<thead id="dfvx5"><var id="dfvx5"><output id="dfvx5"></output></var></thead><sub id="dfvx5"><dfn id="dfvx5"><ins id="dfvx5"></ins></dfn></sub>

      <thead id="dfvx5"><var id="dfvx5"><output id="dfvx5"></output></var></thead>

      <sub id="dfvx5"><dfn id="dfvx5"></dfn></sub><sub id="dfvx5"><var id="dfvx5"><ins id="dfvx5"></ins></var></sub>

      <sub id="dfvx5"><var id="dfvx5"><mark id="dfvx5"></mark></var></sub>
      <thead id="dfvx5"></thead>
      <thead id="dfvx5"><var id="dfvx5"><ruby id="dfvx5"></ruby></var></thead>

        <address id="dfvx5"><dfn id="dfvx5"></dfn></address>


          Colorant Chromatics? Reinforced Formulations

          Select from a very wide range of reinforced compounds

          Colorant Chromatics? offers the following reinforced high-temperature polymer and fluoropolymer functional materials, which can be further modified for specific color, tensile or elongation properties:

          Carbon/Graphite Fiber

          These formulations can help you increase the mechanical strength properties of your injection molded parts with increased flex modulus. The conductive nature of the carbon fibers means that these formulations?can add conductivity and static dissipation performance. Good chemical resistance, excellent impact strength at cryogenic temperatures and high-temperature resistance are inherent features of these functional formulations.

          Glass Fiber and Glass Beads

          These formulations are typically used for injection molding processes where improved dimensional stability is required. Additional processing and performance highlights include a wide service temperature, low flammability, excellent electrical and mechanical properties, good chemical resistance and high outdoor weathering resistance. Select from a wide variety of glass fibers and beads to meet the challenges of your?specific application.

          Titanate Fiber

          Increase mechanical strength with Titanate reinforced formulations while gaining chemical?inertness and?excellent cryogenic?impact resistance.?Typical applications include extruded components where abrasion resistance and cut-through resistance are required.

          Available for the following resins: