Uniquely shaped and sized particles provide the basis for brilliant metallic shades that convey a premium impression. Processing conditions can cause material properties to shift from the values stated in the information.

Uniquely shaped and sized particles provide the basis for brilliant metallic shades that convey a premium impression. Processing conditions can cause material properties to shift from the values stated in the information.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

The shape of the mineral particle can be long and needle-like, spherical, flat and flaky, or broad. It’s one of these shapes that influences what kind of enhancement the particle can bring.   Carbon nanotubes are carbon atoms linked in a cylindrical shape with diameters as small as 1 nanometer and lengths up to several centimeters.5 They have the highest strength-to-weight ratio of any known material.

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