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Wanhua Chemical's Silicone PC Material: The "Invisible Wings" of Low-Altitude Aircraft

Wanhua Chemical 2025-03-04 09:52:05

As the low-altitude economy, including drone logistics and air taxis, accelerates, the performance boundaries of aircraft are constantly being challenged. How can we make aircraft lighter, stronger, and safer? Breakthroughs in materials science have become key. Wanhua Chemical has launched a variety of WanBlend^® silicon PC series products for different application scenarios in the low-altitude economy:

WanBlend^®Si-PC General Series

WanBlend^®Si-PC Flame Retardant Series

WanBlend^®Si-PC Reinforced Series

WanBlend^®Si-PC Ultra-thin Flame Retardant Series

WanBlend^®Si-PC General Series

WanBlend^®Si-PC Flame Retardant Series

WanBlend^®Si-PC Reinforced Series

WanBlend^®Si-PC Ultra-thin Flame Retardant Series

WanBlend^®Si-PC General Series

WanBlendWanBlend^®^®®Si-PC General SeriesSi-PC General Series

WanBlend^®Si-PC Flame Retardant Series

WanBlendWanBlend^®^®®Si-PC Flame Retardant SeriesSi-PC Flame Retardant Series

WanBlend^®Si-PC Reinforced Series

WanBlendWanBlend^®^®®Si-PC Reinforced SeriesSi-PC Reinforced Series

WanBlend^®Si-PC Ultra-thin Flame Retardant Series

WanBlendWanBlend^®^®®Si-PC Ultra-thin Flame Retardant SeriesSi-PC Ultra-thin Flame Retardant Series

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Wanhua Chemical's WanBlend^® silicon PC material is redefining the performance standards for low-altitude aircraft with three core advantages.

Wanhua Chemical's WanBlend^®® silicon PC material is redefining the performance standards for low-altitude aircraft with three core advantages.

· Lightweight Revolution ·

·Lightweight Revolution·

·Lightweight Revolution··Lightweight Revolution·

With the development of aircraft over the past decade, the weight reduction competition between traditional aluminum alloys and carbon fiber materials has reached its limit. WanBlend^® silicon PC material from Wanhua Chemical brings a new breakthrough, with a density of only 1.15-1.2g/cm³, making it lighter and more cost-effective than traditional materials. The weight reduction achieved by using silicon PC material in the fuselage is equivalent to carrying a large-capacity battery, which can greatly increase the flight range of the aircraft. This lightweight performance improvement does not affect the strength of the silicon PC material, as its flexural modulus reaches 2100MPa, capable of withstanding the impact of level 12 strong winds, achieving weight reduction without compromising on energy.

With the development of aircraft over the past decade, the weight reduction competition between traditional aluminum alloys and carbon fiber materials has reached its limit. WanBlend^® silicon PC material from Wanhua Chemical brings a new breakthrough, with a density of only 1.15-1.2g/cm³, making it lighter and more cost-effective than traditional materials. The weight reduction achieved by using silicon PC material for the fuselage is equivalent to carrying a large-capacity battery, which can greatly increase the range of the aircraft. The weight reduction achieved by using silicon PC material for the fuselage is equivalent to carrying a large-capacity battery, which can greatly increase the range of the aircraft. This lightweight performance improvement does not compromise the strength of the silicon PC material, as it has a flexural modulus of 2100MPa, capable of withstanding the impact of a level 12 strong wind, achieving weight reduction without sacrificing capability.

·Environmental Tolerance·

·Environmental Tolerance··Environmental Tolerance·

The special molecular structure formed by silicone copolymerization can effectively improve the low-temperature toughness of PC, maintaining good impact resistance even at -60℃, while combining the advantages of inorganic and organic materials, enhancing multiple properties such as solvent resistance, hydrolysis resistance, and aging resistance. Therefore, WanBlend^® silicon PC material can easily withstand the multiple environmental challenges faced by low-altitude aircraft, including rapid temperature changes, UV radiation, and chemical corrosion.

The special molecular structure formed by silicone copolymerization can effectively improve the low-temperature toughness of PC effectively improve the low-temperature toughness of PC, maintaining good impact resistance even at -60℃, while combining the advantages of inorganic and organic materials, enhancing multiple properties such as solvent resistance, hydrolysis resistance, and aging resistance enhancing multiple properties such as solvent resistance, hydrolysis resistance, and aging resistance. Therefore, WanBlend^®® silicon PC material can easily withstand the multiple environmental challenges faced by low-altitude aircraft, including rapid temperature changes, UV radiation, and chemical corrosion.

·Safety Protection Shield·

·Safety Protection Shield··Safety Protection Shield·

When the aircraft battery pack encounters thermal runaway, traditional materials will melt through in a short time, while WanBlend^® silicon PC material can achieve excellent flame retardant performance at V-0 level in UL94 vertical burning test, forming a dense carbonized layer during combustion, which buys time for an emergency landing and enhances flight safety.

When the aircraft battery pack encounters thermal runaway, traditional materials will melt through in a short time, while WanBlend^® silicon PC material can achieve excellent flame retardant performance at V-0 level in UL94 vertical burning testWanBlend^®® silicon PC material can achieve excellent flame retardant performance at V-0 level in UL94 vertical burning test, forming a dense carbonized layer during combustion, which buys time for an emergency landing and enhances flight safety.

In the future, Wanhua Chemical will continue to delve deeply into the low-altitude economy sector, constantly exploring the potential of low-altitude applications for a variety of high-performance materials such as polycarbonate, nylon, and polyurethane, contributing to the flourishing development of the low-altitude economy, and jointly painting a more splendid sky blueprint.

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Wanhua Chemical's Silicone PC Material: The "Invisible Wings" of Low-Altitude Aircraft

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