BS EN ISO 12311:2013:2015 Edition
$215.11
Personal protective equipment. Test methods for sunglasses and related eyewear
| Published By | Publication Date | Number of Pages |
| BSI | 2015 | 96 |
This International Standard specifies reference test methods for determining the properties of sunglasses given in ISO 12312 (all parts). It is applicable to all sunglasses and related eyewear.
Other test methods may be used if proven to be equivalent.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 9 | Section sec_1 Section sec_2 Section sec_3 Section sec_4 1 Scope 2 Normative references 3 Terms and definitions 4 Prerequisites |
| 10 | Section sec_5 Section sec_6 Section sec_6.1 Section sec_6.2 Section sec_6.2.1 Section sec_6.2.2 5 General test requirements 6 Test methods for assessing the construction and materials 6.1 Prior assessment of construction, marking and information 6.2 Test method for assessment of filter material and surface quality |
| 11 | Table tab_a Figure fig_1 Section sec_6.2.3 Section sec_6.2.4 Section sec_7 Section sec_7.1 Section sec_7.1.1 Section sec_7.1.1.1 7 Test methods for measuring spectrophotometric properties 7.1 Measurement of spectral transmittance τ(λ) |
| 12 | Table tab_1 Section sec_7.1.1.2 Section sec_7.1.2 |
| 13 | Section sec_7.2 Section sec_7.2.1 Section sec_7.2.1.1 Table tab_b Figure fig_2 7.2 Measurement of uniformity of luminous transmittance |
| 14 | Section sec_7.2.1.2 Section sec_7.2.1.3 Section sec_7.2.2 Section sec_7.2.2.1 |
| 15 | Section sec_7.2.2.2 Section sec_7.2.2.3 Section sec_7.3 Section sec_7.3.1 Section sec_7.3.2 7.3 Calculation of ultraviolet transmittance |
| 16 | Section sec_7.3.3 |
| 17 | Section sec_7.4 Section sec_7.5 Section sec_7.6 7.4 Calculation of solar blue-light transmittance τsb 7.5 Calculation of solar IR transmittance τSIR 7.6 Measurement of absolute spectral reflectance ρ(λ) |
| 18 | Table tab_2 Section sec_7.7 7.7 Absolute luminous reflectance ρV |
| 19 | Section sec_7.8 Section sec_7.9 Section sec_7.9.1 Section sec_7.9.2 Section sec_7.9.2.1 Section sec_7.9.2.2 7.8 Calculation of relative visual attenuation quotient for signal light detection Qsignal 7.9 Wide angle scatter |
| 20 | Section sec_7.9.3 Section sec_7.9.4 |
| 21 | Section sec_7.9.5 Table tab_l Figure fig_3 |
| 22 | Section sec_7.9.6 Section sec_7.10 Section sec_7.10.1 Section sec_7.10.1.1 Section sec_7.10.1.1.1 Section sec_7.10.1.2 7.10 Polarizing filters |
| 23 | Table tab_m Figure fig_4 Section sec_7.10.2 Section sec_7.10.2.1 Section sec_7.10.2.2 |
| 24 | Section sec_7.10.2.3 |
| 25 | Section sec_7.11 Section sec_7.11.1 Table tab_3 Section sec_7.11.1.1 Table tab_o Figure fig_5 7.11 Photochromic filters |
| 26 | Section sec_7.11.1.2 Section sec_7.11.2 Section sec_7.11.3 Section sec_7.11.3.1 Section sec_7.11.3.2 |
| 27 | Section sec_7.11.3.3 Table tab_4 Section sec_8 Section sec_8.1 Section sec_8.1.1 Section sec_8.1.2 Section sec_8.1.2.1 8 Test methods for measuring optical properties 8.1 Test method for spherical, astigmatic and prismatic refractive powers |
| 28 | Table tab_p Figure fig_6 Section sec_8.1.2.2 Section sec_8.1.2.3 |
| 29 | Figure fig_7 Section sec_8.1.2.4 Section sec_8.1.3 Section sec_8.1.4 Section sec_8.1.4.1 |
| 30 | Table tab_q Figure fig_8 Section sec_8.1.4.2 |
| 31 | Section sec_8.1.4.3 Section sec_8.1.5 Section sec_8.2 Section sec_8.2.1 Section sec_8.2.2 Section sec_8.2.3 8.2 Test method for the prism imbalance of complete sunglasses or filters covering both eyes |
| 32 | Table tab_r Figure fig_9 Section sec_8.2.4 |
| 33 | Section sec_8.3 Section sec_8.3.1 8.3 Test method for local variations in refractive power |
| 34 | Table tab_t Figure fig_10 Section sec_8.3.2 Section sec_8.3.2.1 Section sec_8.3.2.2 Section sec_8.3.2.3 |
| 35 | Section sec_8.3.2.4 Section sec_8.3.2.5 Table tab_u Figure fig_11 |
| 36 | Section sec_8.3.3 Section sec_8.3.4 |
| 37 | Table tab_v Figure fig_12 Table tab_w Figure fig_13 |
| 38 | Figure fig_14 Section sec_9 Section sec_9.1 Section sec_9.1.1 Section sec_9.1.2 Section sec_9.1.2.1 Section sec_9.1.2.2 Section sec_9.1.3 9 Test methods for mechanical properties 9.1 Test method for minimum robustness of filters |
| 39 | Section sec_9.1.4 |
| 40 | Table tab_x Figure fig_15 |
| 41 | Section sec_9.2 Section sec_9.2.1 Section sec_9.2.2 Section sec_9.2.2.1 Section sec_9.2.2.2 Section sec_9.2.2.3 9.2 Test method for impact resistance of filters, strength level 1 |
| 42 | Table tab_y Figure fig_16 |
| 43 | Figure fig_17 Section sec_9.2.3 Section sec_9.2.4 Section sec_9.3 Section sec_9.3.1 Section sec_9.3.2 Section sec_9.3.2.1 9.3 Test method for impact resistance of sunglasses, strength level 1 |
| 44 | Section sec_9.3.2.2 Section sec_9.3.2.3 Section sec_9.3.3 Section sec_9.3.3.1 Section sec_9.3.3.2 Section sec_9.3.3.3 Section sec_9.3.3.4 Section sec_9.3.3.5 Section sec_9.3.3.6 Section sec_9.3.3.7 Section sec_9.3.4 Section sec_9.4 Section sec_9.4.1 9.4 Test method for impact resistance of sunglasses, strength level 2 |
| 45 | Section sec_9.4.2 Section sec_9.4.2.1 Section sec_9.4.2.2 Section sec_9.4.2.3 Section sec_9.4.3 Section sec_9.4.3.1 Section sec_9.4.3.2 Section sec_9.4.3.3 Section sec_9.4.3.4 Section sec_9.4.3.5 Section sec_9.4.3.6 Section sec_9.4.3.7 Section sec_9.4.4 Section sec_9.5 Section sec_9.5.1 9.5 Test method for impact resistance of sunglasses, strength level 3 |
| 46 | Section sec_9.5.2 Section sec_9.5.2.1 Section sec_9.5.2.2 Section sec_9.5.2.3 Section sec_9.5.2.4 Section sec_9.5.3 Section sec_9.5.3.1 Section sec_9.5.3.2 |
| 47 | Section sec_9.5.3.3 Section sec_9.5.3.4 Section sec_9.5.3.5 Section sec_9.5.3.6 Section sec_9.5.4 Section sec_9.6 Section sec_9.6.1 Section sec_9.6.2 Section sec_9.6.2.1 Section sec_9.6.2.2 Section sec_9.6.2.3 9.6 Test method for frame deformation and filter retention |
| 48 | Table tab_z Figure fig_18 Section sec_9.6.3 |
| 49 | Table tab_ab Figure fig_19 Section sec_9.6.4 |
| 50 | Section sec_9.6.5 Section sec_9.7 Section sec_9.7.1 Section sec_9.7.2 Section sec_9.7.2.1 Section sec_9.7.2.2 9.7 Test method for increased endurance of sunglasses |
| 51 | Table tab_ac Figure fig_20 Section sec_9.7.3 Section sec_9.7.3.1 Section sec_9.7.3.2 |
| 52 | Table tab_ad Figure fig_21 |
| 53 | Table tab_ae Figure fig_22 Section sec_9.7.3.3 |
| 54 | Section sec_9.7.4 Section sec_9.7.5 Section sec_9.8 Section sec_9.8.1 Section sec_9.8.2 Section sec_9.8.2.1 9.8 Test method for resistance to solar radiation |
| 55 | Table tab_af Figure fig_23 Section sec_9.8.3 |
| 56 | Section sec_9.8.4 Section sec_9.9 Section sec_9.9.1 Section sec_9.9.2 Section sec_9.9.2.1 Section sec_9.9.2.2 Section sec_9.9.2.3 Section sec_9.9.2.4 Section sec_9.9.3 Section sec_9.9.4 Section sec_9.9.5 Section sec_9.10 Section sec_9.10.1 9.9 Test method for resistance to ignition 9.10 Test for resistance to perspiration of the sunglass frame |
| 57 | Section sec_9.10.2 Section sec_9.10.2.1 Section sec_9.10.2.2 Section sec_9.10.2.3 Section sec_9.10.2.4 Section sec_9.10.2.5 Section sec_9.10.2.6 Section sec_9.10.3 Section sec_9.10.3.1 Section sec_9.10.3.2 Section sec_9.10.3.3 |
| 58 | Section sec_9.10.3.4 Section sec_9.10.3.5 Section sec_9.10.3.6 Table tab_ag Figure fig_24 |
| 59 | Section sec_9.10.4 |
| 60 | Annex sec_A Table tab_ah Figure fig_A.1 Annex A (normative) Application of uncertainty of measurement |
| 61 | Table tab_ai Figure fig_A.2 Table tab_aj Figure fig_A.3 |
| 62 | Annex sec_B Annex sec_B.1 Annex sec_B.2 Annex B (informative) Sources of uncertainty in spectrophotometry and their estimation and control |
| 63 | Annex sec_B.3 Annex sec_B.3.1 Annex sec_B.3.2 Annex sec_B.3.2.1 |
| 64 | Table tab_B.1 Annex sec_B.3.2.2 Annex sec_B.3.2.3 Annex sec_B.3.2.4 |
| 65 | Table tab_B.2 Table tab_B.3 |
| 66 | Annex sec_B.3.2.5 Annex sec_B.3.2.6 Annex sec_B.3.3 Annex sec_B.3.3.1 Annex sec_B.3.3.2 |
| 67 | Annex sec_B.3.3.3 Annex sec_B.3.4 Annex sec_B.3.4.1 |
| 68 | Annex sec_B.3.4.2 Annex sec_B.3.4.3 Annex sec_B.3.4.4 Annex sec_B.3.4.5 Annex sec_B.3.4.6 |
| 69 | Annex sec_C Annex sec_C.1 Annex sec_C.2 Annex sec_C.2.1 Annex sec_C.2.2 Annex sec_C.2.2.1 Annex sec_C.2.2.2 Annex C (informative) Definitions in summations form |
| 70 | Annex sec_C.2.2.3 Annex sec_C.2.3 Annex sec_C.2.4 |
| 71 | Annex sec_C.2.5 Annex sec_C.2.6 |
| 73 | Annex sec_D Table tab_D.1 Annex D (normative) Product of the energy distribution of Standard Illuminant D65 as specified in ISO 11664-2 and the spectral visibility function of the average human eye for daylight vision as specified in ISO 11664-1 |
| 74 | Annex sec_E Table tab_E.1 Annex E (normative) Spectral functions for the calculation of solar UV and solar blue light transmittance values |
| 76 | Annex sec_F Table tab_F.1 Annex F (normative) Spectral distribution of solar irradiance in the infrared spectrum for the calculation of the solar infrared transmittance[7] |
| 78 | Annex sec_G Annex G (normative) Reference test headforms |
| 79 | Figure fig_G.1 |
| 80 | Annex sec_H Table tab_H.1 Annex H (normative) Spectral distribution of radiation in incandescent signal lights weighted by the sensitivity of the human eye V(λ) |
| 83 | Annex sec_I Table tab_I.1 Annex I (informative) Spectral distribution of radiation in LED signal lights weighted by the sensitivity of the human eye V(λ) |
| 86 | Annex sec_J Table tab_J.1 Annex J (normative) Long wavelength pass filter |
| 90 | Annex sec_K Table tab_K.1 Annex K (informative) Method of variable distance for the calibration of the telescope |
| 92 | Annex sec_L Annex L (normative) Method to correct transmittance for variations in thickness of the filter |
| 93 | Reference ref_1 Reference ref_2 Reference ref_3 Reference ref_4 Reference ref_5 Reference ref_6 Reference ref_7 Reference ref_8 Reference ref_9 Reference ref_10 Bibliography |
