传统抗寒纺织产品多依赖于厚重的填充物，如羽绒、羊毛或化纤棉来实现保温效果。而近年来，越来越多的新型保暖材料被应用于抗寒纺织产品的制造中，这些材料不仅具有出色的保暖性能，还具备轻盈、环保、易打理等优点，为消费者提供了更多样化的选择。那么，在新材料崛起的背景下，抗寒纺织产品是否真的会迎来一场“非羽”不可的变革呢？

Traditional cold resistant textile products rely heavily on thick fillers such as down, wool, or synthetic cotton to achieve insulation effects. In recent years, more and more new insulation materials have been applied in the manufacturing of cold resistant textile products. These materials not only have excellent insulation performance, but also have advantages such as lightness, environmental friendliness, and easy maintenance, providing consumers with more diverse choices. So, in the context of the rise of new materials, will cold resistant textile products really usher in an inevitable transformation?

媲美羽绒的抗寒保暖材料

       山东稀有科技发展有限公司（稀有高科）推出了全新优质光蓄热锁温抑菌纤维产品——AIREPAI热湃®，专为科技抗寒纺织品领域研发设计。这款创新产品采用改性聚酯纤维为基材，拥有独特的360°纳米多孔横截面和异性中孔结构。该纤维的纳米微孔结构能有效形成气穴，从而在保暖性能上可与相同重量的羽绒相媲美。（通过GB/T 11048-2018测试结果）。

Shandong Rare Technology Development Co., Ltd. (Rare Hi-Tech) recently launched a new high-quality photo thermal storage, temperature locking and antibacterial fiber product - AIREPAI ®， Specially designed for the research and development of cold resistant textiles in the field of technology. This innovative product uses modified polyester fibers as the substrate, with a unique 360° nanoporous cross-section and anisotropic mesoporous structure. The nano porous structure of this fiber can effectively form air pockets, making it comparable to down of the same weight in terms of insulation performance. (According to the test results of GB/T 11048-2018).

使用AIREPAI热湃®的纺织应用产品

       热湃®光蓄热锁温抑菌纤维，是利用航天材料二氧化硅气凝胶低密度、低热导率、高孔隙率的科技抗寒、隔热、超轻特征，结合“热胁迫辅助草本耐温萃取”专利技术，融入特定生物萃取羰基活性组分独特的全波段光源光合作用，实现了光能向热能的有效转化和微纳米层叠多孔聚热锁温双倍效应，是集升温、蓄热、锁温、抑菌于一体的多重保暖亲肤新型材料，为服饰和御寒纺织品提供了出色的保暖性能和舒适体验，并具备生态环保特性。

AIREPAI® light thermal storage temperature retention antibacterial fiber utilizes the technological features of low density, low thermal conductivity, and high porosity of silica aerogel, a space material, for cold resistance, thermal insulation, and ultra-lightweight properties. Combined with the patented technology of "thermal stress-assisted herbaceous temperature-tolerant extraction", it incorporates a unique full-spectrum light source photosynthesis of specific biologically extracted carbonyl active components, achieving effective conversion of light energy into thermal energy and a dual effect of micro-nano laminated porous heat retention and temperature retention. It is a multifunctional, skin-friendly new material that integrates temperature rise, thermal storage, temperature retention, and antibacterial properties. It provides excellent thermal insulation performance and comfortable experience for clothing and cold-resistant textiles, and possesses ecological and environmental protection characteristics.

AIREPAI热湃®的机理特征图谱

集吸光发热聚热锁温持久抑菌于一身

材质轻盈Material is lightweight

       气凝胶是世界上目前密度最小的纳米级多孔固态材料，将超临界气凝胶粉体通过微气态混合制备专利技术融入纤维基材，可以令到纤维呈现丰富的层叠纳米多孔形态，纤维整体密度可下降12%以上，纤维变的更加轻盈柔软、轻松告别厚重、臃肿，宛如空气般灵动。

Aerogel is currently the world's lightest nanoscale porous solid material. By incorporating supercritical aerogel powder into fiber substrates through patented micro-gas mixing preparation technology, the fibers can exhibit a rich layered nanoporous morphology, with an overall density reduction of over 12%. The fibers become lighter and softer, easily bidding farewell to heaviness and bulkiness, and become as agile as air.

吸光发热Photothermal conversion

       热湃®纤维制备过程中融入生物萃取羰基活性组分，通过其独特的全波段可见光吸收性能，实现了光能向热能的有效转化，从而使材料产生了优异的吸光发热性能，经权威检测光蓄热最大升温值达12.5℃；超临界气凝胶还具备强大的远红外辐射温升性能。

In the preparation process of AIREPAI® fiber, biologically extracted carbonyl active components are incorporated. Through its unique full-band visible light absorption properties, it achieves effective conversion of light energy into thermal energy, thereby endowing the material with excellent light absorption and heat generation capabilities. Authoritative testing has shown that the maximum temperature rise of light thermal storage reaches 12.5℃. The supercritical aerogel also possesses strong far-infrared radiation temperature rise performance.

AIREPAI热湃®面料光蓄热性能检测

AIREPAI热湃®暖绒远红外温升性能检测

聚热锁温Gathering heatLocking temperature

       空气是最好的隔热材料（导热系数0.023W/m·K），超临界气凝胶粉体中90%以上是10-30纳米静态空气团，具有极好的隔热锁温效果，热湃®纤维内部丰富的纳米气团形成叠状隔热层，更好的阻隔外部严寒锁住内部温度，在同等质数下纤维导热系数下降超过15%，保温率优于羊绒材料。

 Air is the best thermal insulation material (thermal conductivity coefficient 0.023W/m·K). Over 90% of the supercritical aerogel powder consists of static air clusters ranging from 10 to 30 nanometers, which exhibits excellent thermal insulation and temperature retention effects. The abundant nano-air clusters inside the AIREPAI® fiber form a laminated thermal insulation layer, better blocking the external cold and retaining the internal temperature. Under the same quality, the thermal conductivity coefficient of the fiber decreases by more than 15%, and its thermal insulation rate is superior to that of cashmere material.

AIREPAI热湃®面料保温性能检测

AIREPAI热湃®暖绒保温性能检测

持久抑菌Durable antibacterial properties

       热湃®纤维在纺丝原液中实现了气凝胶、生物萃取活性因子、聚合物的充分融合和固化，生物萃取活性因子所具有的生态抗菌性能可以较好的固化在纤维内部起到持久抑菌和美肤护肤的作用；经权威检测机构检测，多次洗涤后仍然可以达到国标AAA的抑菌标准。

AIREPAI® fiber achieves the full integration and solidification of aerogel, bio-extracted active factors, and polymers in the spinning dope. The ecological antibacterial properties of the bio-extracted active factors can be effectively solidified within the fiber, providing long-lasting antibacterial and skin care effects. According to tests conducted by authoritative testing institutions, it can still meet the antibacterial standard of national standard AAA after multiple washes.

AIREPAI热湃®暖绒抗菌性能检测

非常丰富的产品应用领域

秋冬服装：外套、毛衣、内衣、围巾、手套等；

家居家纺：毛毯、被子、地毯、窗帘、床单等；

运动装备：防寒服、护具、鞋材、睡袋、帐篷等。

Autumn and winter clothing: jackets, sweaters, underwear, scarves, gloves, etc;

Home textiles: blankets, quilts, carpets, curtains, bed sheets, etc

Sports equipment: winter clothing, protective gear, shoe materials, sleeping bags, tents, etc.

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