High-Strength Alloy Niobium Nb-30W-1zr
China High-Strength Alloy Niobium Nb-30W-1zr, Find details about China Nb-17W-4hf-0.1c, Niobium Alloy from High-Strength Alloy Niobium Nb-30W-1zr
Basic Info.
Model NO.
Nb-30W-1Zr
OEM
Acceptable
Delivery Time
Within 10 Working Days
Casting Tolerance
+/-0.5mm
Dimension Report
Dimension Report
Process
Machining
Material Inspection Report
Material Inspection Report
Trademark
Taixie
Transport Package
Woven Bag, Wooden Box
Specification
3~800mm or any
Origin
Wuxi, Jiangsu
HS Code
8101100010
Model NO.
Nb-30W-1Zr
OEM
Acceptable
Delivery Time
Within 10 Working Days
Casting Tolerance
+/-0.5mm
Dimension Report
Dimension Report
Process
Machining
Material Inspection Report
Material Inspection Report
Trademark
Taixie
Transport Package
Woven Bag, Wooden Box
Specification
3~800mm or any
Origin
Wuxi, Jiangsu
HS Code
8101100010
Product Desciption
High-strength alloy Niobium Nb-30W-1Zr
Production:
The ruthenium refractory metal has a melting point of 2467°C and has a high specific strength in the temperature range of 1093 to 1427°C. Compared with tungsten alloy and molybdenum alloy, niobium alloy has good plasticity and excellent processing and welding properties. Therefore, it can be made into thin plates and parts with complex shapes, and can be used as heat protection and structural material for aerospace and aviation industries.
Pictures:
Application:
Tantalum and its alloy billets can be produced by powder metallurgy or smelting processes. Powder metallurgy processes are mostly used for the production of small crucible products and blanks for processing. The powdered yttrium material obtained by the thermal reduction method or the electrolytic method is vacuum-sintered after being pressed and formed. The sintering process depends on the use of the product. Primary sintering (1600-2200°C) is used to produce electrodes for smelting and porous anodes. Secondary sintering is used to produce blanks for plastic processing such as forging, rolling, and drawing. Between the two sintering often forging or rolling, the processing rate of about 50%. The secondary sintering temperature is 2000-2700°C.
Vacuum consumable arcs and electron beam melting processes are commonly used methods for making niobium and its alloy ingots. The electron beam melting process is mainly used for the purification of yttrium, and the consumable arc smelting process can produce ingots with a larger diameter and a more uniform alloy composition. The consumable arc smelting electrode can be made of a sintered rod or an electron beam smelting ingot. The grains of ingot obtained by the method are coarse, and it is often necessary to crush the as-cast grains to increase the plasticity. Electron beam region melting may be used to further refine or prepare single crystals.
The ruthenium refractory metal has a melting point of 2467°C and has a high specific strength in the temperature range of 1093 to 1427°C. Compared with tungsten alloy and molybdenum alloy, niobium alloy has good plasticity and excellent processing and welding properties. Therefore, it can be made into thin plates and parts with complex shapes, and can be used as heat protection and structural material for aerospace and aviation industries.
Pictures:
Application:
Tantalum and its alloy billets can be produced by powder metallurgy or smelting processes. Powder metallurgy processes are mostly used for the production of small crucible products and blanks for processing. The powdered yttrium material obtained by the thermal reduction method or the electrolytic method is vacuum-sintered after being pressed and formed. The sintering process depends on the use of the product. Primary sintering (1600-2200°C) is used to produce electrodes for smelting and porous anodes. Secondary sintering is used to produce blanks for plastic processing such as forging, rolling, and drawing. Between the two sintering often forging or rolling, the processing rate of about 50%. The secondary sintering temperature is 2000-2700°C.
Vacuum consumable arcs and electron beam melting processes are commonly used methods for making niobium and its alloy ingots. The electron beam melting process is mainly used for the purification of yttrium, and the consumable arc smelting process can produce ingots with a larger diameter and a more uniform alloy composition. The consumable arc smelting electrode can be made of a sintered rod or an electron beam smelting ingot. The grains of ingot obtained by the method are coarse, and it is often necessary to crush the as-cast grains to increase the plasticity. Electron beam region melting may be used to further refine or prepare single crystals.
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