Orthopedic replacements include are formed at least partially of composite materials including a metal matrix with reinforcing carbon fiber integrated into the matrix. The composite materials have substantially lower density than metal, and are expected to have appreciable strength. The orthopedic replacements can include a bone attachment portion and a load bearing portion. In some versions, the orthopedic replacements can include a core formed of the composite material, with a shape completion portion, formed for example from plastic, at least partially coating the core.

Orthopedic replacements include are formed at least partially of composite materials including a metal matrix with reinforcing carbon fiber integrated into the matrix. The composite materials have substantially lower density than metal, and are expected to have appreciable strength. The orthopedic replacements can include a bone attachment portion and a load bearing portion. In some versions, the orthopedic replacements can include a core formed of the composite material, with a shape completion portion, formed for example from plastic, at least partially coating the core.

An artificial femoral ball head having a multilayer shell-core composite structure includes a spherical shell layer, a transition layer and an inner core. The inner core is made of a toughened ceramic, the spherical shell layer is made of a ceramic material, and the transition layer is made of a composite material comprising materials of the inner core and the spherical shell layer. The artificial femoral ball head is manufactured through sintering a green body of successively stacked layers of the spherical shell layer, the transition layer and the inner core, and the green body of successively stacked layers is obtained through a powder co-injection molding process. The spherical shell layer of the artificial femoral head has a high rigidness, corrosion-proof and wear-proof performance. The inner core of the artificial femoral head has a high toughness and shockresistant performance.

An artificial acetabulum having a multilayer shell-core composite structure includes a ceramic acetabular liner, a transition layer and an acetabular shell. The acetabular shell is made of a porous metal, a porous alloy or a porous toughened ceramic; the ceramic acetabular liner is made of a ceramic material; and the transition layer is made of a composite material comprising materials of the acetabular shell and the ceramic acetabular liner. The artificial acetabulum is manufactured through sintering a green body of successively stacked layers of the ceramic acetabular liner, the transition layer and the acetabular shell, and the green body of successively stacked layers is obtained through a powder co-injection molding process. The ceramic acetabular liner of the artificial acetabulum has a high rigidness, corrosion-proof and wear-proof performance. The acetabular shell of the artificial acetabulum has a high toughness and shock resistant performance.