Patent application number | Description | Published |
20100020848 | PROTECTIVE TUBES FOR THERMOCOUPLES - Protective tubes for thermocouples exposed to oxidizing atmospheres at temperatures in the region of approximately 1100° C. are produced from a single-crystal nickel-based superalloy, preferably from an alloy having the following chemical composition (in % by weight): 7.7-8.3 Cr, 5.0-5.25 Co, 2.0-2.1 Mo, 7.8-8.3 W, 5.8-6.1 Ta, 4.9-5.1 Al, 1.3-1.4 Ti, 0.11-0.15 Si, 0.11-0.15 Hf, 200-750 ppm C, 50-400 ppm B, remainder nickel and unavoidable impurities. Protective tubes of this type exhibit good strength and good oxidation resistance under severe stress conditions. | 01-28-2010 |
20100021338 | HIGH-TEMPERATURE ALLOY - An iron-based high-temperature alloy is disclosed which contains the following chemical composition: 20% by weight Cr; 5 to 6% by weight Al; 4% by weight Ta; 4% by weight Mo; 3 to 4% by weight Re; 0.2% by weight Zr; 0.05% by weight B; 0.1% by weight Y; 0.1% by weight Hf; 0 to 0.05% by weight C; and remainder Fe and unavoidable impurities. The alloy can be produced at low cost and can possess outstanding oxidation resistance and good mechanical properties at temperatures up to 1200° C. | 01-28-2010 |
20100061883 | HIGH-TEMPERATURE-RESISTANT COBALT-BASE SUPERALLOY - A cobalt-base superalloy chemical composition is disclosed which includes, in % by weight: 25-28 W; 3-8 Al; 0.5-6 Ta; 0-3 Mo; 0.01-0.2 C; 0.01-0.1 Hf; 0.001-0.05 B; 0.01-0.1 Si; and remainder Co and unavoidable impurities. This superalloy can be strengthened by γ′ dispersions and further dispersion mechanisms. Exemplary compositions can provide good oxidation properties and improved strength values at high temperatures. | 03-11-2010 |
20100129256 | HIGH TEMPERATURE AND OXIDATION RESISTANT MATERIAL - High-temperature materials, based on alloyed intermetallic NiAl, have the following chemical composition (values in % by weight):
| 05-27-2010 |
20120000577 | PROCESS FOR PRODUCING A SINGLE-CRYSTAL COMPONENT MADE OF A NICKEL-BASED SUPERALLOY - In a process for producing a large single-crystal component or directionally solidified component made of a nickel-based superalloy, the component is first cast into shape in a known manner to form a microstructure comprising dendrites, and then solution annealing for homogenizing the cast microstructure of the component and two-stage precipitation heat treatment are carried out. In order to avoid chemical inhomogeneities and internal stresses caused thereby, a HIP process with a pressure of higher than 160 MPa is carried out following the solution annealing. | 01-05-2012 |
Patent application number | Description | Published |
20100020848 | PROTECTIVE TUBES FOR THERMOCOUPLES - Protective tubes for thermocouples exposed to oxidizing atmospheres at temperatures in the region of approximately 1100° C. are produced from a single-crystal nickel-based superalloy, preferably from an alloy having the following chemical composition (in % by weight): 7.7-8.3 Cr, 5.0-5.25 Co, 2.0-2.1 Mo, 7.8-8.3 W, 5.8-6.1 Ta, 4.9-5.1 Al, 1.3-1.4 Ti, 0.11-0.15 Si, 0.11-0.15 Hf, 200-750 ppm C, 50-400 ppm B, remainder nickel and unavoidable impurities. Protective tubes of this type exhibit good strength and good oxidation resistance under severe stress conditions. | 01-28-2010 |
20100021338 | HIGH-TEMPERATURE ALLOY - An iron-based high-temperature alloy is disclosed which contains the following chemical composition: 20% by weight Cr; 5 to 6% by weight Al; 4% by weight Ta; 4% by weight Mo; 3 to 4% by weight Re; 0.2% by weight Zr; 0.05% by weight B; 0.1% by weight Y; 0.1% by weight Hf; 0 to 0.05% by weight C; and remainder Fe and unavoidable impurities. The alloy can be produced at low cost and can possess outstanding oxidation resistance and good mechanical properties at temperatures up to 1200° C. | 01-28-2010 |
20100061883 | HIGH-TEMPERATURE-RESISTANT COBALT-BASE SUPERALLOY - A cobalt-base superalloy chemical composition is disclosed which includes, in % by weight: 25-28 W; 3-8 Al; 0.5-6 Ta; 0-3 Mo; 0.01-0.2 C; 0.01-0.1 Hf; 0.001-0.05 B; 0.01-0.1 Si; and remainder Co and unavoidable impurities. This superalloy can be strengthened by γ′ dispersions and further dispersion mechanisms. Exemplary compositions can provide good oxidation properties and improved strength values at high temperatures. | 03-11-2010 |
20100129256 | HIGH TEMPERATURE AND OXIDATION RESISTANT MATERIAL - High-temperature materials, based on alloyed intermetallic NiAl, have the following chemical composition (values in % by weight):
| 05-27-2010 |
20120000577 | PROCESS FOR PRODUCING A SINGLE-CRYSTAL COMPONENT MADE OF A NICKEL-BASED SUPERALLOY - In a process for producing a large single-crystal component or directionally solidified component made of a nickel-based superalloy, the component is first cast into shape in a known manner to form a microstructure comprising dendrites, and then solution annealing for homogenizing the cast microstructure of the component and two-stage precipitation heat treatment are carried out. In order to avoid chemical inhomogeneities and internal stresses caused thereby, a HIP process with a pressure of higher than 160 MPa is carried out following the solution annealing. | 01-05-2012 |
20140050609 | OXIDATION RESISTANT NICKEL ALLOY - The present invention relates to an oxidation resistant Nickel alloy, characterized in the following chemical composition (in % by weight): 4-7 Cr, 4-5 Si, 0.1-0.2 Y, 0.1-0.2 Mg, 0.1-0.2 Hf, remainder Ni and unavoidable impurities. A preferred embodiment has the following chemical composition (in % by weight): 6 Cr, 4.4 Si, 0.1 Y, 0.15 Mg, 0.1 Hf, remainder Ni and unavoidable impurities. This alloy has an improved oxidation resistance, good creep properties at high temperatures and. | 02-20-2014 |
20140053956 | METHOD FOR MANUFACTURING A THREE-DIMENSIONAL ARTICLE - The disclosure refers to a method for manufacturing a three-dimensional article, the method including successively building up the article from a metallic base material by means of an additive manufacturing process, thereby creating an article with a substantial anisotropy of its properties and heat treating the manufactured article at a sufficiently high temperature to reduce the anisotropy significantly by recrystallization and/or grain coarsening. | 02-27-2014 |