The 10 Best Ceramic Hair Dryers
This wiki has been updated 14 times since it was first published in October of 2016. If you want to achieve a high-end salon style without the high-end salon price, take a look at these ceramic hair dryers. They're designed to lock in moisture while eliminating frizz and flyaways. We've included both professional-quality options as well as some more affordable choices that still come packed with several useful features. When users buy our independently chosen editorial selections, we may earn commissions to help fund the Wiki. Skip to the best ceramic hair dryer on Amazon.
How Ceramic Hair Dryers Work
Ceramic-coated elements hold heat better than metallic elements.
As you may have guessed, ceramic hair dryers make use of a ceramic-coated heating element.
All hair dryers work in a similar manner. They suck in cool air using a fan, pass it over a heating element of some kind, and then distribute hot air. Just because they all work in a similar manner, however, doesn't mean they all produce the same effects. The heating element used can cause a significant difference in how gentle a particular model is on hair. Traditional dryers make use of a metallic coil as the heating element. While the metallic element gets the job done, it often produces uneven and very dry heat. The combination of dry air and hot spots results in brittle, damaged hair that looks frizzy and is prone to breaking.
As you may have guessed, ceramic hair dryers make use of a ceramic-coated heating element. Ceramic is a non-metallic, composite material that is usually comprised of clay and similar materials. Ceramic-coated elements hold heat better than metallic elements.They also better distribute it, so that the output is more even. This is why many non-stick frying pans and professional hair salon tools are often coated with ceramic.
Many ceramic hair dryers can sense the temperature of the air around your hair and automatically regulate their output to prevent your hair from burning. Because ceramic elements retain their heat better, they do not constantly need to be heated up. This results in moister air that is less damaging to hair. Though the air is less dry, it isn't any less effective. In fact, even heat tends to dry hair more quickly than uneven heat. Overall, most users find that their hair looks shinier and healthier when using a ceramic hair dryer, instead of a metal-coiled model.
How To Choose A Ceramic Hair Dryer
Your hair type and preferred styling methods will be the determining factors in which model is best for you. Most hair dryers fall within the 1,300 to 2,000 watt range. The wattage dictates both how hot a model can get and how much air it can move. It is generally best to choose a model in the higher end of the power spectrum. You can always turn the heat down if needed, but if your dryer is under powered, there is nothing you can do to make the fan move more air. The proper wind-to-heat ratio is important to prevent frying your hair.
Buying a model with adjustable heat settings ensures that you can dry your hair in the quickest method possible and in the least damaging way.
Most people can benefit from choosing a model with adjustable heat. High heat is best for thick or coarse hair, while low heat is usually enough to get the job done for those with fine hair. It isn't just hair texture that dictates heat, though. The condition and current style of your hair also plays a role. If your hair is cut short or is only slightly damp, low heat will work well. If your hair is very long or soaked through, even those with fine hair may benefit from using a high heat setting. Buying a model with adjustable heat settings ensures that you can dry your hair in the quickest method possible and in the least damaging way.
You may see the term ionic quite often when reading through the features of different hair dryers. Ionic models shoot negative ions at your hair. Water ions are positively charged. This allows an ionic dryer to scatter water droplets faster than non-ionic models, preventing them from soaking into the hair shaft and causing frizz. This also means it reduces drying time. Using an ionic ceramic dryer will result in a sleeker finish. For those with very fine hair who are looking for more volume, however, this can be a drawback. The same can be said for those who are looking to achieve a fun and frizzy hairstyle.
Choosing a model with a cool shoot button can also be beneficial. Using blasts of cool hair towards the end of the drying process can help set the style and produce longer hold times. This is because it helps to seal the hair cuticle. It is also a smart move to switch over to cool air when your hair is 80 percent dry. At this point, cool air is enough to finish the drying process and using it can help prevent against overheating.
A Brief History Of Hair Dryers
The hairdryer was invented in 1890 by Alexandre Ferdinand Godefroy, a French stylist, for use in his hair salon. Designed for use while seated, it featured a bonnet that was placed over the user's head, much like the bonnet dryers used in professional salons to this day. However, unlike current models that are powered by electricity and contain a fan to push the air, his model was attached to the chimney pipe of a gas stove. The heat would rise through the chimney pipe and work its way by natural force to the bonnet.
Within 10 years, the number of electrocution deaths by blow dryers had dropped from a few hundred per year down to less than five per year.
The first patent for a handheld hair dryer was awarded to Gabrial Kazanjian, an Armenian American, in 1911. As stated in his patent, his model "includes a heater and a fan for forcing a blast of hot air through the heater and which is capable of manual manipulation, so that a lady can conveniently operate the device." Handheld models first hit the consumer market in 1915, and throughout the 1920s small alterations were made, allowing them to become smaller and easier to manipulate. Despite this, they often weighed around two pounds.
In the 1950s and 1960s, hair dryers took major steps forward when the motor was moved inside the casing, the construction of which had switched to lightweight plastics. Even with all of the innovations being made in hair dryer technology, they still faced safety issues. There were many instances of them overheating or causing electrocution. This prompted the U.S. Consumer Product Safety Commission to step in during the 1970s and create a set of specifications that hair dryers had to meet to be considered safe to sell. Further regulation took place in 1991 when that same organization mandated the use of ground fault circuit interrupters to prevent the possibility of electrocution. Within 10 years, the number of electrocution deaths by blow dryers had dropped from a few hundred per year down to less than five per year.
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