Abstract: Provided is an organic-inorganic composite hydrogel precursor composition characterized by including a water-soluble organic monomer (A), a phosphonic acid-modified hectorite (B), cellulose nanofibers (C), water (D), and a solvent (E) having a volatility of 0.1 g or less per cm2·hr in an open system at 60° C., 1 atm (0.1 g/cm2·hr·60° C.·1 atm or less). The organic-inorganic composite hydrogel precursor composition has excellent storage stability and curability in water, exhibits little change in mass even under open-air conditions, makes it easy to obtain a hydrogel having excellent mechanical properties and, therefore, can be applied to various industrial uses such as at civil engineering work sites.

Abstract: Provided herein is a cellulose nanofiber-containing composition producing method for producing a cellulose nanofiber-containing composition that can be easily combined with compounds having a reactive double-bond group, and that contains only a small amount of uncured material that acts as a plasticizer in a molded product, using a simple producing method that does not require any process involving solvent displacement or solvent removal. A high-strength molded body prepared by using the cellulose nanofiber-containing composition is also provided. In refining cellulose in a mixture containing a compound having a reactive double-bond group and a hydroxyl group of 10 KOHmg/g or less and a defibrating resin as essential components, the cellulose has a moisture content of 4 to 25 parts by mass with respect to 100 parts by mass of the amount of the cellulose converted on the assumption that the percentage moisture of the cellulose is 0%.

Abstract: Provided herein is a cellulose nanofiber that can be easily combined with a compound having a reactive double-bond group and that can provide a molded article which contains only a small amount of an uncured material that acts as a plasticizer in a molded product, using a simple producing method that does not require any process involving solvent displacement or solvent removal. A high-strength resin composition or molded body prepared by using the cellulose nanofiber is also provided. In refining cellulose in the presence of a compound having a reactive double bond and a hydroxyl value of 200 KOHmg/g or more, the cellulose has a moisture content of 4 to 25 parts by mass with respect to 100 parts by mass of the amount of the cellulose converted on the assumption that the percentage moisture of the cellulose is 0%.

Abstract: Provided herein is a cellulose nanofiber that can be easily combined with a compound having a reactive double-bond group and that can provide a molded article which contains only a small amount of an uncured material that acts as a plasticizer in a molded product, using a simple producing method that does not require any process involving solvent displacement or solvent removal. A high-strength resin composition or molded body prepared by using the cellulose nanofiber is also provided. In refining cellulose in the presence of a compound having a reactive double bond and a hydroxyl value of 200 KOHmg/g or more, the cellulose has a moisture content of 4 to 25 parts by mass with respect to 100 parts by mass of the amount of the cellulose converted on the assumption that the percentage moisture of the cellulose is 0%.

Abstract: Provided herein is a cellulose nanofiber-containing composition producing method for producing a cellulose nanofiber-containing composition that can be easily combined with compounds having a reactive double-bond group, and that contains only a small amount of uncured material that acts as a plasticizer in a molded product, using a simple producing method that does not require any process involving solvent displacement or solvent removal. A high-strength molded body prepared by using the cellulose nanofiber-containing composition is also provided. In refining cellulose in a mixture containing a compound having a reactive double-bond group and a hydroxyl group of 10 KOHmg/g or less and a defibrating resin as essential components, the cellulose has a moisture content of 4 to 25 parts by mass with respect to 100 parts by mass of the amount of the cellulose converted on the assumption that the percentage moisture of the cellulose is 0%.

Abstract: An object of the present invention is to provide an air-drying polyester (meth)acrylate resin composition in a curing system of a ketone peroxide curing agent and a cobalt-based curing accelerator, the resin composition being used as a topcoat in the field of civil engineering and construction, and having such good properties as, when coated or stacked, being capable of forming a cured coating film with no bubbles remaining therein due to non-bubbling properties of suppressing the generation of bubbles in the course of the curing reaction and being free from problems related to room-temperature curability such as a retarded gelation time, even after being stored for about one month; a structure coated with the resin composition; and a method for applying the resin composition.