Flexible Dry Ice Packs – 2025 Guide to UltraCold Shipping & Tendencias

If you need to ship vaccines, seafood or biotech samples, you might wonder how to keep them frozen without leaking ice or complicated regulations. A flexible dry ice pack wraps solid carbon dioxide (Co₂) in a moldable polymer sheet to deliver ultracold cooling that stays dry and reusable. Unlike regular gel packs, these packs reach as low as –78.5 °C and can be reused 30 veces. En 2025, global dry ice demand is growing 5 % annually while CO₂ supply rises only 0.5 %, causing price spikes. This guide explains what flexible dry ice packs son, how to choose and size them, safety rules, when to use alternatives and the latest innovations.

What makes a flexible dry ice pack different from gel packs or solid dry ice? Learn about polymer technology, temperature range and reusability.

How do you size and apply flexible dry ice packs for your shipment? Get weight ratios, thickness guidelines and practical tips for overnight, twoday and threeday transit.

What regulations and safety measures apply to flexible dry ice packs? Understand hazard labels, ventilation requirements and handling precautions.

When should you use flexible dry ice packs versus gel packs or phasechange materials? Compare cooling methods, costs and sustainability.

Qué 2025 trends and innovations are reshaping flexible dry ice packs? Explore market growth, biobased CO₂, smart sensors and hybrid systems.

What Are Flexible Dry Ice Packs and How Do They Work?

Respuesta directa

Flexible dry ice packs are thin blankets filled with solid CO₂ or advanced phasechange polymers that maintain ultralow temperatures while remaining bendable and reusable. They combine a superabsorbent polymer core with perforated plastic and nonwoven textile layers. When soaked in warm water, the polymer cells swell to form a padded sheet weighing about 900 gramo. Una vez congelado, the water and CO₂ inside the cells turn into dry ice; the sheet stays flexible and conforms to irregular products. Because dry ice sublimates directly from solid to gas, there is no liquid residue, so packages stay clean.

Detailed explanation

Flexible dry ice packs differ fundamentally from conventional gel packs and solid dry ice. Solid dry ice is pure frozen CO₂ at –78.5 °C; it provides intense cooling but sublimates quickly and cannot be refrozen. paquetes de gel, often marketed as “dry ice packs,” use waterbased gel to hold temperatures around 0 °C and are reusable but cannot achieve ultracold ranges. Flexible dry ice sheets bridge the gap: modern versions hold temperatures of –12 °C to –18 °C for up to 48 hours and can be reused over 30 cycles with less than 10 % capacity loss. The sheets remain pliable when frozen, allowing you to wrap them around oddshaped items such as vials or fish fillets. Cuando el hielo seco se sublima, it absorbs 571 kJ per kilogram of heat, maintaining deepfreeze conditions without moisture.

Flexible dry ice technology relies on crosslinked polyacrylate polymers y microperforated plastic. A 4ply sheet such as Techni Ice HDR uses two nonwoven textile layers encapsulating a special refrigerant, with two heavyduty plastic layers fused to the textile. The crosslinked polymer can reach temperatures as low as –190 °C—more than twice as cold as regular dry ice. To activate, you immerse the sheet in warm water until air bubbles escape; the polymer swells to create multiple sealed cells. Después de congelar, the sheet becomes a flexible cold blanket that can be cut between the cells and reused.

Layered architecture and polymer technology

Anatomy of a flexible dry ice pack:

Capa	Composición	Role	Practical significance
Outer plastic	Perforated polyethylene or polypropylene	Allows water to penetrate during hydration and contains the polymer	Ensures the sheet can be activated and remains leakproof
Inner textile	Nonwoven fabric	Encapsulates the polymer and provides flexibility	Enables bending around irregular items and enhances durability
Polymer core	Crosslinked polyacrylate or other sodium polyacrylate copolymer	Absorbs water and converts to dry ice during freezing	Delivers ultracold temperatures and reusability
CO₂ or PCM infusion	Solid CO₂ or phasechange material within the polymer cells	Provides the cooling power; sublimates or changes phase	Maintains –78.5 °C to –12 °C without melting

This structure gives flexible dry ice packs several advantages:

Moldability: Sheets can wrap around products, reducing dead space and improving temperature uniformity.

Lightweight activation: Dehydrated sheets weigh around 40 gramo; after hydration they weigh about 900 gramo, so shipping weight remains manageable.

No meltwater: Cuando el hielo seco se sublima, it turns into gas; there is no liquid to wet the package.

Rehydration and reuse: Cells can be rehydrated multiple times without losing capacity.

Comparison of cooling methods

Atributo	Flexible dry ice pack	Paquete de gel	Material de cambio de fase (PCM) embalar	Significado para ti
Rango de temperatura	–78.5 °C to –20 °C	0 °C a 5 °C	–20 °C a –70 °C (engineered set points)	Choose dry ice packs for ultracold shipping; gel packs for refrigerated goods; PCMs for strict moderate ranges
Duración del enfriamiento	24–72 h depending on thickness	12–48 H	24–72 h with proper conditioning	Match duration to your transit time; thicker dry ice sheets last longer
Reutilizabilidad	Polymer casing can be rehydrated; CO₂ must be replenished	Fully reusable; refreeze after use	Reutilizable; PCMs can be conditioned repeatedly	Consider total cost and sustainability
Estado de peligro	Clase 9 Material Peligroso; requires UN 1845 labeling and ventilation	No peligroso; fácil de manejar	Typically nonhazardous; some PCMs are foodsafe	Factor in regulatory compliance and handling effort
Residuo	Sublimates to CO₂ gas; sin liquido	Se derrite en el agua; risk of leaks	Usually no residue; PCMs absorb heat internally	Keep packaging dry and avoid soggy boxes
Typical use cases	Frozen pharmaceuticals, biologics and specialty seafood	Kits de comida, fresh produce and 2–8 °C medications	Vaccines requiring strict 2–8 °C or –20 °C ranges	Pick based on temperature sensitivity and regulatory complexity

How to Choose and Size Flexible Dry Ice Packs for Your Shipment?

Respuesta directa

Size your flexible dry ice packs by matching the weight of dry ice to your payload and choosing sheet thickness based on transit duration. A common guideline is a 1:1 ratio of dry ice weight to product weight for overnight deliveries, increasing to 1.5–2:1 for multiday shipments. Sheet thicknesses of 12 milímetros, 18 mm and 24 mm correspond to approximately 24, 48 and 72hour hold times respectively. Always prechill your product and container to reduce the thermal load and place dry ice sheets above the payload so cold air can sink.

Explicación expandida

When sizing flexible dry ice packs, start by classifying your product’s temperature needs. Frozen biologics and seafood require temperatures below –20 °C, while fresh produce or meal kits need 2–8 °C refrigeration. For ultracold shipments, flexible dry ice sheets deliver the necessary environment. The quantity of dry ice depends on payload weight and transit time. According to Tempk’s guideline, use half the payload weight in dry ice for shipments under 12 horas, equal weight for 24–48 hours and up to 1.5 times for 48–72 hours. Por ejemplo, if you’re shipping a 10 lb biotech kit overnight, utilizar sobre 5 libra de hielo seco; for a 48hour transit, utilizar sobre 10 lb; for a 72hour transit, usar alrededor 15 lb.

Sheet thickness also matters. A 12 mm sheet lasts roughly one day; un 18 mm sheet lasts two days; y un 24 mm sheet lasts three days. Thicker sheets contain more CO₂ and reduce sublimation rate. Combine multiple thin sheets when thicker sheets aren’t available. Always precondition your container by chilling it and your product for at least 24 hours before packing. This reduces the heat load and slows sublimation. Minimize empty space in the container using insulation or padding to prevent warm air pockets. Ensure the container has vents or pressurerelief channels to allow CO₂ gas to escape.

Sizing guidelines and scenarios

Transit duration	Recommended sheet thickness	Dry ice weight per kilogram of product	Typical applications
< 12 horas	12 mm sheet or halfsheet	0.5 kg dry ice per kg product	Overnight medical samples, shorthaul seafood
24–48 horas	18 mm sheet or two 12 mm layers	1–1.5 kg dry ice per kg product	Twoday meal kits, vaccines shipping internationally
48–72 horas	24 mm sheet or three 12 mm sheets	2 kg dry ice per kg product	Threeday shipments of mRNA vaccines, terapias celulares

Consejos prácticos y sugerencias.

Hydrate correctly: Soak the sheet in warm water for about 15 minutos, gently scrunching it so all cells fill. Remove when it indents under light pressure; overhydration can make cells prone to puncture.

Prefreeze thoroughly: Freeze the hydrated sheet for at least 24 hours at –20 °C or colder. This ensures uniform dry ice formation and reduces early sublimation.

Position strategically: Place the sheet above the product so cold air sinks around it. Use additional sheets below for long transit times.

Cut to fit: Use the perforated cells to cut the sheet around irregular items; seal cut edges with tape to prevent gel loss.

Rotate inventory: Keep at least two sets of sheets so one can be freezing while the other is in use.

Realworld case: A biotechnology company shipping 25 lb of cell culture kits across the U.S. used 30 lb of flexible dry ice sheets and prechilled containers. The shipment maintained subzero temperatures for 60 hours with only 5 % dry ice loss.

Seguridad, Handling and Regulatory Requirements

Respuesta directa

Flexible dry ice packs contain dry ice, which is regulated as a Class 9 Material Peligroso. Packages must display the proper shipping name “carbon dioxide, solid” or “dry ice,” the UN number 1845 y el peso neto del hielo seco. Ventilation is crucial: nunca selle el hielo seco en un recipiente hermético; provide pressurerelief vents so CO₂ gas can escape. Wear insulated gloves and eye protection when handling sheets.

Explicación expandida

Although flexible dry ice sheets simplify handling, they do not change the underlying hazards of dry ice. El hielo seco se sublima en gas co₂, which can displace oxygen and cause suffocation in confined spaces. Always work in wellventilated areas and avoid breathing the gas. Airlines and couriers limit the amount of dry ice per package—typically 2.5 kg for passengers and up to 200 kg for commercial shipments. Cuando envía muestras biológicas, triple packaging is mandatory: a watertight primary receptacle, a secondary container with absorbent material and a strong outer box. Flexible dry ice packs also require hazardous materials training for anyone preparing shipments.

Regulatory compliance checklist

Requisito	Detalles	Por que importa
Nombre de envío adecuado & Número de la ONU	Label packages as “dry ice” or “carbon dioxide, solid” and include UN 1845	Ensures compliance and avoids fines
Net weight declaration	Record the dry ice weight on the package (p.ej., 5 kilos)	Allows carriers to verify weight limits
Clase 9 etiqueta de peligro	Use a diamondshaped label at least 100 mm per side	Alerts handlers to potential hazards
Ventilación	Use vented packaging or pressurerelief valves	Prevents pressure buildup and suffocation
Equipo de protección personal (PPE)	Wear insulated gloves and eye protection when handling dry ice	Prevents frostbite and injury
Capacitación & documentación	Ensure handlers are trained and include required paperwork	Maintains safety and legal compliance

Safety tips for users

Use vented containers: Never seal dry ice sheets inside airtight plastic bags or jars.

Monitor CO₂ levels: Use CO₂ monitors in storage areas, especially inside vehicles or small warehouses.

Limit quantities on aircraft: Los pasajeros pueden llevar a 2.5 kg of dry ice without documentation; commercial shipments can carry up to 200 kilos.

Deshacerse de manera responsable: Allow leftover dry ice to sublimate outdoors or in a vented space; never flush it down the drain.

Entrena a tu equipo: Personnel should complete hazardous materials training and update procedures regularly.

When to Use Flexible Dry Ice Packs vs. Gel Packs or PCMs?

Respuesta directa

Use flexible dry ice packs for shipments requiring ultracold temperatures (por debajo de –20 ° C) or extended frozen conditions; use gel packs or PCMs when products need chilled or moderate temperatures with simpler handling. Flexible dry ice packs excel at keeping vaccines, mRNA therapies and frozen seafood at –78.5 °C to –20 °C for up to 72 horas. Gel packs maintain 0–5 °C for 12–48 hours and are nonhazardous. PCMs hold narrow set points (2–8 °C o –20 °C) for 24–72 hours and are reusable.

Explicación expandida

Selecting the right refrigerant depends on temperature requirements, duración, regulatory complexity and cost. Gel packs are ideal for meal kits, produce and pharmaceuticals requiring 2–8 °C; they’re nontoxic, reusable and easy to handle. Sin embargo, they offer limited hold times and may leak water. Flexible dry ice packs deliver the lowest temperatures without moisture and mold to irregular shapes, but they are classified as hazardous materials and require labeling and training. PCMs offer a compromise by providing stable temperature bands (p.ej., –20 °C or +5 °C) durante 24 a 72 horas, but they generally cannot reach the –78.5 °C needed for deepfrozen biologics. Hybrid systems combine PCMs and dry ice sheets; a PCM layer buffers the payload, while a dry ice sheet on top extends freezing by 40 %.

Advantages and disadvantages of each cooling method

Flexible dry ice packs: Ultracold temperatures, conform to products, sin residuos de agua; require hazard labeling and ventilated packaging.

paquetes de gel: Reutilizable, nonhazardous and costeffective; limited hold time and risk of leaks.

PCM: Maintain specific temperature bands and are reusable; higher upfront cost and narrower applicability.

paquetes de agua: Cheap and simple; suitable for very short chilled shipments but melt quickly and can leak【811187269995851†L91-L93】.

Hybrid solutions for mixed loads

Hybrid systems are increasingly common, especially for mixed shipments. Por ejemplo, a meal kit company may use a PCM pack to keep vegetables at 2–8 °C and a flexible dry ice sheet to keep frozen meats below –20 °C. Hybrid configurations can reduce dry ice usage by up to 40 % and lower the risk of supercooling. They also simplify compliance for the nonhazardous portion of the shipment. When designing a hybrid packout, place the PCM or gel pack closer to temperaturesensitive items and the dry ice sheet above everything else; use partitions to separate zones.

2025 Trends and Innovations Shaping Flexible Dry Ice Packs

Descripción general de la tendencia

The flexible dry ice pack industry is undergoing rapid change as supply constraints, sustainability and digitalization drive innovation. Dry ice consumption is rising about 5 % por año, while CO₂ supply grows only 0.5 % por año, causing shortages and price volatility up to 300 %. The global dry ice market, valorado en Dólar estadounidense 1.54 mil millones en 2024, is projected to reach Dólar estadounidense 2.73 mil millones por 2032 (7.4 % Tocón). Mientras tanto, the cold chain packaging refrigerants market—including dry ice, gel packs and PCMs—is forecast to grow from Dólar estadounidense 1.57 mil millones en 2024 a USD 2.92 mil millones por 2032 (8.14 % Tocón), with Europe holding a 31.85 % compartir. In personal therapy, the reusable ice pack market is expected to grow from Dólar estadounidense 1.2 mil millones en 2024 a USD 2.14 mil millones por 2032, a 7.5 % annual rate.

Últimos avances de un vistazo

Localized CO₂ sourcing: Producers are building regional CO₂ capture hubs and capturing emissions from bioethanol fermentation to supply dry ice. Bioethanol plants can supply 30–60 % of a country’s CO₂ needs.

Biodegradable polymers: Manufacturers are adopting compostable or recyclable materials for sheet casings, reducing waste and appealing to ecoconscious customers.

Sistemas de enfriamiento híbrido: Shippers mix dry ice sheets with PCMs to extend freezing by 40 % and reduce dry ice consumption.

Paneles de aislamiento de vacío (VIP): Highperformance insulation reduces sublimation loss from 8 % a 3 % por día, allowing lighter packages.

Monitoreo inteligente: Flexible sheets are increasingly embedded with temperature, humidity and location sensors that transmit data for realtime intervention.

AI and route optimization: Sophisticated software models evaluate variables such as route length, ambient temperature and container insulation to recommend the optimal mix of dry ice sheets, PCMs and container types.

Ideas del mercado

Supply shortages and sustainability pressures are pushing the industry toward alternative CO₂ sources and hybrid systems. Localized production hubs reduce transport losses and respond to regional demand. Onsite CO₂ capture at food processing plants and breweries reuses emissions and stabilizes supply. Biobased CO₂ from fermentation reduces reliance on fossil fuels and lowers the carbon footprint. Sin embargo, geopolitical factors can threaten local supply: in the UK, a trade deal allowing cheap U.S. bioethanol imports jeopardizes domestic CO₂ producers, which supply 30–60 % of the nation’s CO₂. Shippers therefore diversify their refrigerants and invest in better insulation to mitigate supply risks.

Preguntas frecuentes

Q1: Are flexible dry ice packs reusable?
The polymer casing can be rehydrated and refrozen multiple times, but the dry ice itself sublimates, so you must replenish the CO₂ for each use. For true reusability without replenishing, consider gel or PCM packs.

Q2: How long do flexible dry ice packs stay cold?
A properly sized sheet maintains ultracold temperatures for 24–72 hours. A 12 mm sheet lasts about one day, un 18 mm sheet two days and a 24 mm sheet up to three days.

Q3: How do I activate and hydrate a flexible dry ice pack?
Soak the sheet in warm water for roughly 15 minutos, gently scrunching until the cells fill and air bubbles escape. Una vez hidratado, congelarlo por al menos 24 Horas antes de usar.

Q4: Are flexible dry ice packs safe for food contact?
Sí. Highquality sheets use foodgrade polymers sealed within plastic. They do not leak harmful substances and leave no liquid residue.

Q5: What are the main safety precautions when using flexible dry ice packs?
Use guantes aislados y protección para los ojos, ensure containers are vented, label packages with UN 1845 and record the net weight of dry ice. Let unused dry ice sublimate outdoors.

Resumen y recomendaciones

Control de llave

Flexible dry ice packs combine ultracold cooling with moldable, reusable polymer sheets, delivering temperatures down to –78.5 °C without water residue.

They suit frozen pharmaceuticals, biologics and seafood requiring 24–72 hour protection; size the sheet using a 0.5–2:1 dry icetoproduct weight ratio and choose 12–24 mm thickness based on duration.

Safety and compliance are essential: label shipments with “dry ice,"Y 1845 y peso neto, provide ventilation and wear PPE.

Gel packs and PCMs provide moderate temperatures and reusability; use them when your cargo needs 2–8 °C or strict temperature bands.

2025 trends favor hybrid systems, localized CO₂ sourcing, biodegradable materials and smart sensors to mitigate supply shortages and environmental impact.

Consejo procesable

Evaluate your product’s temperature tolerance and transit time. Use the sizing table to match sheet thickness and dry ice weight to your payload and adjust for seasonal conditions.

Invest in quality insulation. Vacuum panels or recyclable liners reduce sublimation and allow you to use thinner sheets.

Train and equip your team. Ensure everyone who packs or ships flexible dry ice packs completes hazardous materials training and uses proper PPE.

Explore hybrid solutions. Combine flexible dry ice sheets with PCMs or gel packs to extend hold time and reduce CO₂ usage.

Monitor market trends and innovations. Keep up with local CO₂ sourcing, biodegradable polymers and smart sensor integration to stay competitive and sustainable.

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Acerca de Tempk

Tempk is a cold chain packaging specialist dedicated to preserving product quality during transit. We design flexible dry ice packs, paquetes de gel, PCMs and insulated containers that cater to temperature ranges from 0 °C down to –78.5 °C. Nuestra R&D team innovates with biodegradable polymers, smart sensors and hybrid cooling solutions to reduce waste and improve performance. With global certifications and decades of experience, we support pharmaceutical, food and biotech clients by delivering customizable packaging solutions that balance cost, compliance and sustainability.

Llamado a la acción: Listo para optimizar su cadena fría? Contact Tempk’s experts for personalized advice on flexible dry ice packs, sizing strategies and hybrid cooling systems. We’ll help you choose the right solution, comply with regulations and meet your sustainability goals.