A method of treating cut stem tobacco material by expanding the cut stem to provide a first expanded tobacco material having a fill value at least about 10% greater than the fill value of the untreated cut stem tobacco material; intermittently contacting the first expanded tobacco material with a heated surface to provide a second expanded tobacco material with a moisture content of from 0 to about 10% OV and a fill value at least 5% greater than the fill value of the first expanded tobacco material; and (c) adjusting the moisture content of the second expanded tobacco material from about 5% to about 30% OV to provide an expanded product, wherein the fill value of the expanded product is at least 50% greater than the fill value of the untreated cut stem tobacco material when measured at a normalized moisture content of 14.5% OV.

A method for increasing bulkiness of reconstituted tobacco by adding tobacco stem particles includes (1) pulverizing a first portion of tobacco stems to obtain tobacco stem particles; (2) classifying the tobacco stem particles with mesh sieves and selecting the tobacco stem particles with a predetermined mesh size; (3) extracting a second portion of the tobacco stems with water and grinding to form a tobacco stem slurry that has a beating degree of 12-14° SR, and mixing the tobacco stem slurry with tobacco leaves in a weight ratio of 6:4 and grinding to obtaining a tobacco slurry that has a beating degree of 18-20° SR; (4) cutting plant fiber pulp boards and dispersing in water to form a plant fiber pulp; (5) preparing a filler solution that contains 10 wt % of a mineral filler; (6) mixing, rolling and drying to obtain the reconstituted tobacco.

A method for increasing bulkiness of reconstituted tobacco by adding tobacco stem particles includes (1) pulverizing a first portion of tobacco stems to obtain tobacco stem particles; (2) classifying the tobacco stem particles with mesh sieves and selecting the tobacco stem particles with a predetermined mesh size; (3) extracting a second portion of the tobacco stems with water and grinding to form a tobacco stem slurry that has a beating degree of 12-14° SR, and mixing the tobacco stem slurry with tobacco leaves in a weight ratio of 6:4 and grinding to obtaining a tobacco slurry that has a beating degree of 18-20° SR; (4) cutting plant fiber pulp boards and dispersing in water to form a plant fiber pulp; (5) preparing a filler solution that contains 10 wt % of a mineral filler; (6) mixing, rolling and drying to obtain the reconstituted tobacco.

A storage apparatus, adapted for storage of one or more cannabis materials during terpene infusion, is provided. The storage apparatus has a bottom portion, a wall integrally formed to surround the bottom portion, and to extend upward from the bottom portion, a top portion, and a removable mesh shelf. The top portion is removable from the storage apparatus. Furthermore, the top portion is in contact with the wall during closure of the storage apparatus. The removable mesh shelf is configured to bifurcate the storage apparatus into a first chamber and a second chamber. The first chamber stores the one or more cannabis materials. Additionally, the second chamber stores a carrier medium for the terpene composition. The carrier medium emits an aroma from the terpene composition through the removable mesh to infuse the one or more cannabis materials with the aroma from the terpene composition.

A process is provided for the treatment of tobacco. The process comprises securing the tobacco within a moisture-retaining material and exposing the tobacco material to an ambient processing temperature of above 55° C., with the tobacco having a packing density of at least 200 kg/m.sup.3 on a dry matter weight base at the start of the process and a moisture content of between about 10% and 23%. The treated tobacco may have desirable organoleptic properties.

A process is provided for the treatment of tobacco. The process comprises securing the tobacco within a moisture-retaining material and exposing the tobacco material to an ambient processing temperature of above 55° C., with the tobacco having a packing density of at least 200 kg/m.sup.3 on a dry matter weight base at the start of the process and a moisture content of between about 10% and 23%. The treated tobacco may have desirable organoleptic properties.

The present disclosure describes a grinding apparatus preferably comprised of upper, central and lower bodies that are magnetically connected to one another. The central body is further comprised of cutting edges positioned on a center portion to cut and evacuate herbs. The upper body is comprised of outer grinding teeth that can cut and grind herbs trapped proximate an outer rim of the central body. Inner grinding teeth positioned on the upper body and having curved inner faces abut against a correspondingly cylindrical member of the central body to limit the radial play between the upper and central bodies during operation. A teeth or gear system is also disclosed to provide torque transfer and facilitate the connection between the central and lower bodies.

Provided herein are systems and methods for testing a heat-not-burn tobacco product. A heater carrier may be movable with respect to a tobacco product placement region and configured to heat a first end of a tobacco product located in the tobacco product placement region. A puffing simulator is configured to fluidically couple to a second end of the tobacco product. The puffing simulator is configured to draw air through the tobacco product thereby simulating a puff of the tobacco product. A thermocouple placement right is configured to selectively position one or more thermocouples in or along the tobacco product. A drill is configured to selectively drill one or more holes at positions within the tobacco product. The thermocouple(s) are positioned on or within the tobacco product and generate data corresponding to detected temperatures of the tobacco product as the puffing simulator simulates one or more puffs.

Example embodiments include a system for removing string from shredded tobacco, including an arrangement configured to dispense shredded tobacco from a first location to a second location along a path of communication, a string filter operative at a location along the path of communication comprising a first roller comprising pins, whereby string may be contacted by at least some of the pins and retained at the string filter as the shredded tobacco passes through the filter.

Example embodiments include a system for removing string from shredded tobacco, including an arrangement configured to dispense shredded tobacco from a first location to a second location along a path of communication, a string filter operative at a location along the path of communication comprising a first roller comprising pins, whereby string may be contacted by at least some of the pins and retained at the string filter as the shredded tobacco passes through the filter.