An external element made from a first material for a wearable object, the first material being an insulating ceramic, wherein a surface of the external element is at least partially treated to include at least one conversion with an electrical conductivity.

A method of making a particulate infiltrated porous body, including the steps of preparing a suspension of particles of a first composition in a liquid medium, immersing a porous body of a second composition in the suspension, infiltrating the porous body with particles of the first composition with the suspension to yield an infiltrated body, and selectively removing the liquid medium from the infiltrated body while leaving behind the particles of the first composition to yield a particulate-infused body. The porous body of the second composition is not wet by the liquid medium.

An external element made from a first material for a wearable object, the first material being an insulating ceramic, wherein a surface of the external element is at least partially treated to include at least one conversion with an electrical conductivity.

An example method may include applying a bond coat comprising silicon or a silicon alloy on a surface of a ceramic or ceramic matrix composite substrate, where the bond coat comprises a plurality of pores; infiltrating a precursor into at least some pores of the plurality of pores; and heat-treating the bond coat and the precursor, where after heat-treating a porosity of the bond coat is less than about 5 vol. %, and where after heat-treating, the bond coat is substantially free of continuous porosity extending through a thickness of the bond coat.

Thermal chemical vapor deposition split-functionalizing processes, coatings, and products are disclosed. The thermal chemical vapor deposition split-functionalizing process includes positioning an article within an enclosed chamber, functionalizing the article within a first temperature range for a first period of time, and then further functionalizing the article within a second temperature range for a second period of time. The thermal chemical vapor deposition split-functionalized product includes a functionalization formed by functionalizing within a first temperature range for a first period of time and a further functionalization formed by further functionalizing within a second temperature range for a second period of time.