A spork structure includes a spoon body, a handle, and two outer serrated plates and at least an inner serrated plate arranged apart from one another at the front end of the spoon body. The inner serrated plate has a height difference portion, and the spork structure is integrally formed by pressing a plant fiber slurry, and the height difference portion is provided for enhancing the structural strength of the inner serrated plate, so that the spork structure has a better structural strength to pierce through food such as steaks, pork chops, vegetables, and fruits, and the spork structure is 100% decomposable naturally after being discarded, and thus having an environmental protection effect.

A spork structure includes a spoon body, a handle, and two outer serrated plates and at least an inner serrated plate arranged apart from one another at the front end of the spoon body. The inner serrated plate has a height difference portion, and the spork structure is integrally formed by pressing a plant fiber slurry, and the height difference portion is provided for enhancing the structural strength of the inner serrated plate, so that the spork structure has a better structural strength to pierce through food such as steaks, pork chops, vegetables, and fruits, and the spork structure is 100% decomposable naturally after being discarded, and thus having an environmental protection effect.

There is provided a use of a pulp mixture for forming a container in a mould, which pulp mixture comprises: 65-90%, such as 70-84%, by dry weight of a first pulp having a Schopper-Riegler (SR) number of below 48, preferably below 40, more preferably below 30; and 10-35%, such as 16-30%, by dry weight of a second pulp having a Schopper-Riegler (SR) number of 60-90, preferably 70-90, more preferably 77-90. A pulp mixture and a method of producing a pulp mixture are also provided.

A method for producing a hydrophobic element is disclosed and includes the following steps: a) preparing a mixture of water and an organic material from sustainably renewable resources, b) moulding the mixture prepared in step a) to obtain a moulded element, c) drying and densifying the moulded element obtained in step b) to obtain a dried and densified element-, and d) impregnating to the core the dried and densified element obtained in step c) with a binder composed of organic materials from sustainably renewable resources. A covering hydrophobic element containing more than 90%, and preferably more than 99%, of an organic material from sustainably renewable resources is also disclosed.

Contoured articles formed in a mold from a fiber slurry are provided. The articles comprise a blend of cellulose fibers and cellulose ester, such as cellulose ester staple fibers. The articles are suitable in a wide array of end uses, including as cups, lids, boxes or pouches, storage containers, trays, plates, food trays, cutlery, coffee cups, coffee cup lid, packaging, bowls, clam shells, bottle caps, straws, covers, and packaging inserts.

The present invention relates to a pulp-molded container structure and molding device and method thereof. The molding device comprises a first container molding die and a second container molding die. The first container molding die comprises a snap-fit molding part and a rim molding part, so that a snap-fit section of the pulp-molded container structure and a circular rim section at the edge of the pulp-molded container structure are formed when the first container molding die and the second container molding die are coupled with each other. The rim section and the snap-fit section are used to strengthen the combination of the pulp-molded container structure and an external container, so that the combination is more stable.

The present invention relates to a pulp-molded container structure and molding device and method thereof. The molding device comprises a first container molding die and a second container molding die. The first container molding die comprises a snap-fit molding part and a rim molding part, so that a snap-fit section of the pulp-molded container structure and a circular rim section at the edge of the pulp-molded container structure are formed when the first container molding die and the second container molding die are coupled with each other. The rim section and the snap-fit section are used to strengthen the combination of the pulp-molded container structure and an external container, so that the combination is more stable.

A molding tool for producing three-dimensional products from a fiber-containing material and a method for regulating a temperature distribution in a molding tool for producing three-dimensional products are described.

A molding tool for producing three-dimensional products from a fiber-containing material and a method for regulating a temperature distribution in a molding tool for producing three-dimensional products are described.

The disclosure relates to a method for producing a container comprising fibers by means of a controlled application head that applies material comprising the fibers to container positions. The disclosure further relates to a device, for example for carrying out the method, wherein the device comprises at least one controlled application head for applying material comprising the fibers to container positions.