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Formula: Ni
Form: Mesh/Gauze
Material: Nickel
CAS Number: 7440-02-0
Commodity: Metals
Purity:
99.9%
Type:
Electro Formed
Nickel Electro Formed Gauze is engineered using precision-controlled electroforming processes that result in a microstructure characterized by fine grains and coherent nanoscale twin boundaries, leading to outstanding uniformity and strength. With tensile strength ranging from 692 MPa to over 1000 MPa and elongation capabilities up to 27.6%, this gauze offers superior mechanical performance and dimensional fidelity even under variable thermal or strain-rate conditions. Its face-centered cubic (fcc) crystal configuration ensures high ductility and resistance to fatigue, while its isotropic behavior makes it particularly suitable for high-precision applications in aerospace erosion shielding, MEMS devices, and electronic filtration systems. The material’s properties are heavily influenced by electroforming parameters—such as waveform control, temperature, and current density—which allow for tuning of stiffness, grain size, and mechanical resilience. Its superior fatigue endurance, coupled with corrosion resistance and low magnetic permeability, position electroformed nickel gauze as a vital structural element in advanced engineering environments that demand stability, precision, and reliability.
Health hazard/Hazardous to the ozone layer
Serious health hazard
Tolerances
Gauze
| Linear dimension | <100mm | ±1mm |
|---|---|---|
| Linear dimension | >=100mm | +2% / -1% |
| Wire Diameter | Woven | ±10% |
Material Properties for Metals
Atomic Properties
| Element | Value |
|---|---|
| Atomic number | 28 |
| Crystal structure | Face centred cubic |
| Electronic structure | Ar 3d⁸ 4s² |
| Valences shown | 0, 1, 2, 3 |
| Atomic weight( amu ) | 58.69 |
| Thermal neutron absorption cross-section( Barns ) | 4.54 |
| Photo-electric work function( eV ) | 4.9 |
| Natural isotope distribution( Mass No./% ) | 60/ 26.10 |
| Natural isotope distribution( Mass No./% ) | 62/ 3.59 |
| Natural isotope distribution( Mass No./% ) | 61/ 1.13 |
| Natural isotope distribution( Mass No./% ) | 58/ 68.27 |
| Natural isotope distribution( Mass No./% ) | 64/ 0.91 |
| Atomic radius - Goldschmidt( nm ) | 0.125 |
| Ionisation potential( No./eV ) | 2/ 18.2 |
| Ionisation potential( No./eV ) | 4/ 54.9 |
| Ionisation potential( No./eV ) | 6/ 108 |
| Ionisation potential( No./eV ) | 1/ 7.63 |
| Ionisation potential( No./eV ) | 3/ 35.2 |
| Ionisation potential( No./eV ) | 5/ 75.5 |
Mechanical Properties
| Element | Value |
|---|---|
| Hardness - Brinell | 190 |
| Hardness - Brinell | 100 |
| Material condition | Hard |
| Material condition | Soft |
| Poisson's ratio | 0.312 |
| Poisson's ratio | 0.312 |
| Bulk modulus( GPa ) | 177.3 |
| Bulk modulus( GPa ) | 177.3 |
| Tensile modulus( GPa ) | 199.5 |
| Tensile modulus( GPa ) | 199.5 |
| Izod toughness( J m⁻¹ ) | 160 |
| Izod toughness( J m⁻¹ ) | 160 |
| Tensile strength( MPa ) | 400 |
| Tensile strength( MPa ) | 660 |
| Yield strength( MPa ) | 150 |
| Yield strength( MPa ) | 480 |
Electrical Properties
| Element | Value |
|---|---|
| Electrical resistivity( µOhmcm ) | 6.9@20@20°C |
| Temperature coefficient( K⁻¹ ) | 0.0068@0-100°C |
| Thermal emf against Pt (cold 0C - hot 100C)( mV ) | -1.48 |
Physical Properties
| Element | Value |
|---|---|
| Boiling point( C ) | 2732 |
| Density( gcm⁻³ ) | 8.9@20 |
| Density( gcm⁻³ ) | 8.9@20C |
Thermal Properties
| Element | Value |
|---|---|
| Melting point( C ) | 1453 |
| Latent heat of evaporation( J g⁻¹ ) | 6378 |
| Latent heat of fusion( J g⁻¹ ) | 292 |
| Specific heat( J K⁻¹ kg⁻¹ ) | 444@25°C |
| Thermal conductivity( W m⁻¹ K⁻¹ ) | 90.9@0-100°C |
| Coefficient of thermal expansion( x10⁻⁶ K⁻¹ ) | 13.3@0-100°C |
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