Abstract: A meat analogue may include a set protein emulsion, the protein emulsion having a protein and at least one insoluble particle. In some embodiments, at least a portion of the particle can include at least one mineral material selected from the group consisting of silicium, and calcium, such as one or more of rhombohedral calcite, scalenohedral calcite, silicon dioxide, and magnesium oxide; at least one organic material selected from the group consisting of a bone meal, a cartilage meal, a ground crustacean shell, a ground sea fish shell, and a ground egg shell; and/or a gelled vegetable gum, a gelled hydrocolloid, a polymerized vegetable gum, a polymerized hydrocolloid, or a mixture thereof. The meat analogue can be made by extruding the protein emulsion and cooling the extruded emulsion. The meat analogue can be cut into chunks and/or added to another comestible composition such as a gravy or broth.

Abstract: A meat analogue may include a macrostructure of connected sheared fibers oriented parallel to one another and gaps positioned between the sheared fibers. The macrostructure may include meat and may include a vegetable protein. An extrusion system may include an extruder and a die. The extrusion system may produce a meat analogue. A meat analogue may include an animal protein. The extruder may be connectable to the die. The extrusion system may be configured to direct a material including an animal protein from the extruder to the die and through a fluid path extending through the die. The die may be configured to inject a fat or a fat analogue into the material such that the fat or the fat analogue is embedded but visually distinct from the material including the animal protein when the fat or the fat analogue and the material exit the die.

Abstract: A meat analogue may include a macrostructure of connected sheared fibers oriented parallel to one another and gaps positioned between the sheared fibers. The macrostructure may include meat and may include a vegetable protein. An extrusion system may include an extruder and a die. The extrusion system may produce a meat analogue. A meat analogue may include an animal protein. The extruder may be connectable to the die. The extrusion system may be configured to direct a material including an animal protein from the extruder to the die and through a fluid path extending through the die. The die may be configured to inject a fat or a fat analogue into the material such that the fat or the fat analogue is embedded but visually distinct from the material including the animal protein when the fat or the fat analogue and the material exit the die.

Abstract: A meat analogue may include a macrostructure of connected sheared fibers oriented parallel to one another and gaps positioned between the sheared fibers. The macrostructure may not include meat and may include a vegetable protein. An extrusion system may include an extruder and a die. The extrusion system may produce a meat analogue. A meat analogue may include a plant protein. The extruder may be connectable to the die. The extrusion system may be configured to direct a material including a vegetable protein from the extruder to the die and through a fluid path extending through the die. The die may be configured to inject a fat or a fat analogue into the material such that the fat or the fat analogue is embedded but visually distinct from the material including the vegetable protein when the fat or the fat analogue and the material exit the die.

Abstract: A meat analogue may include a set protein emulsion, the protein emulsion having a protein and at least one insoluble particle. In some embodiments, at least a portion of the particle can include at least one mineral material selected from the group consisting of silicium, and calcium, such as one or more of rhombohedral calcite, scalenohedral calcite, silicon dioxide, and magnesium oxide; at least one organic material selected from the group consisting of a bone meal, a cartilage meal, a ground crustacean shell, a ground sea fish shell, and a ground egg shell; and/or a gelled vegetable gum, a gelled hydrocolloid, a polymerized vegetable gum, a polymerized hydrocolloid, or a mixture thereof. The meat analogue can be made by extruding the protein emulsion and cooling the extruded emulsion. The meat analogue can be cut into chunks and/or added to another comestible composition such as a gravy or broth.

Abstract: A meat analogue may include a macrostructure of connected sheared fibers oriented parallel to one another and gaps positioned between the sheared fibers. The macrostructure may include meat and may include a vegetable protein. An extrusion system may include an extruder and a die. The extrusion system may produce a meat analogue. A meat analogue may include an animal protein. The extruder may be connectable to the die. The extrusion system may be configured to direct a material including an animal protein from the extruder to the die and through a fluid path extending through the die. The die may be configured to inject a fat or a fat analogue into the material such that the fat or the fat analogue is embedded but visually distinct from the material including the animal protein when the fat or the fat analogue and the material exit the die.

Abstract: The invention relates to a method for preparing natural fibre-based composite materials containing natural binders and powdery proteins, comprising the following steps; adding a powdery protein adhesive binder to natural fibres having a moisture content of 1 15%; mixing the natural fibres together with the powdery protein adhesive; adjusting the moisture content of the composition to 6 24% w/w; and submitting the mixture to a heat pressure treatment to form the natural fibre-based material.

Abstract: The invention relates to a method for preparing natural fibre-based composite materials containing natural binders and powdery proteins, comprising the following steps; adding a powdery protein adhesive binder to natural fibres having a moisture content of 1 15%; mixing the natural fibres together with the powdery protein adhesive; adjusting the moisture content of the composition to 6 24% w/w; and submitting the mixture to a heat pressure treatment to form the natural fibre-based material.