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Niobium Hafnium Alloy (C103) Disc,Niobium C-103 Alloy

Product Code : AL-NbHfTi-Nb89%-DI

Niobium C-103 Alloy disc are composed of C-103 Niobium alloy, a complex refractory metal alloy consisting of niobium, hafnium, titanium, and additional alloying elements. C-103 Niobium alloy has excellent mechanical strength and stability and is a widely used mate. In 1965, Niobium C-103 alloy is first manufactured in America and then used in nozzle extended segment of Apollo manned lunar module rocket engine. In 1975, China succeeded in producing NbHf10Ti1Zr0.7 niobium alloy.

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Product Product Code Purity Size Contact Us
Niobium Hafnium Alloy (C103) DiscAL-NbHfTi-Nb89%-DINb89% Hf10% Ti1%Customize
Niobium Hafnium Alloy (C103) DiscAL-NbHfTi-CU-DICustomizeCustomize

Product Information

Niobium C-103 Alloy disc are composed of C-103 Niobium alloy, a complex refractory metal alloy consisting of niobium, hafnium, titanium, and additional alloying elements. C-103 Niobium alloy has excellent mechanical strength and stability and is a widely used mate. In 1965, Niobium C-103 alloy is first manufactured in America and then used in nozzle extended segment of Apollo manned lunar module rocket engine. In 1975, China succeeded in producing NbHf10Ti1Zr0.7 niobium alloy.


Niobium C-103 Alloy Synonyms

Niobium C103, ASTM B540, Paliney 7, Nb-Hf-Ti, HfNbTi, NbHfTi

Niobium Hafnium Alloy (C103) Disc Specification

Dimensions

Size:customized

Standard:ASTM B392

C103

Per your request or drawing

We can customized as required

 

Properties(Theoretical)

Chemical Composition

ElementMinimum  weight   % (Coarse)Maximum   weight % (Coarse)Minimum  weight   % (Fine)Maximum   weight % (Fine)
Ti0.7%1.3% 0.7%1.3%
Hf9% 11% 9%11%
Zr<0.7%
 <0.7%
W<0.5%
 <0.5%
O<0.025%
 <0.0325%
Ta<0.5%
 <0.5%
N<0.01%
 <0.01%
C<0.015%
 <0.015%
H<0.0015%
 <0.0015%
NbBalance
 Balance


Compound FormulaNb/Hf/Ti
AppearanceMetallic solid in various forms
Melting Point2350 ± 50°C
Boiling PointN/A
Density8.85 g/cm3
Solubility in H2ON/A
Electrical Resistivity0.0000313 – 0.0000352 ω-cm
Coefficient of Line-expansion/10-6K-14.5 (1203˚C)
Recrystallization Temperature1038 – 1316 ˚C
Anneal Temperature871˚C
Elongation Brittle Transition Temperature- 196˚C
Specific Heat0.082 BTU/°F/lb
Thermal Conductivity22.0 Btu/hr – ft2 - °F/ft (1600 °F)
Thermal Expansion3.9 in/in/°F (400 °F)
Monoisotopic Mass320.801 g/mol


Niobium Alloys C-103 Foil, Sheet, Strip and Plate   Mechanical Property

Ultimate Tensile   Strength, Min, Psi (MPa)Yield   Strength(0.2 % offset), Min,Psi (MPa)Elongation In 1   In.(25 mm) Gage Length, Min, %
Material 0.05   in. (1.3 mm) and thinner:
Room   temperature56 000 (385)40 000 (275)20
2000 ± 25°F
  (1100 ± 15°C)
21 000 (145)16 000 (110)20
Material   greater than 0.05 in. (1.3 mm) in thickness:
Room   temperature54 000 (370)38 000 (260)20
2000 ± 25°F
  (1100 ± 15°C)
21 000 (145)16 000 (110)20


C-103 High-temperature Properties

CompositionShapeTemperature/˚CTensile Strength/MPaTemperature/˚CModulus of   ElasticityBreak   Strength/MPa
10Hf, 1Ti,   0.7ZrSheet1093189.8-112 490-


Applications of Niobium C-103 Alloy Disc

Niobium C-103 Alloy disc are widely used in aerospace applications because of their incredible heat resistance, as well as light-weight, competitive price, reliability, and ability to stand up to intense vibrations and cryogenic temperatures. C-103 Niobium Alloy has a melting point of 4260 ± 90ºF, and a density of 0.320 lbs. /cubic inches, making it ideal for use in space, as well as for components used within super-heated thrusters, and rocket engines. The C-103 Niobium Alloy is widely employed in the manufacturing of scramjet engine components. Niobium alloy C-103 is an excellent material for liquid rocket thruster nozzles, lightweight propulsion systems and rocket engine thrust chamber in aerospace industry. Niobium alloy C-103 is also used in the manufacture of turbopump and high-temperature jet engine parts.


Niobium C-103 Fabrication Process

Niobium alloy C-103 has high melting point. Fabrication process involves C-103 ingots production process and mechanical process. Niobium hafnium alloy is processed into ingots by combining electron-beam cast with vacuum consumable electrode arc furnace. Then C-103 is extruded or forged over 1200℃. After rolling and drawing under 500℃, niobium hafnium alloy C-103 is manufactured into sheets, strips, rods, wire or other fittings.


Niobium C-103 Welding

Niobium alloy C-103 has good weldability. The welding methods include argon tungsten-arc welding and electron-beam fusion welding. Welding quality depends on the purity of argon and vacuum. The purer the argon and the lower remaining pressure is, the better the welding quality will be.


Niobium C-103 Heat Treatment

Vacuum or inert gas protection is usually applied in the process of annealing, solution and aging treatment.


Packing of Niobium Alloys C-103 Disc

Standard Packing:

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes Special package is available on request.

ATTs’ Niobium Alloys C-103 Disc is carefully handled to minimize damage during storage and transportation and to preserve the quality of our products in their original condition.

Chemical Identifiers

Linear FormulaNb-89% Hf-10% Ti-1%
MDL NumberN/A
EC No.N/A
Pubchem CID19751102
IUPAC Namehafnium; niobium;   titanium(2+)
SMILES[Ti+2].[Nb+2].[Hf+4]
InchI IdentifierInChI=1S/Hf.Nb.Ti/q+4;2*+2
InchI KeyYZMOKPJTVNUKTK-UHFFFAOYSA-N


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