The present invention relates to a ternary mixture consisting of at least one homopolymer or copolymer of (meth)acrylic acid, partially or completely neutralized with sodium, with potassium, with lithium and/or with an amine, at least one solution of silicate or metasilicate chosen from the group consisting of a sodium silicate of formula Na.sub.2O.nSiO.sub.2 (with n varying between 1 and 4), sodium metasilicate Na.sub.2SiO.sub.3, a potassium silicate K.sub.2O.nSiO.sub.2 (with n varying between 1 and 4), potassium metasilicate K.sub.2SiO.sub.3 and a mixture of these compounds, and at least one base, as dispersion and/or grinding aid agents of kaolin in aqueous suspension.

The present invention relates to a ternary mixture consisting of at least one homopolymer or copolymer of (meth)acrylic acid, partially or completely neutralized with sodium, with potassium, with lithium and/or with an amine, at least one solution of silicate or metasilicate chosen from the group consisting of a sodium silicate of formula Na.sub.2O.nSiO.sub.2 (with n varying between 1 and 4), sodium metasilicate Na.sub.2SiO.sub.3, a potassium silicate K.sub.2O.nSiO.sub.2 (with n varying between 1 and 4), potassium metasilicate K.sub.2SiO.sub.3 and a mixture of these compounds, and at least one base, as dispersion and/or grinding aid agents of kaolin in aqueous suspension.

A modified nanocomposite material is provided, which includes an inorganic filler, a silicon dioxide, and a polymer matrix, in which the silicon dioxide is binding with a hydroxyl bond of the inorganic filler to form a silicon dioxide-inorganic filler, and the polymer matrix is dispersed over the silicon dioxide-inorganic filler. Another modified nanocomposite material is further provided, which includes an inorganic filler, a silicon dioxide, and a polymer matrix, in which the silicon dioxide is binding with a hydroxyl bond of the inorganic filler to form a silicon dioxide-inorganic filler, the organic modifier is associated with the silicon dioxide-inorganic filler and the polymer matrix is dispersed over the silicon dioxide-inorganic filler and the organic modifier.

A modified nanocomposite material is provided, which includes an inorganic filler, a silicon dioxide, and a polymer matrix, in which the silicon dioxide is binding with a hydroxyl bond of the inorganic filler to form a silicon dioxide-inorganic filler, and the polymer matrix is dispersed over the silicon dioxide-inorganic filler. Another modified nanocomposite material is further provided, which includes an inorganic filler, a silicon dioxide, and a polymer matrix, in which the silicon dioxide is binding with a hydroxyl bond of the inorganic filler to form a silicon dioxide-inorganic filler, the organic modifier is associated with the silicon dioxide-inorganic filler and the polymer matrix is dispersed over the silicon dioxide-inorganic filler and the organic modifier.

The purpose of the present invention is to provide a composite pigment which can be dispersed and made into paint in a manner that saves labor compared with conventional flat emulsion paints, and which can achieve concealing properties and low glossiness (a luster reduction effect) without separately adding a matting agent. This composite pigment contains an inorganic compound and/or an organic compound, and a fixed extender pigment.

The purpose of the present invention is to provide a composite pigment which can be dispersed and made into paint in a manner that saves labor compared with conventional flat emulsion paints, and which can achieve concealing properties and low glossiness (a luster reduction effect) without separately adding a matting agent. This composite pigment contains an inorganic compound and/or an organic compound, and a fixed extender pigment.

The invention discloses a method of producing a filler composition to be used in paper or board production, said method comprising providing a suspension comprising calcium hydroxide and performing carbonation of the calcium hydroxide to form precipitated calcium carbonate (PCC). The invention is characterized in that starch and/or carboxy methyl cellulose (CMC) is added to the suspension during said carbonation of calcium hydroxide. The method of the invention enables an increased filler content in paper or paperboard without substantially increasing the dusting tendency or decreasing the strength of the paper or board.

To provide a powder coating material capable of forming a film excellent in metallic hue, concealing property and weather resistance. The powder coating material comprises the following fluororesin (A), the following resin (B) and the following pigment (C) as constituents thereof, wherein the content of the pigment (C) is from 0.7 to 23 mass %; Fluororesin (A): a fluororesin having a fluorine content of at least 10 mass %; Resin (B): a resin having a SP value larger than that of the fluororesin (A), and the difference between the SP value thereof and the SP value of the fluororesin (A) is at least 0.4 (J/cm.sup.3).sup.1/2; Pigment (C): a pigment which is a metallic pigment covered with a covering material, and the SP value of the covering material exceeds the SP value of the fluororesin (A) and less than the SP value of the resin (B).

The present invention relates to a method of forming a cured conductive binder material, to a method of forming a curable binder formulation, to a curable binder formulation, to a cured conductive binder material and to an electrochemical cell. In one embodiment, the method of forming a cured conductive binder material includes the steps of: (i) providing a liquid formulation comprising a liquid carrier, at least one active material, at least one polymeric binder and at least one modified metal coordination complex; and (ii) curing the liquid formulation of step (i), to thereby form a cured conductive binder material.

The present invention relates to a method of forming a cured conductive binder material, to a method of forming a curable binder formulation, to a curable binder formulation, to a cured conductive binder material and to an electrochemical cell. In one embodiment, the method of forming a cured conductive binder material includes the steps of: (i) providing a liquid formulation comprising a liquid carrier, at least one active material, at least one polymeric binder and at least one modified metal coordination complex; and (ii) curing the liquid formulation of step (i), to thereby form a cured conductive binder material.