Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a cutter for ultrahigh pressure water cutting. The cutter for ultrahigh pressure water cutting is composed of a non-oxide ceramic material, furfural resin and chrome steel. The non-oxide ceramic material is titanium carbonitride and accounts for 61%-67% of the total weight of the cutter for ultrahigh pressure water cutting, the furfural resin accounts for 19%-21% of the total weight of the cutter for ultrahigh pressure water cutting, and the chrome steel accounts for 12%-20% of the total weight of the cutter for ultrahigh pressure water cutting. The cutter for ultrahigh pressure water cutting has the advantages of being resistant to high temperatures, resistant to chemicals and good in electrical insulating property.
The invention discloses a cutter for ultrahigh pressure water cutting. The cutter for ultrahigh pressure water cutting is composed of a non-oxide ceramic material, furfural resin and chrome steel. The non-oxide ceramic material is titanium carbonitride and accounts for 61%-67% of the total weight of the cutter for ultrahigh pressure water cutting, the furfural resin accounts for 19%-21% of the total weight of the cutter for ultrahigh pressure water cutting, and the chrome steel accounts for 12%-20% of the total weight of the cutter for ultrahigh pressure water cutting. The cutter for ultrahigh pressure water cutting has the advantages of being resistant to high temperatures, resistant to chemicals and good in electrical insulating property.
Railway tunnel ultrahigh pressure water cutting control execution mechanism and control system
| Europäisches Patentamt | 2022