Abstract: The invention provides composite materials that form a biocompatible and bioresorbable settable ceramic-forming composition, and that possesses high strength when set and other desirable mechanical properties. The composite materials may include additive materials that provide beneficial advantages in the handling and physical properties of the material. When a hydrated precursor, the composite material is capable of being injected through cannulas for placement in treatment sites. The composite material provided desirable handling properties and sets in a clinically relevant time period.

Abstract: The invention provides composite materials that form a biocompatible and bioresorbable settable ceramic-forming composition, and that possesses high strength when set and other desirable mechanical properties. The composite materials may include additive materials that provide beneficial advantages in the handling and physical properties of the material. When a hydrated precursor, the composite material is capable of being injected through cannulas for placement in treatment sites. The composite material provided desirable handling properties and sets in a clinically relevant time period.

Abstract: The invention provides composite materials that form a biocompatible and bioresorbable settable ceramic-forming composition, and that possesses high strength when set and other desirable mechanical properties. The composite materials may include additive materials that provide beneficial advantages in the handling and physical properties of the material. When a hydrated precursor, the composite material is capable of being injected through cannulas for placement in treatment sites. The composite material provided desirable handling properties and sets in a clinically relevant time period.

Abstract: Disclosed is a sound-suppressing device that employs a porous micro-channel diffusion matrix surrounding a hollow core lube that acts to increase the surface area of the suppressor and allow combustion gasses to diffuse and exit the suppressor. Various polymers can fee used to produce the porous micro-channel diffusion matrices. These porous polymer micro-channel diffusion matrices are made by sintering processes. By controlling the polymer type and particle size distribution of the particles that are sintered to create the porous polymer micro-channel diffusion matrix, the suppression can be maximized.