786.7098.750 86.77 86.6 Wavelength [µm] Refractive Index Partial Dispersion Fluorescence [Class] * - 2.252.5786 F - C 0.0056 Solarization [%] 2.5 λ [nm] τ (0 mm) - 2.05809.6052 F' - C' 0.005505 *: JOGIS 0 20 0.97 -.97009.60859 C - t 0.0057 250 0.98 -.52958.60 C - A' 0.00927 Transformation Temp. [ ] Tg 72 260 0.989 -.286.6690 d - C 0.0067 Yield Point [ ] At 95 270 0.99 -.06.67 e - C 0.002979 Expansion Coefficient 280 0.996 t.098.67850 g - d 0.0067 (-0 ~ +70 ) [0-7 / ] α 25 290 0.997 s 0.852.69 g - F 0.00292 (+00 ~ +00 ) [0-7 / ] 8 00 0.999 A' 0.7689.7097 h - g 0.0020 Thermal Conductivity [W/mK] λ 0.750 0 0.999 r 0.70652.765 i - g 0.0068 Specific Heat Capacity [J/gK] c 0.60 20 0.999 C 0.65627.722 C' - t 0.008 Thermal Diffusivity [cm 2 /sec] κ 0.0052 0 0.999 C' 0.685.7269 e - C' 0.00272 0 0.999 He-Ne 0.6282.7290 F' - e 0.00279 Knoop Hardness 58 50 0.998 D 0.58929.709 i - F' 0.009065 [Class] *2 60 0.998 d 0.58756.7098 Abrasion * A 5 65 0.998 e 0.5607.750 Relative Partial Dispersions Young's Modulus [GPa] E 77.7 70 0.999 F 0.86.77888 C-t/ F-C 0.87 Shear Modulus [GPa] G 29.9 80 0.999 F' 0.7999.7896 C-A'/ F-C 0.526 Poisson's Ratio µ 0.298 He-Cd 0.57.8026 d-c/ F-C 0.06 Stress Optical Coefficient [0-8 cm 2 /N] β 0.77 00 0.999 g 0.58.8082 e-c/ F-C 0.552 *2: JOGIS 09 20 0.999 *: JOGIS 0 h 0.066.825 g-d/ F-C.2288 0 0.999-0.8887.8670 g-f/ F-C 0.552 Water Resistance 60 0.999 2 i 0.6502.87260 h-g/ F-C 0.98 (powder method) [Class] * 80 0.999-0.5.959 i-g/ F-C.802 Acid Resistance - 0.26.9289 C'-t/ F'-C' 0.879 (powder method) [Class] * 550 0.999 e-c'/ F'-C' F'-e/ F'-C' 0.926 Acid Resistance 0.507 (surface method) [Class] *5 650 0.999 P C,A' -0.007 i-f'/ F'-C'.668 Alkaline Detergent Resistance 700 0.999 P d,c -0.0099 P g,d 0.062 Specific Gravity 900 0.998.55 P g,f 0.06 [g/cm ] [Class] *7 000 0.998 P i,g 0.729 *: JOGIS 06 *5: ISO 882 200 0.999 [wt%] *6: ISO 9689 00 0.998 600 0.99 A0 2.5266E+00 As 0.0 800 0.988 A -5.798E-0 2000 0.979 A2-2.528000E-05 n/ T relative value [0-6 / ] 2200 0.955 A 7.888E-0 Contact us for details on bubbles t C d e F g i 200 0.96 A 8.70985E-05-70 ~ -60 -. -.2 -. -. -2.9-2.8-2. A5-2.78652E-06-60 ~ -0 -.8 -.6 -.5 -.5 -. -.2-2.8 A6 2.599E-07-0 ~ -20 -.2 -. -.0 -.9 -.8 -.7 -. λ 80 - A7-8.9862525E-09-20 ~ 0 -.6 -. -. -. -.2 -.0 -.6 λ 5 - A8.29756E-0 0 ~ +20 -.9 -.7 -.7 -.6 -.5 -. -.9 *8 n 2 = A0 + A*λ 2 +A2*λ + A*λ -2 + A*λ - + A5*λ -6 + A6*λ -8 + A7*λ -0 +A8*λ -2 +20 ~ +0-5.2-5.0 -.9 -.9 -.7 -.6 -.2 atmospheric pressure:0.25 hpa +0 ~ +60-5.5-5.2-5.2-5. -.9 -.8 -. +60 ~ +80-5.7-5.5-5. -5. -5. -5.0 -.6 +80 ~ +90-5.8-5.6-5.5-5. -5. -5. -.7 Internal Transmittance Each property is shown as a typical value. 20/6
565.5829 6.95.570 6.78 Wavelength [µm] Refractive Index Partial Dispersion Fluorescence [Class] * - 2.252.8292 F - C 0.00788 Solarization [%] 0.5 λ [nm] τ (0 mm) - 2.05809.87729 F' - C' 0.00790 *: JOGIS 0 20 - -.97009.8978 C - t 0.00709 250 - -.52958.9567 C - A' 0.002865 Transformation Temp. [ ] Tg 56 260 - -.286.500796 d - C 0.0026 Yield Point [ ] At 60 270 - -.06.50657 e - C 0.007 Expansion Coefficient 280 - t.098.5025 g - d 0.009629 (-0 ~ +70 ) [0-7 / ] α 58 290 0.0 s 0.852.50892 g - F 0.0085 (+00 ~ +00 ) [0-7 / ] 7 00 0.22 A' 0.7689.506528 h - g 0.005 Thermal Conductivity [W/mK] λ.9 0 0.56 r 0.70652.507979 i - g 0.009270 Specific Heat Capacity [J/gK] c 0.80 20 0.82 C 0.65627.5099 C' - t 0.007 Thermal Diffusivity [cm 2 /sec] κ 0.0058 0 0.95 C' 0.685.50978 e - C' 0.00926 0 0.976 He-Ne 0.6282.508 F' - e 0.0000 Knoop Hardness 52 50 0.99 D 0.58929.5758 i - F' 0.00 [Class] *2 5 60 0.995 d 0.58756.5829 Abrasion * A 7 65 0.996 e 0.5607.570 Relative Partial Dispersions Young's Modulus [GPa] E 78.2 70 0.998 F 0.86.5727 C-t/ F-C 0.892 Shear Modulus [GPa] G 2.2 80 0.999 F' 0.7999.577 C-A'/ F-C 0.65 Poisson's Ratio µ 2.90 He-Cd 0.57.520906 d-c/ F-C 0.09 Stress Optical Coefficient [0-8 cm 2 /N] β 0.2 00 0.999 g 0.58.5258 e-c/ F-C 0.579 *2: JOGIS 09 20 0.999 *: JOGIS 0 h 0.066.5290 g-d/ F-C.229 0 0.999-0.8887.52699 g-f/ F-C 0.50 Water Resistance 60 0.999 i 0.6502.50728 h-g/ F-C 0.7 (powder method) [Class] * 80 0.999-0.5.56955 i-g/ F-C.76 Acid Resistance - 0.26.5897 C'-t/ F'-C' 0.970 (powder method) [Class] * 550 0.999 e-c'/ F'-C' 0.95 Acid Resistance F'-e/ F'-C' 0.509 (surface method) [Class] *5 650 0.999 P C,A' 0.0085 i-f'/ F'-C'.62 Alkaline Detergent Resistance 700 0.999 P d,c 0.0026 P g,d -0.0070 Specific Gravity 2. P g,f -0.00 [g/cm ] [Class] *7 000 0.999 P i,g -0.0099 *: JOGIS 06 *5: ISO 882 200 0.999 [wt%] *6: ISO 9689 00 0.976 600 0.99 A0 2.257688E+00 As 0.0 800 0.987 A -.05726E-02 2000 0.969 A2 -.25595E-0 n/ T relative value [0-6 / ] 2200 0.86 A.056599E-02 t C d e F g i 200 0.76 A.2020898E-0-70 ~ -60.0.2...6.8. A5.58E-06-60 ~ -0 2.8..2..5.7.2 A6 8.850E-08-0 ~ -20 2.8.0..2..7. λ 80 2 A7 0.0000000E+00-20 ~ 0 2.8.0.2..5.7. λ 5 297 0 ~ +20 2.9....6.9.5 *8 n 2 = A0 + A*λ 2 +A2*λ + A*λ -2 + A*λ - + A5*λ -6 + A6*λ -8 + A7*λ -0 +A8*λ -2 +20 ~ +0.0...5.8.0.7 +0 ~ +60.2.5.6.7.0..9 +60 ~ +80..7.8.0.2.5 5.2 atmospheric pressure:0.25 hpa +80 ~ +90.5.9.0...7 5. Internal Transmittance Each property is shown as a typical value. 20/6
572.576526 2.05.57978.77 Wavelength [µm] Refractive Index Partial Dispersion Fluorescence [Class] * 2 Internal Transmittance - 2.252.592 F - C 0.072 Solarization [%] 0.0 λ [nm] τ (0 mm) - 2.05809.5869 F' - C' 0.0879 *: JOGIS 0 20 - -.97009.5986 C - t 0.002 250 - -.52958.55528 C - A' 0.0050 Transformation Temp. [ ] Tg 22 260 - -.286.56082 d - C 0.00068 Yield Point [ ] At 6 270 - -.06.5675 e - C 0.0072 Expansion Coefficient 280 - t.098.5622 g - d 0.0778 (-0 ~ +70 ) [0-7 / ] α 87 290 - s 0.852.565569 g - F 0.00785 (+00 ~ +00 ) [0-7 / ] 08 00 - A' 0.7689.56795 h - g 0.00672 Thermal Conductivity [W/mK] λ 0.95 0 0.06 r 0.70652.5709 i - g 0.0868 Specific Heat Capacity [J/gK] c 0.6 20 0.55 C 0.65627.57258 C' - t 0.00885 Thermal Diffusivity [cm 2 /sec] κ 0.0090 0 0.88 C' 0.685.57099 e - C' 0.00668 0 0.965 He-Ne 0.6282.57699 F' - e 0.00797 Knoop Hardness 5 50 0.987 D 0.58929.57606 i - F' 0.025675 [Class] *2 60 0.99 d 0.58756.576526 Abrasion * A 05 65 0.995 e 0.5607.57978 Relative Partial Dispersions Young's Modulus [GPa] E 6.6 70 0.999 F 0.86.58670 C-t/ F-C 0.77 Shear Modulus [GPa] G 26.5 80 0.999 F' 0.7999.586978 C-A'/ F-C 0.28 Poisson's Ratio µ 2.97 He-Cd 0.57.59295 d-c/ F-C 0.2967 Stress Optical Coefficient [0-8 cm 2 /N] β 0.22 00 0.999 g 0.58.59005 e-c/ F-C 0.5 *2: JOGIS 09 20 0.999 *: JOGIS 0 h 0.066.60076 g-d/ F-C.277 0 0.999-0.8887.6090 g-f/ F-C 0.57 Water Resistance 60 0.999 i 0.6502.6265 h-g/ F-C 0.895 (powder method) [Class] * 80 0.999-0.5.62696 i-g/ F-C.600 Acid Resistance - 0.26.60987 C'-t/ F'-C' 0.782 (powder method) [Class] * 550 0.999 e-c'/ F'-C' 0.85 Acid Resistance 2 F'-e/ F'-C' 0.585 (surface method) [Class] *5 650 0.999 P C,A' 0.002 i-f'/ F'-C'.898 Alkaline Detergent Resistance 700 0.999 P d,c 0.0005 P g,d -0.0029 Specific Gravity.5 P g,f -0.002 [g/cm ] [Class] *7 000 0.999 P i,g -0.0 *: JOGIS 06 *5: ISO 882 200 0.999 [wt%] *6: ISO 9689 00 0.997 Pb 5 600 0.995 A0 2.0506E+00 As 0.0 800 0.97 A -8.26788E-0 2000 0.9 A2-8.0228E-05 n/ T relative value [0-6 / ] 2200 0.88 A.879259E-02 t C d e F g i 200 0.85 A 2.989586E-0-70 ~ -60 2.5...6..7 6.7 A5.0929E-05-60 ~ -0 2. 2.9.2..9.6 6.6 A6-2.258256E-06-0 ~ -20 2. 2.8...8.5 6.6 λ 80 0 A7.96286E-07-20 ~ 0 2.0 2.7.0..8.6 6.7 λ 5 0 A8 5.02856E-09 0 ~ +20 2.0 2.7.0..9.6 6.9 *8 n 2 = A0 + A*λ 2 +A2*λ + A*λ -2 + A*λ - + A5*λ -6 + A6*λ -8 + A7*λ -0 +A8*λ -2 +20 ~ +0 2. 2.8...0.8 7. atmospheric pressure:0.25 hpa +0 ~ +60 2. 2.9.2.5..9 7. +60 ~ +80 2.2.0..6. 5. 7.7 +80 ~ +90 2...5.8. 5. 7.9 Each property is shown as a typical value. 20/6
5859.59022 59.8.592790 59.0 Wavelength [µm] Refractive Index Partial Dispersion Fluorescence [Class] * - Internal Transmittance - 2.252.5558 F - C 0.009927 Solarization [%] 0.0 λ [nm] τ (0 mm) - 2.05809.565 F' - C' 0.009997 *: JOGIS 0 20 0.52 -.97009.5628 C - t 0.0086 250 0.7 -.52958.57076 C - A' 0.00557 Transformation Temp. [ ] Tg 607 260 0.85 -.286.57686 d - C 0.0005 Yield Point [ ] At 6 270 0.92 -.06.577892 e - C 0.00520 Expansion Coefficient 280 0.9 t.098.578726 g - d 0.0298 (-0 ~ +70 ) [0-7 / ] α 290 0.96 s 0.852.5880 g - F 0.0052 (+00 ~ +00 ) [0-7 / ] 58 00 0.97 A' 0.7689.588 h - g 0.000 Thermal Conductivity [W/mK] λ 0.88 0 0.980 r 0.70652.58560 i - g 0.0878 Specific Heat Capacity [J/gK] c 0.69 20 0.986 C 0.65627.5877 C' - t 0.009 Thermal Diffusivity [cm 2 /sec] κ 0.005 0 0.99 C' 0.685.587860 e - C' 0.009 0 0.99 He-Ne 0.6282.5885 F' - e 0.005066 Knoop Hardness 97 50 0.995 D 0.58929.590 i - F' 0.0662 [Class] *2 5 60 0.996 d 0.58756.59022 Abrasion * A 75 65 0.997 e 0.5607.592790 Relative Partial Dispersions Young's Modulus [GPa] E 79.9 70 0.998 F 0.86.597298 C-t/ F-C 0.8708 Shear Modulus [GPa] G.0 80 0.998 F' 0.7999.597857 C-A'/ F-C 0.58 Poisson's Ratio µ. He-Cd 0.57.6097 d-c/ F-C 0.07 Stress Optical Coefficient [0-8 cm 2 /N] β 0.289 00 0.999 g 0.58.602620 e-c/ F-C 0.560 *2: JOGIS 09 20 0.999 *: JOGIS 0 h 0.066.607022 g-d/ F-C.2288 0 0.999-0.8887.609700 g-f/ F-C 0.562 Water Resistance 60 0.999 i 0.6502.699 h-g/ F-C 0. (powder method) [Class] * 80 0.999-0.5.622529 i-g/ F-C.966 Acid Resistance 5-0.26.625067 C'-t/ F'-C' 0.96 (powder method) [Class] * 550 0.999 e-c'/ F'-C' 0.92 Acid Resistance 7 F'-e/ F'-C' 0.5068 (surface method) [Class] *5 650 0.999 P C,A' 0.00 i-f'/ F'-C'.667 Alkaline Detergent Resistance 700 0.999 P d,c 0.00 P g,d -0.07 Specific Gravity 2.87 P g,f -0.008 [g/cm ] [Class] *7 000 0.998 P i,g -0.05 *: JOGIS 06 *5: ISO 882 200 0.999 [wt%] *6: ISO 9689 00 0.966 600 0.982 A0 2.95858E+00 As 0.2 800 0.966 A -.27785E-02 2000 0.95 A2-2.08768E-0 n/ T relative value [0-6 / ] 2200 0.72 A.0825E-02 t C d e F g i 200 0. A.870E-0-70 ~ -60.9 5. 5. 5.5 5.7 5.9 6. A5 8.76075E-06-60 ~ -0.8 5. 5.2 5. 5.5 5.8 6. A6 -.80576E-07-0 ~ -20.6 5.0 5. 5.2 5. 5.7 6. λ 80 26 A7.699E-08-20 ~ 0.5.9 5. 5.2 5. 5.7 6.5 λ 5 222 0 ~ +20.6.9 5. 5.2 5.5 5.8 6.7 *8 n 2 = A0 + A*λ 2 +A2*λ + A*λ -2 + A*λ - + A5*λ -6 + A6*λ -8 + A7*λ -0 +A8*λ -2 +20 ~ +0.6 5.0 5.2 5. 5.6 6.0 6.9 +0 ~ +60.7 5. 5. 5.5 5.8 6.2 7.2 +60 ~ +80.8 5. 5.5 5.6 6.0 6. 7.5 atmospheric pressure:0.25 hpa +80 ~ +90.9 5. 5.6 5.8 6. 6.6 7.7 Each property is shown as a typical value. 20/6
705.706229 5.69.70908 5.6 Wavelength [µm] Refractive Index Partial Dispersion Fluorescence [Class] * 2 Internal Transmittance - 2.252.668299 F - C 0.029 Solarization [%] 0.0 λ [nm] τ (0 mm) - 2.05809.6785 F' - C' 0.0025 *: JOGIS 0 20 0.2 -.97009.675525 C - t 0.00588 250 0.9 -.52958.6806 C - A' 0.008 Transformation Temp. [ ] Tg 6 260 0.72 -.286.689607 d - C 0.00925 Yield Point [ ] At 66 270 0.8 -.06.69076 e - C 0.00700 Expansion Coefficient 280 0.90 t.098.6977 g - d 0.06025 (-0 ~ +70 ) [0-7 / ] α 57 290 0.95 s 0.852.69556 g - F 0.00708 (+00 ~ +00 ) [0-7 / ] 70 00 0.95 A' 0.7689.69782 h - g 0.00585 Thermal Conductivity [W/mK] λ 0.852 0 0.965 r 0.70652.700070 i - g 0.05859 Specific Heat Capacity [J/gK] c 0.558 20 0.975 C 0.65627.7020 C' - t 0.02 Thermal Diffusivity [cm 2 /sec] κ 0.009 0 0.98 C' 0.685.702929 e - C' 0.00678 0 0.988 He-Ne 0.6282.7052 F' - e 0.00666 Knoop Hardness 605 50 0.990 D 0.58929.7065 i - F' 0.02260 [Class] *2 6 60 0.992 d 0.58756.706229 Abrasion * A 75 65 0.99 e 0.5607.70908 Relative Partial Dispersions Young's Modulus [GPa] E 08.0 70 0.996 F 0.86.7527 C-t/ F-C 0.899 Shear Modulus [GPa] G.7 80 0.997 F' 0.7999.7595 C-A'/ F-C 0.72 Poisson's Ratio µ 2.07 90 0.998 He-Cd 0.57.722 d-c/ F-C 0.00 Stress Optical Coefficient [0-8 cm 2 /N] β 0.29 00 0.998 g 0.58.722255 e-c/ F-C 0.52 *2: JOGIS 09 20 0.998 *: JOGIS 0 h 0.066.72809 g-d/ F-C.20 0 0.998-0.8887.7685 g-f/ F-C 0.550 Water Resistance 60 0.998 i 0.6502.78 h-g/ F-C 0.5 (powder method) [Class] * 80 0.999-0.5.789 i-g/ F-C.228 Acid Resistance - 0.26.75269 C'-t/ F'-C' 0.8609 (powder method) [Class] * 550 0.998 e-c'/ F'-C' 0.897 Acid Resistance 5 F'-e/ F'-C' 0.50 (surface method) [Class] *5 650 0.998 P C,A' 0.0055 i-f'/ F'-C'.70 Alkaline Detergent Resistance 700 0.999 P d,c 0.002 P g,d -0.0097 Specific Gravity 900 0.998.9 P g,f -0.0076 [g/cm ] [Class] *7 000 0.999 P i,g -0.022 *: JOGIS 06 *5: ISO 882 200 0.999 [wt%] *6: ISO 9689 00 0.99 600 0.99 A0 2.856227E+00 As 0.2 800 0.98 A -.8600E-02 2000 0.95 A2 -.806E-0 n/ T relative value [0-6 / ] 2200 0.86 A.9696625E-02 t C d e F g i 200 0.60 A 2.879E-0-70 ~ -60.8.2..5.8 5.2 6.2 A5 5.95072E-06-60 ~ -0.6.0.2..7 5. 6.0 A6.2926E-07-0 ~ -20..8.0.2.5 5.0 6.0 λ 80 282 A7 0.0000000E+00-20 ~ 0..8.0.2.5 5.0 6.0 λ 5 27 0 ~ +20..8.0.2.6 5.0 6. *8 n 2 = A0 + A*λ 2 +A2*λ + A*λ -2 + A*λ - + A5*λ -6 + A6*λ -8 + A7*λ -0 +A8*λ -2 +20 ~ +0..9...7 5. 6. atmospheric pressure:0.25 hpa +0 ~ +60.5.0.2..8 5. 6.5 +60 ~ +80.6...6 5.0 5.5 6.7 +80 ~ +90.7.2.5.7 5. 5.6 6.9 Each property is shown as a typical value. 20/6