Methods for producing an uncured masterbatch material from a solution masterbatch that includes an uncured polymer, for example a polydiene such as present in a guayule cement, a diluting liquid and a particulate filler. The solution masterbatch is subjected to resonant acoustic mixing which provides excellent dispersion of the solution components and leads to a masterbatch material having desirable properties. After resonant acoustic mixing, the solution masterbatch can be dried and further processed with other components and a curative to prepare a vulcanized composition.

The present invention provides compounds of formula ##STR00001##
a process for their preparation, a solution comprising these compounds, a process for the preparation of a device using the solution, devices obtainable by the process and the use of the bis-azide-type compounds as cross-linkers.

The present invention provides compounds of formula ##STR00001##
a process for their preparation, a solution comprising these compounds, a process for the preparation of a device using the solution, devices obtainable by the process and the use of the bis-azide-type compounds as cross-linkers.

Methods of curing a deformation in a substrate are provided. In some embodiments, the method includes identifying one or more areas on the substrate with deformation. The method further includes printing a first film on a first area of a surface of the substrate via inkjet printing, the first film being a material that polymerizes and contracts when cured. The method includes printing a second film on a second area of the surface of the substrate via inkjet printing, the second film being a material that polymerizes and contracts when cured. The method further includes curing the first film and the second film to induce a bend in the substrate. In some embodiments, the method includes inkjet printing a third film and a fourth film on the surface of the substrate.

Methods of curing a deformation in a substrate are provided. In some embodiments, the method includes identifying one or more areas on the substrate with deformation. The method further includes printing a first film on a first area of a surface of the substrate via inkjet printing, the first film being a material that polymerizes and contracts when cured. The method includes printing a second film on a second area of the surface of the substrate via inkjet printing, the second film being a material that polymerizes and contracts when cured. The method further includes curing the first film and the second film to induce a bend in the substrate. In some embodiments, the method includes inkjet printing a third film and a fourth film on the surface of the substrate.

A method of: providing a polymeric material, and inducing optical or acoustic phonons into the material. The inducing is performed by application of an alternating electric field or a dynamic mechanical field. When the method is performed on a polyepoxy thermoset, this may result in a water absorption rate of no more than 0.1 wt. % per 24 hours.

A device for manufacturing a stretchable substrate structure according to an embodiment includes a carrier substrate receiving portion configured to receive a carrier substrate therein, a stretchable substrate receiving portion configured to receive a stretchable substrate in a direction facing the carrier substrate, and a diaphragm configured to be deformed by air pressure provided on one surface, wherein the diaphragm comes in contact with an entire surface of the stretchable substrate in a plane direction when deformed, such that the stretchable substrate is combined to the carrier substrate by deforming according to the deformed shape of the diaphragm.

A device for manufacturing a stretchable substrate structure according to an embodiment includes a carrier substrate receiving portion configured to receive a carrier substrate therein, a stretchable substrate receiving portion configured to receive a stretchable substrate in a direction facing the carrier substrate, and a diaphragm configured to be deformed by air pressure provided on one surface, wherein the diaphragm comes in contact with an entire surface of the stretchable substrate in a plane direction when deformed, such that the stretchable substrate is combined to the carrier substrate by deforming according to the deformed shape of the diaphragm.

Powder including low molecular weight polytetrafluoroethylene having a melt viscosity of 1×10.sup.2 to 7×10.sup.5 Pa.Math.s at 380° C., having a melt viscosity of 1×10.sup.2 to 7×10.sup.5 Pa.Math.s at 380° C., having an average particle size of 1.0 to 50 μm, and containing 30 or more carboxyl groups at ends of the molecule chain per 10.sup.6 carbon atoms in the main chain, wherein the powder is substantially free from C8-C14 perfluorocarboxylic acids and salts thereof.

Powder including low molecular weight polytetrafluoroethylene having a melt viscosity of 1×10.sup.2 to 7×10.sup.5 Pa.Math.s at 380° C., having a melt viscosity of 1×10.sup.2 to 7×10.sup.5 Pa.Math.s at 380° C., having an average particle size of 1.0 to 50 μm, and containing 30 or more carboxyl groups at ends of the molecule chain per 10.sup.6 carbon atoms in the main chain, wherein the powder is substantially free from C8-C14 perfluorocarboxylic acids and salts thereof.