How Tobacco Sticks Are Constructed and Why They Cannot Be Reused

Core Components of a Tobacco Stick

A tobacco stick is a multilayer structure engineered to meet precise technical specifications for heated tobacco devices. Its length ranges from 44 to 46 mm, and its diameter is approximately 7.2–7.5 mm. These dimensions ensure a snug fit around the heating element and uniform heat transfer. Such tolerances are maintained across compatible brands, including HEETS, Terea, and Fiit — available, for example, at the online store Puff EU, which offers regular restocking and a wide product selection.

The internal structure consists of the following layers:

• Tobacco blend:finely ground tobacco leaves, steam-treated and impregnated with a mixture of glycerol, propylene glycol, and food-grade flavorings. The blend is compressed into a dense cylinder to ensure consistent aerosol generation during heating. Moisture content at production is 10–12 %.
• Cooling filter:a spirally twisted strip of cellulose. As aerosol passes through it, temperature drops from 300–350 °C to 40–60 °C. The filter’s structure is designed for single-use saturation — after heating, it partially deforms and loses permeability.
• Flavor capsule (optional):a microcapsule (2–3 mm in diameter) made of gelatin or a gelatin–glycerol compound, positioned between the filters. It ruptures on the first puff, delivering a burst of flavor. Once broken, it cannot be resealed or reused.
• Aerosol filter:composed of cellulose acetate, similar to conventional cigarette filters. It captures larger particles and stabilizes aerosol flow. After use, a thin layer of condensate and tobacco residue remains on its surface.
• Outer wrapper:a dual-layer heat-resistant paper — an inner kraft cellulose layer and an outer layer with water-repellent coating. This prevents cracking during heating and preserves the stick’s shape throughout the session.

All components are assembled on automated production lines with dimensional tolerances of ±0.3 mm in length and ±0.1 mm in diameter. This precision is required for reliable interaction with the device’s position and temperature sensors.

What Happens to the Stick During Heating

The device’s operating cycle begins with calibration — a brief warm-up to ~150 °C to assess the stick’s electrical resistance. Temperature then rises to the working range of 290–350 °C (depending on device model and mode). Heating is delivered either by a platinum-coated ceramic rod or via induction — in both cases, heat transfer occurs through direct contact.

During the session:

• The tobacco blend releases 70–80 % of its moisture and volatile compounds. The remainder remains bound within the fiber matrix and is unavailable for further evaporation.
• Glycerol and propylene glycol undergo partial thermal degradation, producing trace amounts of acetaldehyde and formaldehyde — well below limits specified in ISO 22841.
• The cooling filter partially fuses: cellulose molecules lose flexibility under heat and moisture, and pore size decreases.
• The flavor capsule melts and releases its contents within the first 10–15 seconds — after that, no further release is possible.

The average session lasts 5.5–6 minutes (14–16 puffs). The device ends the session automatically when aerosol generation rate falls below a critical threshold — typically when residual tobacco moisture drops below 3 %.

Why Reheating Is Not Possible

Reuse is technically impossible due to irreversible physical and chemical changes:

• Tobacco:after moisture loss and partial dehydration, fibers compress and sinter. Thermal conductivity increases, but the capacity to retain and release vapor sharply declines.
• Cooling filter:once saturated with condensate, its thermal conductivity rises while vapor permeability drops by 60–70 %. This leads to localized overheating at the heater interface.
• Device electronics:temperature and current sensors detect abnormal heating profiles — for example, rapid temperature rise without proportional aerosol output. The control algorithm terminates the session as a safety measure.

Even if a used stick is reinserted immediately, the device identifies it via residual heat and resistance signatures. Modern models (e.g., IQOS Iluma, lil SOLID) use contactless identification — reuse is blocked at the firmware level.

Risks of Attempting Reuse

Using a spent stick introduces operational and technical risks:

• To the device:excessive heat on the heating element may cause localized overheating, shortening its service life. In rare cases, carbonized tobacco residue adheres to the rod, requiring manual cleaning.
• To the user:forced activation may produce a brief burst of overheated air without aerosol, accompanied by a burnt odor. While not toxic, this reduces user comfort.
• To session quality:even a partially initiated session delivers less than 10 % of the nominal aerosol volume, with a simplified, predominantly bitter taste profile.

Manufacturers recommend discarding the stick immediately after use. Storing used sticks in the holder or device compartment may lead to contact contamination and compromise lid sealing.

How to Identify a Used Stick Visually and Tactilely

Experienced users can recognize a spent stick without powering on the device. Key indicators include:

• Tobacco column color:the original light brown darkens to deep brown or grayish-black, especially near the base where heater contact is strongest.
• Physical deformation:length reduces by 1–2 mm; diameter in the heated zone may locally increase by 0.2–0.3 mm due to cellulose filter swelling.
• Tactile feedback:the stick feels stiffer and less elastic when gently squeezed. Shaking produces no “loose” sound — fibers are immobilized by condensate and polymerized glycerol.
• Filter marks:condensate droplets are visible at the boundary between the cooling and aerosol filters. In mint-flavored sticks, green pigment may partially migrate into the cellulose.
• Residue on heater:a thin black mark often remains on the rod after extraction — carbon deposits, not “unheated” tobacco.

A freshly removed stick feels warm (45–55 °C) and slightly damp at the base. After 10–15 minutes, the surface dries, but internal changes remain irreversible.

Storage and Handling Recommendations

To maintain stick performance until first use, observe these conditions:

• Temperature:+5 °C to +30 °C. Above +40 °C, glycerol migrates toward the surface, disrupting uniform heating.
• Humidity:45–65 % relative humidity. Low humidity dries out the blend; high humidity causes the filter to absorb excess moisture, leading to premature session termination.
• Packaging:keep sticks in factory-sealed blister packs until use. After opening a pack, consume within 3 days at room temperature.

No pre-use preparation is required — sticks are ready immediately after removal from packaging. Shaking, refrigeration, or pre-warming do not extend session duration or enable reuse.