HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.
HARD: A special hardening layer is applied to both sides of the lens in order to extend its scratch resistance and protect it against daily wear and tear. This hardening layer is applied bydipping the lens into special enamels of different refractive indexes so as to lend it a high degree of abrasion resistance.