초록 ▼

The present invention provides ceramic coated heat-resistant elements which suffer no damages even under high heat load conditions and can afford a thermal barrier effect stably for a long period of time and can be used, for example, as buckets and stationary blades of turbines. A method for making

The present invention provides ceramic coated heat-resistant elements which suffer no damages even under high heat load conditions and can afford a thermal barrier effect stably for a long period of time and can be used, for example, as buckets and stationary blades of turbines. A method for making the elements is also provided. The ceramic coated heat-resistant element comprises a heat resisting alloy base mainly composed of Ni and/or Co and a heat-resistant coating layer provided on the surface of the base and is characterized in that said heat-resistant coating layer comprises a metal layer of an alloy superior to the base in high-temperature corrosion and oxidation resistance and provided on the base, an Al2O3 ceramic thin film layer provided on the metal layer, a ZrO2 ceramic coating layer having dense texture provided on the Al2O3 ceramic thin film layer and a ZrO2 ceramic coating layer having columnar texture provided on the ZrO2 ceramic coating layer having dense texture and cracks are present only in said ZrO2 ceramic coating layer having columnar texture in the direction of thickness along the boundary of the columns. A mixed layer composed of a metal superior to the base in high-temperature corrosion and oxidation resistance and a ZrO2 ceramic may be provided between the base and the metal layer.

대표청구항 ▼

A combined power generating plant system provided with a gas turbine driven by a combustion gas flowing at a high speed, a waste heat recovering boiler for obtaining steam by combustion exhaust gas from the gas turbine, a steam turbine driven by the steam, and a generator driven by the gas turbine a

A combined power generating plant system provided with a gas turbine driven by a combustion gas flowing at a high speed, a waste heat recovering boiler for obtaining steam by combustion exhaust gas from the gas turbine, a steam turbine driven by the steam, and a generator driven by the gas turbine and the steam turbine wherein the gas turbine has an arrangement of buckets and nozzles, each bucket having a blade part, a platform and a shank part, and each nozzle having a blade part, said buckets of the gas turbine being provided on a disk and rotated by causing a compressed combustion gas to pass through a nozzle and collide against a bucket, wherein the temperature of the combustion gas at an inlet of a first stage bucket is 1300°C. or higher, the temperature of the combustion exhaust gas at the outlet of the gas turbine is 560°C. or higher, steam of 530°C. or higher is obtained by the waste heat recovering boiler, the steam turbine is of high and low pressure integrated type, the steam temperature at a first stage bucket of the steam turbine is 530°C. or higher, the power generation capacity of the gas turbine is at least 50,000 KW and that of the steam turbine is at least 30,000 KW, overall thermal efficiency of the system is at least 45%, the bucket of the first stage of the gas turbine having a whole length of at least 200 mm, the platform of said bucket having flat portion connected to the blade part, the shank part is connected to the platform, and has fins provided on both sides thereof and a dovetail connected thereto, a surface of the blade part of at least one of the bucket and the nozzle is covered with a heat-resistant coating layer comprising a ZrO2 ceramic layer having a columnar texture composed of a plurality of columnar ZrO2 materials divided by micro-cracks and extending in a direction appropriately normal to the surface of the blade part, each of said columnar ZrO2 materials comprising a plurality of smaller columnar ZrO2 textures oriented appropriately normal to the surface of the blade part.