In addition, the formation of tobacco mud is decreased compared with conventional manufacturing methods. Accordingly, the want to gather and re-process tobacco mud is considerably lowered and the general efficiency of the manufacturing process is thus advantageously elevated. A tobacco minimize filler based on any one of the preceding claims, whereby the primary tobacco material is shredded into strips having a sinusoidal shape, wherein a wave length of the sinusoidal form is from about 1 mm to about 15 mm. A tobacco reduce filler based on any one of many previous claims, whereby the first tobacco material is shredded into strips from a sheet materials having a thickness from about 0.05 mm to about 1 mm. Table 2 below lists the values of CCV measured at a reference moisture value of 12.5 p.c oven volatiles for each sample.
Even more ideally, first tobacco material is shredded into strips having a minimize size of a minimal of about 15 mm. In addition, or in its place, the primary tobacco materials is ideally shredded into strips having a cut length of less than about 60 mm. More preferably, the primary tobacco materials is shredded into strips having a reduce length of less than about 50 mm. Even more preferably, the first tobacco material is shredded into strips having a cut size of lower than about 40 mm. In most popular embodiments, the first tobacco materials is shredded into strips having a reduce length from about 5 mm to about 60 mm. The term “sectional cut width” is used in the current specification to describe the side- to-side width of one such portion of a minimize strip of tobacco materials.
Should one such particle break at a location in the central V-shaped portion, the 2 ensuing components of the particles would nonetheless be effectively V-shaped. The highest CCV values have been obtained for cut specification no. three, which substantially corresponds to particles having a Y-shape. However, it was discovered that when particles had been produced from the same sheet of reconstituted tobacco in accordance with minimize specification no. three are produced, a big fraction of the tobacco material went to waste. These correspond to the shapes illustrated in Figures 9 and 10, respectively, for which the values of CCV listed within Filling cut tobacco the following Table three were measured. Tobacco reduce fillers in accordance with the present invention may be ready by a method comprising providing a first tobacco material and cutting the primary tobacco materials in accordance with a first reduce specification setting no less than predetermined first cut width and first cut length. Tobacco reduce filler in accordance with the current invention could also be integrated into a variety of smoking articles.
More ideally, the first tobacco materials is shredded into strips having a reduce width of lower than about 0.ninety five mm. Even more ideally, the first tobacco materials is shredded into strips having a reduce width of lower than about zero.9 mm. In preferred embodiments, the first tobacco material is shredded into strips having a minimize width from about zero.2 mm to about 1 mm. Preferably, the second tobacco material is a natural tobacco leaf material.
More ideally, the first tobacco material is shredded into strips having a cut width of a minimal of about 0.25 mm. Even more ideally, the primary tobacco material is shredded into strips having a cut width of a minimal of about zero.three mm. In addition, or as an alternative, the first tobacco materials is ideally shredded into strips having a minimize width of lower than about 1 mm.