What is the difference between seamless clip in hair extensions and classic tradtional clip in hair extensions?
Seamless clip-in hair extensions and classic traditional clip-in hair extensions differ mainly in their construction and design. Here are the key differences:
Construction: Traditional clip-in hair extensions have a weft or track onto which the hair is sewn or bonded. These wefts have visible seams that can be noticeable when attached to the hair. Seamless clip-in extensions, on the other hand, are made using a thin silicone base that is transparent and flexible. The hair is then hand-tied to the base, giving the extension a more natural and seamless look.
Attachment: Traditional clip-in extensions are attached to the hair using metal clips that snap open and close. The clips are typically sewn onto the weft and can be bulky and uncomfortable to wear. Seamless clip-in extensions, on the other hand, have a more discrete attachment system. The silicone base is designed to mimic the natural shape of the scalp, and the extensions can be attached using small, lightweight clips that blend in with the hair.
Comfort: Because traditional clip-in extensions use a weft with sewn-in hair and metal clips, they can be bulky and heavy to wear. This can cause discomfort, especially if worn for an extended period. Seamless clip-in extensions, on the other hand, are designed to be lightweight and comfortable, making them a great option for those who want to wear extensions for an extended period.
Natural look: The seamless design of seamless clip-in hair extensions makes them more natural-looking than traditional clip-in extensions. The hair lies flat against the scalp and blends seamlessly with the natural hair. This gives the extensions a more realistic look, making it harder for others to tell that you're wearing extensions.
In summary, while both types of clip-in hair extensions can add length and volume to your hair, seamless clip-in extensions have a more natural look, are more comfortable to wear, and have a more discrete attachment system.