Lens material by rawal singh
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Ophthalmic lens material
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Lens material by rawal singh
- 1. Lens Material By- Rawal Singh Optometrist
- 2. Crown Glass • It is a mixture of sand , soda and lime • Later on it gets addition of oxides for tint ,R.I • Refractive index of 1.523 • Highly transparent material ,resist most chemicals, does not discolor on aging. • Specific gravity of 2.54 g/cm3 • Glass has the abbe value of 58.6/57
- 3. Refractive index of Crown glass Refractive index Abbe Value Specific Gravity Manufacturer 1.523 58.6 2.54 Crown glass 1.523 57 2.41 Photography 1.60 42 2.38 Clear16 1.60 42.2 2.73 Photography16 1.706 31 2.99 High lite 1.805 25.4 3.39 High lite 1.805 25.4 5.18 SF-6
- 4. Specifications of Crown glass • High index glass is made with titanium oxide and glass mixture • Titanium increases the R.I of glass but also increased the chromatin dispersion and density. • Flint glass SF-6 is used for X-ray protection as it was also a high index material but couldn’t be tempered to meet FDA.
- 5. Advantages of crown glass • More transparent • Can not be scratched easily • Higher indexes are available than plastic • Higher abbe value so less chromatic aberrations • Does not get discolor in aging • Cost effective
- 6. Disadvantages of Crown glass • More weight • Easily breakable • Less choice PAL • Less technology in ARC and photo chromatic lenses
- 7. Plastic lenses • It is an allyl resin • CR-39 is a polymer that will not soften when heated hence it is also known as thermosetting plastic. • SRC coating applied to both surface of lenses but may be applied to front surface of semi finished multifocal • SRC on back surface can be applied on multifocal after surfacing
- 8. Cont….. • More SRC more difficult to tint • SRC damaged by excess heat • SRC coated lenses can not be over heated in salt pan or air blower • After prolonged exposure to cold air glass & plastic lenses will fog when bought into a warm, humid environment. • Because plastic lenses have lower thermal conductivity hence clear more slowly than glass
- 9. Cont…. • Plastic lenses are better in terms of fog for less exposure activity in cold air than glass • Anti fog spray cause condensation to form a thin film rather than droplets on lens surface with less effect on visual acuity.
- 10. Advantages of Plastic lenses • Lighter in weight • Higher impact resistant than crown glass • Available in multi designs • More choices in multifocal lenses • Lighter in weight for high R.I also • Easy to grind • Can be tinted
- 11. Disadvantages of plastic lenses • More prone to scratches • Less choice in high R.I • Prone to discolor in aging
- 12. Refractive indexes Refractive index Abbe value Density Manufacturer 1.498/1.50 58 1.32 CR-39 PPG 1.530/1.53 45 1.10 CR-39 PPG 1.537/1.54 47 1.21 SPECTRALITE(SOLA) 1.549/1.55 38 1.24 EASYLITE 1.557/1.56 36 1.24 EVOCLEAR 1.586/1.59 31 1.20 POLYCARBONATE 1.595/1.60 36 1.36 THIN &LITE 1.660/1.66 32 1.35 HYPERINDEX 1.694/1.70 36 1.41 EYRY (HOYA)
- 13. Polycarbonate • Used in industrial protective eyewear • Can be surfaced to 1mm center thickness • It is thermoplastic as it will be soften when heated • It is flexible and impact resistant • Higher index lenses reflects light more hence ARC is must • Chromatic aberrations are more when pt looks away from optic axis
- 14. Cont…. • Absorbs all UV rays (below380nm)
- 15. Advantages of polycarbonate • Highly impact resistant • 100% UV protection • Thinner lenses • Good for childeren
- 16. Disadvantages of polycarbonate • More prone to scratches as compare to cr-39 • Lesser the abbe value so more chromatic dispersion
- 17. Trivex • Better abbe value than polycarbonate • Similar impact resistant to polycarbonate • 100% UV protection • Thinner lenses • Superior optics , impact resistant, ultra light weight
- 18. NXT Material 2 • Light weigh material • Strong and compatible with photo chromatic pigments and with polarization. • Helmet visors , airline cockpit door view ports, • R.I 1.53 and density of a 1.11 an abbe value of 45 and is highly flexible.
- 19. Laminated lenses • Lenses those are made from two or more layers of material
- 20. Properties of ophthalmic lenses • A beam of light fall on a lens surface, some of light passes, some of light reflected, some of light is absorbed by material • Reflectance • Absorption • Transmittance • Intensity of beam= R+A+T
- 21. Abbe value • Degree to which light is dispersed while entering a lens material. • Dispersion is the amount that the material spreads out the different wavelength of light passing through it. • Lower the abbe value greater the dispersion and affects the peripheral optics. • Abbe value cant be affected by any surface technique as its material property.
- 22. Reflectance • Light reflection at each of lens surface • Result in loss of lens transparency • R=100(n-1)2/(n+1)2 its calculated from the refractive index of material. • Higher the R.I greater the reflectance
- 23. Cont…. Refractive index % of light reflected 1.5 7.8 1.6 10.4 1.7 12.3 1.8 15.7 1.9 18.3
- 24. Absorption • Percentage of light absorbed between front and back surfaces of lens
- 25. Refractive index • Ratio between velocity of light in air to the velocity of light in the given medium and denoted by n’ • N=velocity of light in air/velocity of light in the medium • It describes the ability to bend light • Higher index more it is able to bend light
- 26. Specific gravity • Physical density or weight of material in grams per cubic centimeter
- 27. Impact resistance • Dropping a 5/8 steel ball from 50inch onto the lens • Lens is place front side up on a neoprene gasket.