如何在延长续航时间的同时保持相机的原有尺寸并且不损害设备性能？我们的相机散热解决方案：了解GORE?隔热膜如何在延长续航时间的同时保持4K运动相机原有尺寸。

了解戈尔隔热膜技术如何提升笔记本散热能力，助力戴尔公司（美国商用笔记本电脑市场的领导者）设计、开发和生产技术先进的高端产品。

How to extend runtime without increasing size or lowering a device’s performance? We have an answer: Learn how GORE? Thermal Insulation added runtime to a 4K action camera while keeping its original size.

了解戈尔隔热膜如何帮助领先智能手机制造商攻克折叠屏手机的散热难题。探索我们如何通过快速定制能力和优异的产品性能提高客户满意度。

GORE? Thermal Insulation has unique properties of low thickness (< 300 μm) with conductivity less than air (< 0.02 W/(m?K) ) and therefore presents challenges in characterization. A test methodology incorporating a modified heat flow method, ex-situ thickness method, and two thickness conductivity calculation is used to provide reliable and accurate thermal conductivity data. Conductivity results show the distribution of data falls below the conductivity specification of 0.02 W/(m?K).

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戈尔^?(GORE^?) 隔热膜具备厚度小(< 300 μm)、导热系数低于空气(< 0.02 W/(m?K)) 的独有特性，因此在特性分析方面存在挑战。采用改进的热流法、非原位厚度法和双厚度导热系数计算相结合的测试方法，可提供可靠而准确的导热系数数据。导热系数结果显示，数据分布低于0.02 W/(m?K) 的导热系数规范值。

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Learn how Gore? Thermal Insulation enabled a leading smartphone manufacturer to overcome thermal challenges within their foldable phone. Discover how rapid customizations and optimum performance led to high customer satisfaction.

Learn how Gore Technology enabled DELL, a US-based market leader for business laptops, to release the best, most premium product possible.

Learn how we helped to make the arrows 5G F-51A smartphone stay cool while working hard.

Learn how we helped to make the arrows 5G F-51A smartphone stay cool while working hard.