Infrared imaging confirms thermal regulation benefits of Outlast tech
Outlast is pleased to share the results of a newly conducted infrared (IR) imaging test designed to evaluate the thermal performance of gloves made with and without Outlast Temperature Regulation. This test was performed under controlled environmental conditions and demonstrates the heat management advantage of incorporating Outlast.
Outlast's IR imaging test shows gloves with Outlast Temperature Regulation maintain cooler external temps than those without. Using natural wax microcapsules, Outlast absorbs excess heat and releases it when needed, ensuring thermal balance and enhanced comfort. The test confirms its effectiveness in managing heat and reducing perspiration.
Test Overview and Setup
The comparative analysis used our standard red demo gloves made with the article 'Carlton'. The test compared two glove samples: Left glove: Fabric 'Carlton' with integrated Outlast Temperature Regulation
Right glove: Fabric analogue 'Carlton' without Outlast
A middle-aged male participant wore both gloves, and external surface temperatures were recorded using an infrared camera placed at a fixed distance of 1 meter. The ambient test environment was maintained at 22.1 ° C with 44 % relative humidity.
Conclusion
The results clearly demonstrate that gloves equipped with Outlast Temperature Regulation maintain lower external surface temperatures under identical conditions. This confirms the material's effective heat-buffering capacity, particularly in dynamic thermal environments, and supports the conclusion that Outlast temperature regulation enhances wearer comfort by mitigating perspiration.
These findings provide further evidence of the value of incorporating advanced thermal management technologies in performance apparel and equipment.
How does Outlast Temperature Regulation work?
The heart of Outlast Temperature Regulation is natural wax. Safely enclosed in microcapsules, it can be easily applied to a textile or incorporated into yarns or fibers. When the human body produces excess heat, the natural wax starts to melt within the microcapsules. Thanks to this melting process, the natural wax is able to absorb and store heat. Thus, the textile buffers the heat and the human body does not warm up further. Instead, the user remains in his or her individual climatic balance and sweating can be reduced or sometimes even avoided.
When physical activity decreases or the outside temperature drops, Outlast smart fabrics are able to release stored heat back to the human body. The natural wax solidifies and releases heat. Through this constant active temperature adjustment, Outlast keeps the user comfortable at all times. Note: The headline, insights, and image of this press release may have been refined by the Fibre2Fashion staff; the rest of the content remains unchanged.
Fibre2Fashion News Desk (HU)
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Infrared imaging confirms thermal regulation benefits of Outlast tech
Outlast is pleased to share the results of a newly conducted infrared (IR) imaging test designed to evaluate the thermal performance of gloves made with and without Outlast Temperature Regulation. This test was performed under controlled environmental conditions and demonstrates the heat management advantage of incorporating Outlast. Outlast's IR imaging test shows gloves with Outlast Temperature Regulation maintain cooler external temps than those without. Using natural wax microcapsules, Outlast absorbs excess heat and releases it when needed, ensuring thermal balance and enhanced comfort. The test confirms its effectiveness in managing heat and reducing perspiration. Test Overview and Setup The comparative analysis used our standard red demo gloves made with the article 'Carlton'. The test compared two glove samples: Left glove: Fabric 'Carlton' with integrated Outlast Temperature Regulation Right glove: Fabric analogue 'Carlton' without Outlast A middle-aged male participant wore both gloves, and external surface temperatures were recorded using an infrared camera placed at a fixed distance of 1 meter. The ambient test environment was maintained at 22.1 ° C with 44 % relative humidity. Conclusion The results clearly demonstrate that gloves equipped with Outlast Temperature Regulation maintain lower external surface temperatures under identical conditions. This confirms the material's effective heat-buffering capacity, particularly in dynamic thermal environments, and supports the conclusion that Outlast temperature regulation enhances wearer comfort by mitigating perspiration. These findings provide further evidence of the value of incorporating advanced thermal management technologies in performance apparel and equipment. How does Outlast Temperature Regulation work? The heart of Outlast Temperature Regulation is natural wax. Safely enclosed in microcapsules, it can be easily applied to a textile or incorporated into yarns or fibers. When the human body produces excess heat, the natural wax starts to melt within the microcapsules. Thanks to this melting process, the natural wax is able to absorb and store heat. Thus, the textile buffers the heat and the human body does not warm up further. Instead, the user remains in his or her individual climatic balance and sweating can be reduced or sometimes even avoided. When physical activity decreases or the outside temperature drops, Outlast smart fabrics are able to release stored heat back to the human body. The natural wax solidifies and releases heat. Through this constant active temperature adjustment, Outlast keeps the user comfortable at all times. Note: The headline, insights, and image of this press release may have been refined by the Fibre2Fashion staff; the rest of the content remains unchanged. Fibre2Fashion News Desk (HU)
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