Ultimate Comfort and Care
Gentle Comfort for Sensitive Skin
For those with sensitive skin, finding the right clothing can be a challenge. At Silverlyne, we've partnered with leading partners to craft Angora-based base layers, designed to provide gentle warmth, unparalleled softness, and irritation-free wear.
Key features for Angora-based layers

Angora blend
Angora blend
Choose from one of the 20% to 100% blends for optimal softness and performance for you.
Seamless construction
Seamless construction
To eliminate chafing and pressure points.
Eco-friendly dyeing process
Eco-friendly dyeing process
To Avoid harsh chemicals that irritate sensitive skin.
Experience the Difference
Frequently Asked Questions
1. Why is Angora better for sensitive skin?
Angora fibers are ultra-fine and naturally hypoallergenic, which reduces skin irritation caused by friction or allergens in synthetic fabrics.
Read more here:
Takahashi, M., Matsuzaki, Y., Nakano, H. and Sawamura, D. (2020), Partial spontaneous regression of pediatric large fibroblastic connective tissue nevus. J Dermatol, 47: e232-e234. https://doi.org/10.1111/1346-8138.15320
https://linkinghub.elsevier.com/retrieve/pii/S0022202X18302355
https://onlinelibrary.wiley.com/doi/10.1111/1346-8138.15320
2. How does Angora compare to other fabrics in softness?
Angora fibers typically measure 10-15 microns, compared to Merino wool (15-25 microns) and regular wool (30+ microns), making Angora significantly softer. The finer the fiber, the softer and less irritating it is to the skin.
Read more here:
https://www.heddels.com/2016/09/know-your-wools-cashmere-lambswool-angora-and-more/
3. Can Angora layers regulate body temperature effectively?
Yes, Angora fibers are hollow, providing superior insulation. This helps trap warm air while wicking moisture, keeping you warm without overheating.
Read more here:
Gamze Süpüren Mengüç, Nilgün Özdil, and Gonca Özçelik Kayseri, “Physical Properties
of Angora Rabbit Fibers.” American Journal of Materials Engineering and Technology, vol. 2, no. 2 (2014): 11-
13. doi: 10.12691/materials-2-2-2