Okamoto 0.01 Rich Lubricative 2's Pack PU Condom
EAN Code4547691788917
uniform thinness from base to tip!
With continuously advancing technology, Okamoto brings along 0.01, the thinnest hydro polyurethane (PU) Condom among all Okamoto products.
Okamoto 0.01 is manufactured in Japan with quality guaranteed.
As the name suggests, Okamoto 0.01 is the thinnest condom ever at just 0.01mm* range. Besides being amazingly soft, you may feel no constriction with it. The warmth and natural sensation of partners are conveyed directly, bringing you and your partner closer together.
Zero rubber odour and suitable for latex sensitive users.
Okamoto 0.01 PU condom is made using an original formulation to be soft and supple.
When tested by filling the product with 350ml of water, elongation was nearly twice that of Okamoto 0.02 PU condom.It shows that 0.01 is so soft as to be hardly noticeable.
Okamoto 0.01 PU condom adopts advanced technology to achieve uniform thinness in the 0.01mm* range from the base to the tip*. Measurements by ISO-specified methods found the same thinness, in the 0.01mm* range, at the areas like the tip and bottom. Maintaining thinness in the 0.01mm* range even at the tip, where ordinary condoms tend to become thicker, results in more incredible feeling in use.
For a condom to be safe, it must not break, leak, or come off when using. Freedom from breakage is assured by bursting test, water leak test and electronic pinhole test. In addition, Okamoto 0.01 PU condom is elastic and fitter, so it is also free from falling off.
A new formulation of "hydro polyurethane" was developed for Okamoto 0.01. The "uniform 0.01mm-range thinness*", "safe durability", and "great supple feel" can all be attributed to this revolutionary development.
*Source: Okamoto Official Website (JP)
- *Use a condom only once. Non-vaginal use of condoms may increase the risk of them slipping or being damaged.
- *No method of contraception can provide 100% protection against pregnancy or sexually transmitted infections (STIs) including AIDS.