Many different kinds of people can benefit from the effects of a temperature-regulating blanket, mattress pad or sheet set. People who naturally sleep hot, people in warm climates, women going through menopause and couples who disagree on the perfect sleep temperature are perfect candidates for temperature-regulated bedding. These cooling blankets can help anyone avoid night sweats and the feeling of being overheated in the middle of the night. You may be wondering how the Cool-jams™ fabric differs from the fabric of other types of bedding. Here's a quick overview of the ground-breaking technology that goes into creating Cool-jams™ temperature-regulating bedding.
All of our Cool-jams™ bedding is made using special Outlast® technology. This technology was first developed by NASA to keep astronauts cool during space travel. Then late the technology was further developed for use in our Cool-jams bedding. Through heat and moisture management, these cooling blankets work throughout the night to regulate your body temperature. This means that the fabric absorbs heat when you're too hot and releases it back to you when your body temperature drops. This ensures that the temperature and humidity under the covers stays in the perfect range to allow you to sleep peacefully. Different Cool-jams™ products with Outlast® technology that are available include cooling mattress pads, cooling sheets, cool pillows and cooling blankets.
Cooling bedding from Cool-jams™ is perfect for anyone who suffers from hot flashes or night sweats. It can help regulate your body temperature before the sweating even becomes a problem. By moving the excess heat away from your body, our fabric can help you stay cool and dry. Cool-jams™ temperature-regulating bedding is also great for couples who can't agree on the ideal sleep temperature. If one person is always hot while the other feels cold, Cool-jams™ fabric can help both partners feel more comfortable during the night. The hot sleeper will be cooled by having heat moved away while the cold sleeper will have heat transferred to his or her body.