Effect of heat treatment on microstructure and mechanical properties of hot-hydrostatically extruded 93W–4.9Ni–2.1Fe alloy

“…Eva Liden [45] conducted a study on the fragmentation propensity of long rod ammunition It has been claimed that tungsten heavy alloy (WHA) rods exhibit "self-sharpening" behavior when shaped using severe plastic deformation methods. [18][19][20][21] Recently, 80W-14Cu-6Zn rods produced by the pressureless infiltration method exhibited "selfsharpening" behavior in ballistic impact tests, and their depth of intrusion was 30% deeper than that of 90W-7Ni-3Fe rods. [22][23] Although increasing the core density improves the penetration capability of armor-piercing ammunition, increasing the self-sharpening of the core during penetration currently improves the penetration capability even more, and can even reduce the material density to a certain extent.…”

Study of armor-piercing self-sharpening properties of 88WC-12Co material

“…Eva Liden [45] conducted a study on the fragmentation propensity of long rod ammunition It has been claimed that tungsten heavy alloy (WHA) rods exhibit "self-sharpening" behavior when shaped using severe plastic deformation methods. [18][19][20][21] Recently, 80W-14Cu-6Zn rods produced by the pressureless infiltration method exhibited "selfsharpening" behavior in ballistic impact tests, and their depth of intrusion was 30% deeper than that of 90W-7Ni-3Fe rods. [22][23] Although increasing the core density improves the penetration capability of armor-piercing ammunition, increasing the self-sharpening of the core during penetration currently improves the penetration capability even more, and can even reduce the material density to a certain extent.…”

Study of armor-piercing self-sharpening properties of 88WC-12Co material

Characterization of ductile phase toughening mechanisms in a hot-rolled tungsten heavy alloy

Eco-friendly material extrusion 3D printing for fabricating W-Ni-Fe lattices with improved compressive resistance