Disclosed is to a process for manufacturing a cheese product whose fat content is less than or equal to 5% by weight relative to the total weight of the cheese product, having a moisture of the fat-reduced cheese product of 60 to 75% by weight of the total weight of the cheese product. Also disclosed is a cheese product having a moisture of the fat-reduced cheese product of 60 to 75% of the total weight of the cheese product and including at least one protein material in an amount sufficient for the protein content to represent 10 to 35%, the material protein including at least one protein material of dairy origin, at most 5% of fat and supplemental water up to 100%.

A method of producing cheese, more particularly to a method for producing pierced cheese, and more particularly to a method for producing pierced cheese for slicing.

Disclosed herein is a method for producing a package of cheese shreds. Cheese shreds and anticaking agent are mixed at a load between 2 wt. % and 10 wt. % in relation to the cheese shreds to form anticake-coated cheese shreds. The anticaking agent comprises 15-30 wt. % reducing sugar; 0.2-0.8 wt. % glucose oxidase; and 0.5-2 wt. % salt chosen from sodium chloride, calcium chloride, and magnesium chloride. The anticake-coated cheese shreds are then sealed into a package without modifying the atmosphere in the package or using an inert gas flush.

The invention relates to a method for preparing a partially cooked cheese product, as well as the partially cooked cheese product itself. The method appears applies specific times and temperatures to produce a pliable, carbohydrate free cheese product, which is free of carbohydrates. The product can be used, for example, as a carbohydrate free all cheese bread substitute in sandwich wraps or other applications.'

The present invention concerns the field of processed cheese compositions, and, more particularly, relates to reduced salt processed cheese compositions. The present invention derives from the surprising finding that potassium lactate can be used in the manufacture of processed cheese compositions with reduced sodium content, without detrimental consequences on the taste of the final product. A processed cheese composition according to the invention imparts to the final product an improved flavour perception, as well as strengthening salty, savoury and cheesy taste. An additional surprising finding of the method of the invention is that the use of potassium lactate according to the invention has beneficial consequences on the safety and shelf life of the final product. The use of potassium lactate, in particular potassium lactate in the form of a fermentation product in accordance with the invention, also obviates the need to incorporate artificial flavorings and flavor enhancers, which results in a product with an improved label.

The invention provides natural cheese and a method for making natural cheese with specific texture attributes.

A method for accumulating cheese milk from which to make natural cheese. The method includes the steps of creating a first stream of concentrated acidified milk, creating a second stream of re-blended acidified milk, creating a third stream of cream, and creating a fourth stream of homogenized milk. The four streams are combined to produce an accumulated cheese milk from which to make the natural cheese.

The invention herein relates to a very effective compound and method of use for a seamless lamination between cooled surfaces of multiple layers of pasta filata cheese wherein the end result between said laminated cooled surfaces is a continuous mass of cheese with a consistent and non-perceptible change in texture between the cheese ribbons at the location of lamination. The results from this process are a visibly consistent protein structure and cheese mass texture throughout and between the cheese ribbons and the location of lamination.

A method for puffing natural cheese includes the following steps of: step 1: subjecting a natural cheese to a physical pretreatment to form a target shape; step 2: placing the natural cheese after physical pretreatment into a bearing plate; step 3: sending the natural cheese placed in the bearing plate into a puffing cavity of a puffing equipment; step 4: setting multiple puffing process parameters for the puffing equipment; step 5: providing an electromagnetic energy by the puffing equipment to perform a puffing process on the natural cheese; and step 6: producing a puffed product after the puffing process is completed. A puffed product of natural cheese uses the process disclosed above. The technology of the method and the puffed product has great market potential for the puffed food production of natural cheese.

Food products including artificial eyes or eye voids interspersed throughout the product are provided by forming a visco-elastic mass of the food product and combining pieces of solidified carbon dioxide with the visco-elastic mass. The solidified carbon dioxide sublimes throughout the visco-elastic mass and forms carbon dioxide gas. The carbon dioxide gas expands and forms eye voids nearly instantaneously and the fully formed eye voids are provided in the food product in a matter of hours. In addition, gaseous carbon dioxide stored under pressure, such as through encapsulation or in a pressurized vessel, is combined with a visco-elastic mass and the released carbon dioxide gas expands and forms eye voids defined within the visco-elastic mass.