Novel directed nickel-base high temperature alloy

A nickel-based superalloy, a new type of technology, applied in the field of new oriented nickel-based superalloys, can solve the problems of manufacturing difficulty and manufacturing cost, large engine size, low testing cost, etc., and achieve excellent corrosion resistance and good high-temperature mechanical properties , the effect of good tissue stability

Active Publication Date: 2012-09-05
AVIC BEIJING INST OF AERONAUTICAL MATERIALS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

From the perspective of manufacturing cost, the process flow of oriented parts is relatively simple, the yield is high, the inspection cost is low, and the casting cost is lower than that of single crystal parts. Therefore, oriented materials are widely used in aero-engines; especially for ground gas turbines, the engine size Large, using single crystal parts, the corresponding manufacturing difficulty and manufacturing cost are greatly increased

Method used

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  • Novel directed nickel-base high temperature alloy
  • Novel directed nickel-base high temperature alloy
  • Novel directed nickel-base high temperature alloy

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0012] The chemical composition and mass percentage of the alloy are: Al: 5.5%; Ti: 3.0%; Cr: 11.0%; Ta: 7.0%; Co: 9.0%; W: 7.0%; Mo: 3.0%; Hf: 2.0%; C: 0.15%; B: 0.02%, the balance being nickel.

[0013] First, the master alloy with qualified composition is smelted in a vacuum induction melting furnace. After the composition of the master alloy is qualified, the hot end parts of the gas turbine turbine can be cast in a vacuum induction melting furnace by investment casting method.

Embodiment 2

[0015] The chemical composition and mass percentage of the alloy are: Al: 3.0%; Ti: 0.5%; Cr: 9.0%; Ta: 5.0%; Co: 7.0%; W: 4.0%; Mo: 1.0%; C: 0.05%; B: 0.005%, and the balance is nickel.

[0016] First, the master alloy with qualified composition is smelted in a vacuum induction melting furnace. After the composition of the master alloy is qualified, the hot end parts of the gas turbine turbine can be cast in a vacuum induction melting furnace by investment casting method.

Embodiment 3

[0018] The chemical composition and mass percentage of the alloy are: Al: 4.0%; Ti: 2.0%; Cr: 10%; Ta: 6%; Co: 8.0%; W: 6.0%; Mo: 2.0%; Hf: 1.0%; C: 0.1%; B: 0.015%, the balance being nickel.

[0019] First, the master alloy with qualified composition is smelted in a vacuum induction melting furnace. After the composition of the master alloy is qualified, the hot end parts of the gas turbine turbine can be cast in a vacuum induction melting furnace by investment casting method.

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Abstract

The invention belongs to the field of metallic materials and relates to a novel directed nickel-base high temperature alloy for hold end parts and components of a gas turbine. The chemical ingredients of the alloy and mass percents of the chemical ingredients are as follows: 3.0-5.5% of Al, 0.5-4.0% of Ti, 9.0-12.0% of Cr, 5.0-7.0% of Ta, 7.0-10.0% of Co, 4.0-7.0% of W, 1.0-3.0% of Mo, 0-2.0% of Hf, 0-4% of Re, 0.02-0.15% of C, 0.002-0.02% of B, and the balance of nickel. The novel directed nickel-base high temperature alloy disclosed by the invention has good high temperature strength, tissue stability, casting performance and high temperature and hot corrosion resistance, no TCP phase is separated out after the alloy is aged at 900 DEG C for 50000h, the salt coated hot corrosion resistance of the alloy disclosed by the invention at 900 DEG C is close to that of a DS GTD111 alloy, and the temperature bearing capability of the alloy disclosed by the invention is 10-20 DEG C higher than that of the DS GTD111 alloy, so that the alloy disclosed by the invention is suitable for casting directed thin-walled hollow casting.

Description

technical field [0001] The invention belongs to the field of metal materials, and relates to a novel oriented nickel-based superalloy used for hot-end components of gas turbines. Background technique [0002] The key to improving the turbine inlet temperature and gas turbine performance is to increase the temperature bearing capacity of the blades. The improvement of the temperature bearing capacity of the blades depends on the improvement of the material temperature bearing capacity and the application of cooling technology. Compared with aero-engines, gas turbine blades have a much harsher working environment for hot-end parts of gas turbines. Most ground gas turbines use diesel or low-quality fuel oil, which contains impurities such as sulfur and sodium, which cause thermal corrosion and have a great damage to high-temperature alloy components. ; The life expectancy is long, usually tens of thousands or even hundreds of thousands of hours; the time to bear the basic load ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C19/05
Inventor 肖程波李青杨海青宋尽霞李明
Owner AVIC BEIJING INST OF AERONAUTICAL MATERIALS
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