There is provided herein a clear, transparent, low yellow color and non-yellowing moisture-curable silylated polymer composition, which contains an alkoxysilyl-containing polymer, a light stabilizer, a sterically hindered amine, a silicon compound containing a conjugated C═C group, an adhesion promoter and curing catalyst. There is also provide a method of making the moisture-curable composition and a sealant comprising the same.

There is provided herein a clear, transparent, low yellow color and non-yellowing moisture-curable silylated polymer composition, which contains an alkoxysilyl-containing polymer, a light stabilizer, a sterically hindered amine, a silicon compound containing a conjugated C═C group, an adhesion promoter and curing catalyst. There is also provide a method of making the moisture-curable composition and a sealant comprising the same.

There is provided herein a clear, transparent, low yellow color and non-yellowing moisture-curable silylated polymer composition, which contains an alkoxysilyl-containing polymer, a light stabilizer, a sterically hindered amine, a silicon compound containing a conjugated C═C group, an adhesion promoter and curing catalyst. There is also provide a method of making the moisture-curable composition and a sealant comprising the same.

Fluorescent pigment is introduced into the plastic composition, preferably a thermoplastic, especially polyethylene or polypropylene, in the granules formation stage, in addition to possible standard components of the composite, mixed, granules are formed, and then the granules are formed into a finished building material component, and then, with the help of a known fluorimeter, the fluorescence intensity of individual parts of the surface of a plastic element is measured and the homogeneity of the material is inferred on the basis of the differences in the results of the fluorescence intensity measurements.

Fluorescent pigment is introduced into the plastic composition, preferably a thermoplastic, especially polyethylene or polypropylene, in the granules formation stage, in addition to possible standard components of the composite, mixed, granules are formed, and then the granules are formed into a finished building material component, and then, with the help of a known fluorimeter, the fluorescence intensity of individual parts of the surface of a plastic element is measured and the homogeneity of the material is inferred on the basis of the differences in the results of the fluorescence intensity measurements.

Fluorescent pigment is introduced into the plastic composition, preferably a thermoplastic, especially polyethylene or polypropylene, in the granules formation stage, in addition to possible standard components of the composite, mixed, granules are formed, and then the granules are formed into a finished building material component, and then, with the help of a known fluorimeter, the fluorescence intensity of individual parts of the surface of a plastic element is measured and the homogeneity of the material is inferred on the basis of the differences in the results of the fluorescence intensity measurements.

The present invention discloses a dyeable 1.74 resin lens and a preparation method thereof. The resin lens includes a module layer with a refractive index being 1.74, a dyeable layer with a refractive index being 1.60 is poured on an upper surface of the module layer, an upward curved degree of the dyeable layer is the same as an upward curved degree of the module layer, and a center thickness of the dyeable layer is 0.5-1.2 mm. According to the dyeable 1.74 resin lens of the present invention, a layer of dyeable 1.60plus resin lens is attached to a surface of a 1.74 lens, dyeing performance is good, a visible light transmittance can reach 10-30%, and the blank that the 1.74 lens cannot be dyed is filled.

The present invention discloses a dyeable 1.74 resin lens and a preparation method thereof. The resin lens includes a module layer with a refractive index being 1.74, a dyeable layer with a refractive index being 1.60 is poured on an upper surface of the module layer, an upward curved degree of the dyeable layer is the same as an upward curved degree of the module layer, and a center thickness of the dyeable layer is 0.5-1.2 mm. According to the dyeable 1.74 resin lens of the present invention, a layer of dyeable 1.60plus resin lens is attached to a surface of a 1.74 lens, dyeing performance is good, a visible light transmittance can reach 10-30%, and the blank that the 1.74 lens cannot be dyed is filled.

A silicone composition along with uses and processes for preparing the same. Where the silicone composition is used as an optical binder for outdoor display applications.

A silicone composition along with uses and processes for preparing the same. Where the silicone composition is used as an optical binder for outdoor display applications.