in layer, such high voltages occur that the repair application is no longer possible.  The invention has for its object to provide a method for producing the glass molds mentioned, which brings about a long service life of the molds, in particular by the possibility of edge reinforcement during manufacture, and which enables the molds to be repaired later.  This is achieved according to the invention by the method steps specified in claim 1.  The edge section can additionally be coated with an alloy from the same composition range by flame spraying with simultaneous melting.  The molds produced by the process according to the invention have a very dense, excellently polishable surface on the parts which come into contact with the glass, and enable repair by coating with melting, a high mechanical strength being able to be achieved.  The following examples illustrate the invention using specific embodiments.  Example I A gray cast iron hollow glass mold for green glass was created on the Inner surface of the molded body after sandblasting with corundum from 0.5 to 1.25 mm grain size with a 0.5 mm thickness Coat the following alloy (in percent by weight): Si 2.5 B 1.8 Fe 0.1 C 0.03 Ni rest The coating was carried out with the aid of a plasma powder application device which worked with argon-hydrogen plasma. The edges of the mold were then broken and coated in an approximately 2-3 mm wide zone around the edges by powder deposition welding with the same alloy with a thickness of approximately 2 mm. The edge was then mechanically reworked and the entire molding surface polished. The coating of the contact surface had a density of 95-98% of the theoretical density, had a perfect surface and showed no tendency to lift off during practical use. The coating increased the service life of the mold by about twice.  It was also found that the edge can be repaired without difficulty by mechanical preparation and local application of the same alloy.    Example 2 A shape similar to that in Example 1, but for white glass, was coated after the preparation mentioned there with an autogenous flame spray burner on the surface coming into contact with the glass, an alloy powder consisting of, in percent by weight, Si 2.5 B 1.8 Cr 9 Fe 2 C 0.4 Ni rest was used.  To reinforce the edges or for repairs, an alloy is made, in percent by weight, Si 2.5 B 1.8 Cr 5 Fe 1 C 0.2 used and applied by powder deposition welding. The application thicknesses are the same as in example 1.  The service life of the mold was increased to two to three times the service life of an uncoated mold. ** WARNING ** End of CLMS field could overlap beginning of DESC **.