b'POLARISATIONEYE SAFETY INFORMATION PPE - EYE PROTECTIONPolarised LensesLight can bounce and reflect off a myriad of surfaces, such as water, snow and the road. Polarising technology removes the glare and the stress it causes to your eyes.The lenses block virtually 99.99% of UVA/ UVB rays, protection that goes well beyond government and commercial standards. Non Polarised PolarisedWAVELENGTHS & UV LIGHTWe receive wavelengths through two organs; we see light through our eyes and we capture sound through our ears. From radio waves to gamma rays, wavelengths gradually constrict, causing their frequency to increase and making them consume more and more energy. Hence, waves gradually increase in intensity and therefore are more dangerous for the eyes.The sun emits three types of light waves and without the correct eye protection each in its own way can seriously affect the eye.Ultraviolet Light Rays: 5% of the suns energy reaches the earth in380 NMthis form. UV rays (invisible tanning rays) can cause serious damage10to the unprotected eye including the development of cataracts andGammacorneal blistering. 380 NM10 X raysUV Infrared Light Rays: 50% of the suns energy reaches the earth asGammaheat or infrared. Some IR rays will be absorbed by the cornea creatingIRa drying effectan issue of importance to contact lens wearers. Micro Waves X raysTelevisionUV Visible Light Rays: 45% of the suns energy reaches the earth in what Radiothe eye perceives as colour. Blue Light waves are the most difficult toIRRadarsee. When the unprotected eye strains to focus on it, all other coloursMicro Waves780 NMcan be distorted. After two to three hours in bright sunlight, eyes canTelevision10 -13 NMhave trouble adjusting to night vision. Complete Spe\x14rum Visible Spe\x14rumRadioRadar 780 NMThe human eye is not able to identify the various elements of a ray - it only sees the results, which are a function of the different wavelengths and their respective light intensity. The human eye can only see wavelengths within the visible spectrum (between 380 and 780 nanometres).10 -13 NMComplete Spe\x14rum Visible Spe\x14rumInvisible Spe\x14rum - U.V. Visible Spe\x14rum Invisible Spe\x14rum - Infrared - I.R.CONSEQUENCES OF VISIBLE, U.V. & I.R.MIDDLE INFRAREDU.V.C. U.V.B. U.V.A. INDIGO PURPLEBLUE GREEN YELLOWORANGE RED NEAR INFRAREDRADIATION ON THE EYEInvisible Spe\x14rum - U.V. Visible Spe\x14rum Invisible Spe\x14rum - Infrared - I.R.100 NM 280 NM 315 NM 380 NM 480 NM 500 NM 570 NM 600 NM 650 NM 780 NM 1400 NM 2000 NMU.V.C. U.V.B. U.V.A. INDIGO PURPLE BLUE GREEN YELLOWORANGE RED NEAR INFRARED MIDDLE INFRARED100 NM 280 NM 315 NM 380 NM 480 NM 500 NM 570 NM 600 NM 650 NM 780 NM 1400 NM 2000 NMRadiation Types Organs Affected Lens Lesions Consequences on SightUVC 100nm to 280nm Cornea Lesions of the Cornea Conjunctivitis / Partial BlindnessUVB 280nm to 315nm Cornea & Lens Premature Aging of the Lens Cataract / Conjunctivitis / Partial BlindnessUVA 315nm to 380nm Cornea & Lens Degeneration of the Retina Photoreceivers Cataract / Conjunctivitis / Partial BlindnessBlue light 380nm to 780nm Retina Photo Traumatism in the Case of Intense Glare Partial or Total BlindnessVisible light 380nm to 780nm Retina Macular Degeneration Visual Complaints / Uneven PerceptionNear IR 780nm to 1400nm Lens & Retina Lens Opacification Pigmentary Retinitis / Cataract / BlindnessMiddle IR 1400nm to 2000nm Lens Cataract / Partial BlindnessMaterial Courtesy of Boll SafetyCLICK&COLLECTCALL132 100OR SHOP24/7ATRSEA.COM.AU FREE Pick-up from our Stores 173'