隨著全球無人載具技術的快速發展，

聚醯胺（Polyamide, PA）材料以其卓越的機械性能、輕量化特性和多功能性，已成為無人機、無人船和無人地面載具等整機製造中的關鍵材料。

Key Components: Propeller Blades, Lightweight Design, Impact Resistance, Rigidity

Authorized Strategic Partner: Humble Voyager Industrial Co., Ltd. (HVI)

PA+CF材料結合了碳纖維的高強度特性和PA基體的韌性，創造出性能卓越的複合材料。這種材料的強度重量比可達到鋼材的5-9倍，使無人載具能夠承受更高的負載而不會產生結構變形。

航空應用中，PA+CF材料表現出優異的剛度重量比，能夠減少無人機的振動，提高飛行穩定性和機載感測器的精度。其耐極端天氣、化學品、紫外線和高溫的特性，確保了無人載具在各種環境條件下的長期可靠性。

PA+CF material combines the high strength of carbon fiber with the toughness of a PA matrix, creating a composite with exceptional performance. This material achieves a strength-to-weight ratio 5–9 times higher than that of steel, enabling unmanned vehicles to withstand greater loads without structural deformation.

In aerospace applications, PA+CF demonstrates outstanding stiffness-to-weight ratio, reducing vibrations in unmanned aerial vehicles, improving flight stability, and enhancing the accuracy of onboard sensors. Its resistance to extreme weather, chemicals, UV radiation, and high temperatures ensures long-term reliability of unmanned vehicles under diverse environmental conditions.