★★★★★
It's an ideal environment and situation!
In Tbilisi, Georgia, from June through September a car left in the sun for an hour turns into an oven. Cabin temperatures reach 55-60°C, the steering wheel scalds fingers, leather seats are impossible to touch. The driver's first thought — go darker on the film. The next discovery: films come in two fundamentally different types. Ordinary dyed film blocks visible light; athermal film blocks infrared (IR) radiation. The difference is not style or percentage but physics. Below: why athermal genuinely lowers cabin temperature, why plain dark film often creates only the illusion of cooling, how to measure the difference in your own car, and when paying more for ceramic film pays back.
Why cabin heat is not light — it's infrared
Sunlight is a mix of three radiation types: ultraviolet (UV), visible light and infrared (IR). Energy split is roughly: UV — 5% (causes interior fade and skin tan), visible light — 43% (what we see), IR — 52% (what we feel as heat).
That split is the key. When the sun heats the cabin, most of the energy enters not as visible light but as IR. A film that only blocks visible light (like ordinary dyed black) lets well over half of the sun's heat straight through. The car is darker — but just as hot.
Athermal film works differently. Inside it are layers that reflect or absorb IR while leaving visible light alone. The film looks light or clear, but blocks up to 90-98% of heat depending on type. Meaning: you see the cabin as if there was no film, but feel temperatures 5-8°C lower after parking in the sun.
How ordinary "black" film works
Classic budget tint is a dyed polyester polymer — a dark pigment dissolved in the film. The physics is straightforward: the pigment absorbs part of the visible light, less light reaches the cabin, the interior is darker.
The mechanism has a limit. Dye is wavelength-specific to visible light — it absorbs 380-780 nm. IR (780-1000 nm and beyond) passes through almost unimpeded because the dye molecules are transparent to IR. Worse: part of the energy absorbed by the dye turns into heat — the black film itself warms up and radiates that heat into the cabin.
Bottom line for Tbilisi: a black 20% VLT film drops cabin temperature by 2-4°C versus an untinted car. Noticeable but not dramatic — 50°C in July instead of 55°C. For anyone chasing a truly cool cabin, that is not enough.
How athermal film works
Athermal is a general label for films that block IR. Three main technologies inside the category:
Metallised films. An ultra-thin layer of aluminium, silver or copper (sub-micron thickness) vapour-deposited between polymer layers. The metal reflects IR like a mirror, stopping it at the surface. These films often have a slight mirror sheen in sunlight — that is the metal layer. IR blocking — up to 60-70%.
Ceramic films. Instead of metal, ceramic nanocrystals (titanium, silicon, cerium oxides) embedded in the polymer. Rather than reflecting, they absorb IR and scatter it back. Ceramic films do not mirror, look visually standard, and block up to 90-98% of IR. The most advanced type on the market.
Hybrid films. A combination of ceramic particles and a thin metal layer. Performance sits between the two — 80-90% IR blocking, moderate price.
The big advantage of athermal over black film: you can pick any VLT (from clear 85% down to dark 20%) and the heat rejection stays the same — it is defined by the ceramic or metal, not the dye. A light athermal at 75% blocks heat better than a dark dyed 20%.
A practical test: cabin temperature in Tbilisi, July
A real check — a thermometer in the cabin after an hour in the sun under typical Tbilisi conditions. Sedan-class car, black bodywork, open-sky parking, outside air 34°C, direct sun from 13:00 to 14:00.
Results across configurations:
- No tint — cabin air 58°C, steering wheel 72°C, seat 63°C. Cannot touch the wheel without a glove.
- Black 20% on rears, fronts clear — air 54°C, wheel 70°C. Almost no difference, because the main heat gain comes through the windshield and front sides.
- Black 20% rear, black 70% front (legal) — air 52°C, wheel 68°C. 6°C off the untinted baseline, but still hot.
- Athermal 70% on every window — air 48°C, wheel 58°C. 10°C off the baseline — a real drop.
- Ceramic athermal 70% on every window — air 46°C, wheel 55°C. 12°C off the baseline — the climate control reaches comfort mode faster.
Worst to best: 12°C of air and 17°C on the wheel. Not a rounding error — ceramic athermal across the whole car makes July midday driving genuinely comfortable, while plain black 20% just creates an illusion of protection.
When athermal is worth the money, and when it is not
Ceramic athermal costs 1.5-2x more than a standard dyed film per set. When is that justified?
Worth it:
- Car sits in open sun most of the day (office lot, uncovered yard)
- Driver or passengers with kids — cabin temperature matters from minute one
- Leather or Alcantara interior — high heat damages materials (leather dries out, plastic fades)
- Frequent drives outside Tbilisi, Georgia — long trips with AC running; fuel savings from lighter compressor load
- A premium-class car — protecting the interior from UV fade (athermal blocks 99% UV vs 50-70% for dyed) justifies the cost
Not worth or borderline:
- Car lives in a garage or under a cover — little direct sun
- Short city trips with AC running — AC cools the cabin in 2-3 minutes regardless of film
- Tight budget, privacy is the main goal — plain 20% black on rears with clear fronts handles it
Full comparison table
Summing up, the two types side by side:
| Parameter | Dyed black | Ceramic athermal |
|---|---|---|
| Visible light reduction | Yes (by VLT) | Optional (VLT chosen separately) |
| UV blocking | 50-70% | 99% |
| IR blocking (heat) | 10-20% | 90-98% |
| Real temperature drop | 2-4°C | 5-8°C |
| Service life | 2-5 yr (budget), 10 yr (premium) | 10-12 years |
| Colour stability | Medium (can purple) | High |
| Exterior mirror look | None | Mild (metallised only) |
| Electronics compatibility | Full | Ceramic — full; metallised can interfere with GPS/radio |
The last row matters for modern cars. Metallised films can shield GPS, radio or Bluetooth antennas — especially ones integrated into the rear glass. Ceramic films cause no interference because ceramic is a dielectric. If the car has glass-integrated antennas, go ceramic.
What BESTAUTO installs
The studio works only with LLumar and LuxArmor — two premium brands with athermal lines. LLumar offers both metallised (Formula One series) and purely ceramic (IR series) options. LuxArmor runs fully ceramic films with up to 98% IR blocking.
BESTAUTO pricing starts at 130 ₾ for rear sides, 160 ₾ for the rear window, 290 ₾ for the windshield. Ceramic athermal across the whole car runs 40-60% above plain dyed, but that premium is exactly what delivers the real temperature drop rather than just a visual effect. The final figure is set at inspection depending on film type and number of panels. Full pricing on the window tinting service page.
FAQ
How is athermal film different from regular tint?
Regular film blocks visible light via dye — the cabin gets darker, but the IR spectrum (heat) passes through. Athermal film blocks IR via ceramic nanocrystals or a metallised layer — heat is cut regardless of film colour. You can buy clear athermal (VLT 85%) that visually does not tint the glass, yet drops cabin temperature by 5-8°C.
How much cooler will the cabin actually be?
Against an untinted car — 8-12°C lower air temperature and up to 17°C lower surface temperature (wheel, dash) after an hour in the sun. Against a standard black film — 4-6°C lower. The difference is felt from the first minute of driving, before the AC reaches working mode.
Is athermal legal in Georgia?
Depends on the film's VLT. 70% VLT and above — legal on every window, including the windshield and front sides. Below 70% — like any film, illegal on the front group, legal on the rear. Athermal properties do not affect legality — inspectors only look at visible light transmission.
Is there a clear athermal?
Yes, and it is the most popular front-group option in Georgia. VLT 85-90%, visually almost indistinguishable from untinted glass, but blocks 90%+ of IR. Price — above plain dyed, below dark ceramic.
How long does athermal last?
A quality ceramic athermal from LLumar or LuxArmor lasts 10-12 years without performance loss. Same lifespan as a premium non-athermal. The 40-60% price premium over non-athermal from the same brand is paid back not through lifespan but through daily comfort and interior UV protection.
Conclusion
Black film and athermal film solve different problems. Black provides privacy and blocks visible light — cabin is darker, heat is still inside. Athermal blocks IR — cabin temperature drops 5-8°C while the film can be any colour including fully clear.
For Tbilisi, where summer cabins hit 55-60°C, IR blocking is what produces a real effect. A plain 20% black film on rear windows cuts temperature by 2-3°C — not the kind of difference worth the tinting exercise. Ceramic athermal 70% across the car cuts 8-12°C — a real shift that changes daily comfort.
Key takeaways:
- Solar heat is 52% IR — ordinary black film does not block it
- Athermal (ceramic or metal) blocks 90-98% of IR at any VLT
- Real temperature drop: black — 2-4°C, athermal — 5-8°C, ceramic — 8-12°C
- Athermal pays back when the car sits in open sun or the interior is leather
- BESTAUTO installs only LLumar and LuxArmor — both brands include ceramic athermal lines
Book window tinting at BESTAUTO via the form on the service page, or call whichever studio is more convenient in Tbilisi, Georgia:
- BESTAUTO Guramishvili — Guramishvili Ave. 78, tel. +995 550 000 299
- BESTAUTO Politkovskaya — Anna Politkovskaya St. 51, tel. +995 550 000 199
Both studios are open Monday to Saturday, 10:00–20:00. Before installation — a free consultation on film type: ceramic athermal, metallised or plain dyed tailored to specific needs.
