0.025mm Iron Ultra-Thin Foil
0.025mm Iron Ultra-Thin Foil
SKU:IRO-af165b
Premium 0.025mm Iron Ultra-Thin Foil - 99.99% pure with exceptional properties for precise applications.
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$79.99
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0.025mm Iron Ultra-Thin Foil
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0.025mm Iron Ultra-Thin Foil
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The 0.025mm Iron Ultra-Thin Foil is crafted with unmatched purity of 99.99%, meeting stringent industry standards. This high-quality foil boasts a precise thickness, making it ideal for applications requiring exact specifications. With exceptional electrical and thermal properties, this foil is a reliable choice for both consumer and institutional buyers who demand top-tier performance and reliability.
Product Specifications
Atomic Properties Atomic Number
26
Atomic Properties Atomic Weight
55.84700 amu
Atomic Properties Crystal Structure
Body Centered Cubic
Atomic Properties Electronic Structure
Ar3d64s2
Atomic Properties Ionization Potential Number
1 | 2 | 3 | 4 | 5 | 6
Atomic Properties Ionization Potential Number 1
7.87 eV
Atomic Properties Ionization Potential Number 2
16.18 eV
Atomic Properties Ionization Potential Number 3
30.65 eV
Atomic Properties Ionization Potential Number 4
54.8 eV
Atomic Properties Ionization Potential Number 5
75.0 eV
Atomic Properties Ionization Potential Number 6
99 eV
Atomic Properties Natural Isotope Distribution Mass Number
54 | 56 | 57 | 58
Atomic Properties Natural Isotope Distribution Mass Number 54
5.8 %
Atomic Properties Natural Isotope Distribution Mass Number 56
91.8 %
Atomic Properties Natural Isotope Distribution Mass Number 57
2.1 %
Atomic Properties Natural Isotope Distribution Mass Number 58
0.3 %
Atomic Properties Photo Electric Work Function
4.40 eV
Atomic Properties Thermal Neutron Absorption Cross Section
2.5600 Barns
Atomic Properties Valences
2 | 3 | 4 | 6
Electrical Properties Electrical Resistivity At 20 Degree Celsiu
10.1 µΩ·cm
Electrical Properties Temperature Coefficient At 0 To 100 Degree
0.00650 k-1
Electrical Properties Thermal Electromotive Force Emf Against Pt
1.98 mV
Material Material
IronIron was known and used by ancient civilizations. One of the most abundant metals (41000 ppm in the earth's crust), iron is probably one of the most important, being used on the largest scale of any metal. Its production in the blast furnace is well documented. When pure, iron is a lustrous white metal which is soft and very workable. However, it is reactive and easily forms a coating of hydrated oxide on its surface in the presence of moist air. This is non-coherent and flakes easily to reveal fresh surfaces for attack. Iron is soluble in dilute acids, where Fe(II) is produced in solution; more oxidizing acids produce Fe(III) solutions and strongly oxidizing agents (e.g. dichromate or concentrated nitric acid) produce a passive form of the metal, probably as a result of the formation of a coherent surface film of oxide. Depending upon the temperature, pure iron can exist in three forms, namely alpha-, gamma- and delta-iron; alpha iron is a polymorphic form of iron which is stable below 906ºC; it has a body centered cubic lattice (bcc) and is magnetic up to 768ºC. Gamma iron is a polymorphic form of iron which is stable between 906ºC and 1403ºC; it has a face centered cubic lattice (fcc) and is nonmagnetic (n.b. its range of stability is reduced by the presence of carbon, manganese and nickel and it is the basis of the austenite solid solutions). Delta iron is the polymorphic form of iron which is stable between 1403ºC and the melting point; it has the same lattice structure as alpha iron. Iron is the basis for many types of steel, the properties being achieved by the alloying of iron with carbon, nickel, chromium and other elements in varying proportions which results in materials with vastly differing mechanical and physical properties. Iron is also an essential element for all life forms, the average human body containing 4 gm of the element. The majority of iron in the body is present within hemoglobin, the respiratory pigment which provides the mechanism for the transportation of oxygen by red blood cells.
Mechanical Properties Bulk Modulus Polycrystalline
169.8 GPa
Mechanical Properties Hardness Mohs Polycrystalline
4.00 to 5.00
Mechanical Properties Izod Toughness Polycrystalline
8 to 16 J m-1
Mechanical Properties Material Condition
Polycrystalline
Mechanical Properties Poissons Ratio Polycrystalline
0.293
Mechanical Properties Tensile Modulus Polycrystalline
211.40 GPa
Mechanical Properties Tensile Strength Polycrystalline
180.00 to 210.00 MPa
Mechanical Properties Yield Strength Polycrystalline
120.0 to 150.0 MPa
Physical Properties Boiling Point
2750 ºC
Physical Properties Density At 20 Degree Celsius C Temperature
7.870 g/cm³
Specifications Diameter
4 to 15 mm
Specifications High Purity
99.99 %
Specifications Light Tight Size
25 x 25 to 100 x 100 mm
Specifications Temper
As Rolled
Tolerances Tolerance For 100 Millimeter Mm Disc Diameter
+2 % | -1 %