Product Features of PMI FOAM A

Lightweight and High Strength

With a low density, it offers high specific strength and specific modulus, maintaining good strength and rigidity while reducing structural weight. This makes it suitable for scenarios sensitive to weight.

High Temperature Resistance

Capable of withstanding high temperatures up to 220°C, it meets the requirements of medium-to-high temperature curing processes and is suitable for components operating in high-temperature environments.

Chemical Corrosion Resistance

Exhibits good chemical stability against most solvents, resisting dissolution or swelling, and can maintain stable performance in harsh chemical environments.

Good Processability

Easy to machine via methods such as CNC milling and thermoforming, with fast processing speed and the ability to form complex shapes, meeting diverse design needs.

Excellent Mechanical Properties

Features outstanding resistance to compressive creep, able to withstand specified pressure and temperature during curing to ensure dimensional stability of components.

Environmental Friendly

Free of CFCs and halogens, it is non-toxic when burned, produces low-density smoke, and releases no harmful substances, complying with environmental protection requirements.

Good Fire Resistance

Has a self-extinguishing property, suitable for applications with strict fire safety requirements.

Low Hygroscopicity

Its closed-cell structure prevents moisture and water from penetrating the core, reducing maintenance and inspection costs and improving product durability.

Application Fields

Aerospace

Widely used as sandwich material in aircraft structures, such as wing leading edges, rudders, landing gear doors, wing-body fairings, and wingtips. Also used in helicopter blade manufacturing to improve service life and reduce costs.

Wind Power

Ideal core material for lightweight turbine blades, giving blade manufacturers a competitive edge in onshore wind turbines and offshore wind energy units.

Medical

Used to manufacture high-quality X-ray and CT bed plates, enabling high-resolution imaging under low radiation. Also applied in various medical diagnostic and treatment equipment, such as emergency stretchers, OR beds, specialized treatment tables, and accessories.

Automotive

Helps reduce vehicle weight, optimize engine performance, save fuel, and reduce CO₂ emissions. Suitable for automotive structural components.

Antennas and Radomes

Shows minimal changes in dielectric constant and dielectric loss within the frequency range of 2–26 GHz, exhibiting excellent broadband stability. Ideal material for manufacturing radars and radomes.

Rail Transit

Sandwich structures made from it can be applied to floors, roofs, side walls, or bogies of rail vehicles to reduce weight and improve insulation performance.

Marine

Used in deck and bulkhead structures to save fuel, reduce mast weight, and serve as components of composite bulkheads, reliably positioned near hot air pipeline systems.

Sports and Leisure

Suitable for manufacturing off-road and alpine skis, bicycle racing wheels, tennis rackets, snowboards, surfboards, and other sports equipment, providing high stiffness, strength, and low density while shortening the manufacturing cycle.