The invention relates to a method of manufacturing a frozen confection comprising providing a frozen confection to be coated, providing a liquid coating composition which comprises less than 25% of saturated fatty acids and which solidifies in a two-step crystallization at a temperature of −15° C., at least partly coating the frozen confection, letting the coating composition perform a first crystallization event, and letting the at least partly coated frozen confection perform a second crystallization event. The invention also relates to a at least partly coated frozen confection obtained by this method of manufacturing.

The present invention relates generally to the field of aerated fat-based confectionery material. One aspect of the invention provides an aerated fat-based confectionery material having a continuous lipid phase and a porosity of between 1 and 80%, wherein, at a temperature at which the lipid phase has a solid lipid content between 0.1 and 80, the fat-based confectionery material comprises gas bubbles having at least 50% of their surface occupied by crystals, the crystals comprising a glyceride selected from the group consisting of monoglycerides, diglycerides, triglycerides, esters of monoglycerides, esters of diglycerides and combinations of these. Further aspects of the invention are a confectionery product comprising an aerated fat-based confectionery material and a process for forming an aerated fat-based confectionery material.

The present invention relates generally to the field of aerated fat-based confectionery material. One aspect of the invention provides an aerated fat-based confectionery material having a continuous lipid phase and a porosity of between 1 and 80%, wherein, at a temperature at which the lipid phase has a solid lipid content between 0.1 and 80, the fat-based confectionery material comprises gas bubbles having at least 50% of their surface occupied by crystals, the crystals comprising a glyceride selected from the group consisting of monoglycerides, diglycerides, triglycerides, esters of monoglycerides, esters of diglycerides and combinations of these. Further aspects of the invention are a confectionery product comprising an aerated fat-based confectionery material and a process for forming an aerated fat-based confectionery material.

A method of applying thin layers of a peanut butter and a molten chocolate onto a frozen food product, in some instances fruit, that is at temperatures below 0° C. in such a way that reduces free oil migration out of the peanut butter and prevents discoloration and brittleness of the applied chocolate.

Products and associated methods relate to a confectionery item having a boundary layer configured to prevent spun sugar of the confectionery item from breaking down. In an illustrative example, a confectionery item may include a frozen food core, a boundary layer configured to wrap the frozen food core, and a spun sugar layer configured to surround the boundary layer. In some embodiments, the boundary layer may be pliable at room temperature and hard at freezing temperatures. By adding the boundary layer, the frozen food core may, in some embodiments, not dissolve (e.g., “burn” or “eat” through) the spun sugar.

Edible colorant compositions containing a monoacylated anthocyanin of Compound I and methods of use are provided. The colorant compositions include at least the monoacylated anthocyanin colorant of Compound I extracted from red cabbage and a metal ion, and have a pH from about 6.0 to about 8.0. The colorant compositions can be derived from a non-artificial product and provide a stable, blue colorant that can be used in food products. Specifically, the monoacylated anthocyanin colorant provides color characteristics similar to those provided by the artificial blue colorant, FD&C Blue No. 1.

A food product comprises an oligosaccharide composition that is digestion resistant or slowly digestible. The oligosaccharide composition can be produced by a process that comprises producing an aqueous composition that comprises at least one oligosaccharide and at least one monosaccharide by saccharification of starch, membrane filtering the aqueous composition to form a monosaccharide-rich stream and an oligosaccharide-rich stream, and recovering the oligosaccharide-rich stream. Alternatively, the oligosaccharide composition can be produced by a process that comprises heating an aqueous feed composition that comprises at least one monosaccharide or linear saccharide oligomer, and that has a solids concentration of at least about 70% by weight, to a temperature of at least about 40° C., and contacting the feed composition with at least one catalyst that accelerates the rate of cleavage or formation of glucosyl bonds for a time sufficient to cause formation of non-linear saccharide oligomers, wherein a product composition is produced that contains a higher concentration of non-linear saccharide oligomers than linear saccharide oligomers.

A food product comprises an oligosaccharide composition that is digestion resistant or slowly digestible. The oligosaccharide composition can be produced by a process that comprises producing an aqueous composition that comprises at least one oligosaccharide and at least one monosaccharide by saccharification of starch, membrane filtering the aqueous composition to form a monosaccharide-rich stream and an oligosaccharide-rich stream, and recovering the oligosaccharide-rich stream. Alternatively, the oligosaccharide composition can be produced by a process that comprises heating an aqueous feed composition that comprises at least one monosaccharide or linear saccharide oligomer, and that has a solids concentration of at least about 70% by weight, to a temperature of at least about 40° C., and contacting the feed composition with at least one catalyst that accelerates the rate of cleavage or formation of glucosyl bonds for a time sufficient to cause formation of non-linear saccharide oligomers, wherein a product composition is produced that contains a higher concentration of non-linear saccharide oligomers than linear saccharide oligomers.

A composition for coating a frozen confectionary includes a fat blend containing (i) an emulsifier that is preferably lecithin, (ii) at least one hardening fat that is preferably one or more of palm oil, palm oil mid fractions, or palm oil softfractions, (iii) one or more soft oils that preferably include canola oil, and (iv) anhydrous milk fat. The coating composition also includes flour and sugars. The composition has a particle size of about 40 .Math.m to about 200 .Math.m, preferably about 90 .Math.m to about 120 .Math.m, and has the sensory characteristics, such as appearance, flavor and texture, of raw cookie dough. Optionally the composition further includes one or more of milk powder, salt or flavor. Preferably the frozen confectionary coated by the composition is an ice cream bar.

The present disclosure provides cold dessert comprising a frozen edible composition and an oil combined with the frozen composition, wherein the cold dessert has an outer surface. Various methods of making the cold dessert are also provided.