TITAN ADVANCED COMPOSITES materials
are proven across multiple applications

Titan has base materials available from stock which provide the starting points for engineered customized solutions for any application.


Wear Resistance

Titan’s W series materials are formulated to reduce both friction and mechanical “wear” in parts subjected to frictional stresses.

GradeOverviewData Sheet
TAC-W11A01Carbon Fiber, Graphite, and Ceramic filled Bulk Molding Compound manufactured and designed to have outstanding wear and thermal characteristicsDownload
TAC-W13A01Kevlar, Graphite, and Ceramic filled Bulk Molding Compound manufactured
and designed to have outstanding wear characteristics and resistant to galvanic corrosion from salt water
Download
Conductive

Titan’s C series materials are formulated to be electrically and thermally conductive. Experimental data shows the composite has electrically conductivity similar to a graphite compact.
Titan’s X series materials are specially formulated to be thermally conductive and electrically insulative.

GradeOverviewData Sheet
TAC-C11B01Carbon Fiber, and Graphite filled Bulk Molding Compound manufactured and designed to have outstanding thermal and strength characteristicsDownload
TAC-C15A01 Aluminum filled Bulk Molding Compound manufactured and designed to have outstanding conductive characteristicsDownload
TAC-X14A01TAC-X14A01 is a Ceramic filled Bulk Molding Compound manufactured and designed to have outstanding thermal characteristics, while being electrically insulatingDownload
Light weight / Low Density

Titans L series materials are formulated to meet the evolving needs for “light-weighting” of components.

GradeOverviewData Sheet
TAC-L13A01Kevlar and light weight filler Bulk Molding Compound manufactured and designed to have outstanding weight characteristicsDownload
High Temperature

Titan’s T series materials are formulated to operate under temperatures as high as 350°C, while maintaining material properties and mechanical integrity.

High Strength

Titan’s S series composites are formulated for applications demanding resistance to impact and operation under high mechanical stresses.