The present invention relates generally to the field of recyclable dosing devices. In particular, the present invention relates to a dosing device made from moulded pulp fiber. The dosing device comprises a container member with a defined volume corresponding to a pre-determined amount of composition to be dosed. The dosing device may be to be used for dosing food materials. Embodiments of the present invention relate to biodegradable and/or compostable dosing devices. The present invention also relates to process for manufacturing such a dosing device.

The present invention relates generally to the field of recyclable dosing devices. In particular, the present invention relates to a dosing device made from moulded pulp fiber. The dosing device comprises a container member with a defined volume corresponding to a pre-determined amount of composition to be dosed. The dosing device may be to be used for dosing food materials. Embodiments of the present invention relate to biodegradable and/or compostable dosing devices. The present invention also relates to process for manufacturing such a dosing device.

A tool for a thermoforming process to form a moulded product from wet pulp fibre material includes two or more moulds each having a moulding surface, an actuator assembly, and a fluid extraction system. At least one of the moulds is displaceable by the actuator assembly between first and second positions and has fluid extraction paths extending through the mould to transport fluid away from the moulding surface. One of the moulds has a first layer that is substantially rigid to form a support member and is in communication with a heating subsystem of the fluid extraction system, and a second layer that is, in use of the tool, between the first layer and the wet pulp fibre material. The second layer is formed of a material that has interconnected internal voids forming part of the fluid extraction paths and has a lower heat transfer coefficient than the first layer.

A tool for a thermoforming process to form a moulded product from wet pulp fibre material includes two or more moulds each having a moulding surface, an actuator assembly, and a fluid extraction system. At least one of the moulds is displaceable by the actuator assembly between first and second positions and has fluid extraction paths extending through the mould to transport fluid away from the moulding surface. One of the moulds has a first layer that is substantially rigid to form a support member and is in communication with a heating subsystem of the fluid extraction system, and a second layer that is, in use of the tool, between the first layer and the wet pulp fibre material. The second layer is formed of a material that has interconnected internal voids forming part of the fluid extraction paths and has a lower heat transfer coefficient than the first layer.

A method of manufacturing a cellulose nanofiber compact includes a supporting step of supporting a plate-like first precursor containing cellulose nanofibers in a heating vessel, a preliminary molding step of heating the first precursor supported in the heating vessel with infrared rays to obtain a plate-like second precursor and a molding step of molding the second precursor, with heating and pressurizing the second precursor in a mold.

The present disclosure relates to a first molding station (1) for the partial-moulding (210) and pre-molding (220) of molded parts (10) made of fibrous material, a fiber molding system (100) with such a first molding station (1) and a method (200) for operating this first molding station (1) or the fiber moulding system (100), and a molded part (10) produced using such a method.

In a particular implementation, a method of pulp product manufacture includes spraying a surface enhanced pulp fiber (SEPF) coating on at least a portion of a molded pulp product, the SEPF coating comprising SEPF having a length weighted average fiber length that is at least 0.20 millimeters (mm) and an average hydrodynamic specific surface area that is at least 10 square meters per gram (m.sup.2/g).

In a particular implementation, a method of pulp product manufacture includes spraying a surface enhanced pulp fiber (SEPF) coating on at least a portion of a molded pulp product, the SEPF coating comprising SEPF having a length weighted average fiber length that is at least 0.20 millimeters (mm) and an average hydrodynamic specific surface area that is at least 10 square meters per gram (m.sup.2/g).

The present invention relates to a method for producing a moulded pulp material that is suitable for manufacturing of a packaging unit and such packaging unit. The method of the invention comprises the steps of: - preparing a raw moulded pulp material; - providing the raw moulded pulp material to an extruder; - extruding the raw moulded pulp material; - adding one or more additives; and - providing the moulded pulp material at the outlet of the extruder.

The present invention relates to a method for producing a moulded pulp material that is suitable for manufacturing of a packaging unit and such packaging unit. The method of the invention comprises the steps of: - preparing a raw moulded pulp material; - providing the raw moulded pulp material to an extruder; - extruding the raw moulded pulp material; - adding one or more additives; and - providing the moulded pulp material at the outlet of the extruder.