Home » Copper Metal Foam (High Purity, 50PPI/5mm)

METAL FOAMS (CU/NI/AL/PE)

Stock No. CAS MSDS Specification COA
NS6130-10-1011 7440-50-8 MSDS pdf Specification pdf COA pdf

Copper Metal Foam (High Purity, 50PPI/5mm)

Copper Metal Foam

Copper Metal Foam - 50PPI/5mm

Quality Control: Each lot of Copper Metal Foam was tested successfully.

Copper Metal Foam

Copper Metal Foam

 
Product Copper Metal Foam
Stock No NS6130-10-1011
CAS 7440-50-8 Confirm
Purity ≥99.8% Confirm
Porosity ≥70% Confirm
Dimension 500mm X 500mm Confirm
Thickness 5mm Confirm
PPI 50 Confirm
Molecular Formula Cu Confirm
Molecular weight 63.55g/mol Confirm
Density 8.96g/cm3 Confirm
Bulk Density 0.80-0.85 g/cc Confirm
Melting point 1085°C Confirm
Boiling point 2562°C Confirm
Thermal expansion 16.5µm.m-1.k-1 Confirm
Thermal conductivity 401W.m-1.k-1 Confirm
Tensile strength 1.25N/mm Confirm
Young’s modulus 110-128GPa Confirm
Shear strength 190Psi Confirm
Vickers hardness 369MPa Confirm
Poisson’s ratio 0.34 Confirm
Electrical resistivity 1.673µΩ-cm Confirm
Specific heat 0.39kj/kgK Confirm
Electronegativity 1.90paulings Confirm
Heat of fusion 13.26kJ.mol-1 Confirm
Heat of vaporization 300.4kJ.mol-1 Confirm
Main Inspect Verifier Manager QC

Typical Chemical Analysis

Assay ≥99.8%

Expert Reviews

Dr. Guowei Kwong, PhD(Ho Chi Minh City University of Science, Vietnam)

Foams are materials with a large amount of interfaces- free surfaces- with the potential to show radiation resistance due to ideally unsaturable sink strength represented by free surfaces. Nanocomposites, Nanophase materials, and Nanofoams could be unusually resistant to radiation because radiation-induced point defects cannot accumulate in the presence of the high density of defects sinks provided by interfaces and surfaces in these materials.


Dr. Marco Ferro, MD PhD(University of Nordland Bodø, Norway)

Foams are dipped into molten metal, then placed in a vacuum so that the air in the foam’s pores is removed and replaced by the alloy. The foam had pore sizes of about 2mm, that can be tuned to create a stiffer or more flexible materials. During testing of its strength material showed an ability to deform when heated above 144 degrees, regain rigidity when cooled, then return to its original shape and strength when reheated.


Dr. Ms. Huian Ruan, Taungoo Technological University, Myanmar

Amorphous metal foams are highly ductile in compression, and thus offer attractive compromises in mechanical and physical properties between crystalline metallic and ceramic foams. Metal foams have properties which make them suitable for automotive industry,  in ship building, aerospace industry and civil engineering.


Copper Metal Foam

Copper Metal Foam