A shaped snack product having a substantially uniform thickness and an exposed surface area that is capable of receiving seasoning. Processes for making a shaped snack product include forming a shaped dough piece followed by intermediary steps that allow for slicing of the subsequently formed baked shaped piece producing at least two sliced pieces.

A shaped snack product having a substantially uniform thickness and an exposed surface area that is capable of receiving seasoning. Processes for making a shaped snack product include forming a shaped dough piece followed by intermediary steps that allow for slicing of the subsequently formed baked shaped piece producing at least two sliced pieces.

Provided herein are methods for producing an adzuki bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more adzuki bean proteins from an adzuki bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

Provided herein are methods for producing an adzuki bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more adzuki bean proteins from an adzuki bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

The method of baking bread disclosed herein provides a new super-thin tin bread, technology, and equipment for baking the super-thin bread. The thickness of such bread is roughly equal the thickness of pieces of bread cut off from a loaf of bread. Pieces of such bread have the same crust on all sides except one, and do not crumble. It is simple and quick to cook. Sandwiches prepared from the thin bread contain a minimum amount of bread. Super-thin bread bakes several times faster than a regular loaf of the same weight. This translates into sizeable savings as less electricity, fuel, and labor will be required. Cooling, freezing, defrosting and baking of super-thin bread to perfection will also become faster and more efficient. Super-thin bread can be quickly baked at home in specialized toasters and in mini-bakeries, in automatic lines.

The method of baking bread disclosed herein provides a new super-thin tin bread, technology, and equipment for baking the super-thin bread. The thickness of such bread is roughly equal the thickness of pieces of bread cut off from a loaf of bread. Pieces of such bread have the same crust on all sides except one, and do not crumble. It is simple and quick to cook. Sandwiches prepared from the thin bread contain a minimum amount of bread. Super-thin bread bakes several times faster than a regular loaf of the same weight. This translates into sizeable savings as less electricity, fuel, and labor will be required. Cooling, freezing, defrosting and baking of super-thin bread to perfection will also become faster and more efficient. Super-thin bread can be quickly baked at home in specialized toasters and in mini-bakeries, in automatic lines.

A confectionary mix may include: 20 to 60 mass % of a rice flour containing 40 mass % or more of a brown rice flour; and 10 to 50 mass % of a processed starch. The processed starch may be one or more of a crosslinked starch, an etherified crosslinked starch, and an acetylated starch. A method for producing a confectionary may include preparing a dough using the confectionary mix.

A producing method for a dough for food in which a filling is wrapped with a dough sheet. The producing method includes the steps of: a) thinly extending and baking a dough liquid so as to prepare a thin baked dough; b) winding the thin baked dough around a mold member narrowed toward a tip; c) freezing the thin baked dough wound around the mold member so as to prepare a three-dimensional dough hardened in a manner wound around the mold member; and d) detaching the mold member from the three-dimensional dough. The method can speedily provide food in which a filling is wrapped with a dough sheet such as a crepe.

A producing method for a dough for food in which a filling is wrapped with a dough sheet. The producing method includes the steps of: a) thinly extending and baking a dough liquid so as to prepare a thin baked dough; b) winding the thin baked dough around a mold member narrowed toward a tip; c) freezing the thin baked dough wound around the mold member so as to prepare a three-dimensional dough hardened in a manner wound around the mold member; and d) detaching the mold member from the three-dimensional dough. The method can speedily provide food in which a filling is wrapped with a dough sheet such as a crepe.

Methods for creating self-folding materials that change shape in response to grooves created in the surface of the materials and when exposed to a stimuli. A tailored computational design tool, digital fabrication platform and mold for use with the methods also are provided.