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Blog posts of '2018' 'June'

LENS MATERIAL: TRIVEX VERSUS POLYCARBONATE

To Trivex or to Polycarb?

For the lay-person, understanding different lens materials are potentially foreign ground. It was with this in mind that we decided to demystify some lens materials and clarify both the benefits and limitations of two of the most popular lens materials available. The question we set about answering: which is better for your optical lenses – trivex or polycarbonate?

 

--->Both materials are popular and for good reason. When eye safety or protection, as well as durability, is a concern, both polycarbonate and Trivex lenses are excellent lens materials for your eyeglasses, sunglasses and sports eyewear. Both provide excellent visual solutions to many different lifestyles.

 

--->Polycarbonate and Trivex lenses are thinner and lighter than regular plastic lenses.

 

--->They also offer 100 per cent protection from the sun's harmful UV light and are up to 10 times more impact-resistant than other plastic lenses. It’s because of these properties that both of these lens materials are a very good choice for children's glasses and, of course, safety glasses.

 

It is advisable to apply a hard coating (anti-scratch protection) to polycarbonate and Trivex lenses, as they are a ‘soft’ material and can scratch easily. This means that they absorb energy, which is why they are impact resistant. (All Torga Optical lenses come standard with a tough hard coating / anti-scratch protection coating.)

 

Polycarbonate lenses: a brief history

Polycarbonate was developed in the 1970s for aerospace applications and is currently used for the helmet visors of astronauts and for space shuttle windshields. Eyeglass lenses made of polycarbonate were introduced in the early 1980s in response to a demand for lightweight, impact-resistant lenses.

 

Since then, polycarbonate lenses have become the standard for safety glasses, sports eyewear and children's glasses. Because they are less likely to fracture than regular plastic lenses, polycarbonate lenses are also a good choice for rimless eyewear designs where the lenses are attached to the frame components with drill mountings.

 

Most other plastic lenses are made from a cast moulding process, where a liquid plastic material is baked for long periods in lens forms, solidifying the liquid plastic to create a lens. However, polycarbonate is a thermoplastic that starts as a solid material in the form of small pellets. In a lens manufacturing process called injection moulding, the pellets are heated until they melt. The liquid polycarbonate is then rapidly injected into lens moulds, compressed under high pressure and cooled to form a finished lens product in a matter of minutes.

 

Trivex lenses: the low-down

In 2001 a rival lens material called Trivex was developed. Like polycarbonate, lenses made of Trivex are thin, lightweight but are even more impact-resistant than polycarbonate.

 

Trivex lenses are composed of a urethane-based monomer and are made from a cast moulding process similar to how regular plastic lenses are made. Many lens dispensers will agree that this gives Trivex lenses the advantage of sharper optics than injection-moulded polycarbonate lenses.

 

Optical professionals generally concur that Trivex is the superior lens material.

 

Let’s sum up. Polycarbonate versus Trivex Lenses: A Quick Comparison

Here is a useful comparison of polycarbonate and Trivex:

 

Trivex

Polycarbonate

lighter

thinner

sharper central vision; better clarity

 

 

higher Abbe = less chromatic aberration = sharper peripheral vision

   

 

even more impact resistant; stronger

impact resistant

chemical resistant

not chemical resistant

100% UV protection

100% UV protection

“soft” – requires a hard coating to prevent scratching

“soft” but require a hard coating to prevent scratching

costs more

costs less

 

 Please note: It is important that you should always discuss your options with your optometrist in order to find the best solution for you – one that will suit your lifestyle as well as your budget.

 

Click here to make an online booking at your nearest Torga Optical store.

 

The above article was compiled with a professional consultation from Andre Brits (FOA(Disp)SA).

What do you see?
What do you see?

Grey and teal, or is it pink and white?

 

This image has been buzzing around social media for a while now, keeping colleagues arguing, families fighting, and generally generating quite a buzz on both Facebook and Twitter. And yet there has been no convincing reason put forward as to why people fall very distinctly into either the pink-n-white camp or the grey-n-green one (much like #thedress from 2012!).

 

There is no right or wrong answer. (Well, actually there is, but let’s wait till later to discuss that.)

 

We decided to set about trying to figure out the reasons. We asked a fine artist for her professional opinion. Then to balance things, a cognitive researcher was called upon to put forward a more scientific explanation for this optical illusion. Lastly, we asked one of our esteemed Torga optometrists, Elani Van Der Westhuizen, for her two cents. Here’s what they all said:

 

Fine artist, Sally Rumball, who expressively uses colour in all her paintings, was intrigued and offered us this explanation:

“To me, it’s about colour relationships. If you replace the background with black, the shoes (which were grey and teal to me at first) turn pink and white. I cannot explain it in terms of science, but I feel it has something to do with the relationship that one has with different colours and the placement of different colours together. (Please tell me what the science people say! ;-)”

 

A researcher in cognitive science, Jon Mirkel said: “It is as if there is a perceptual equivalent of those who can roll their tongues and those who can’t. But I think that it is too early to say whether the difference is genetic, as with tongue rolling ability, or something affected by learning and personality. One’s particular sensitivity to context in perception could also have a bearing.”

 

Mirkel explains how context may play a part in this case: "Many people may be unconsciously factoring into their cognitive processes the fact that shoelaces are usually white, and therefore see them as white, automatically filtering other hues. Others might be taking visual cues and associations from the tones and colours of other objects in the image, such as the hand holding the shoe, for example."

 

Elani Van Der Westhuizen, one of Torga Optical’s professional optometrists, begins her explanation with a straight-forward question: what is colour? “In order to see colour, we need an object, an observer and light. Pure white light (colourless light) contains all colours in the visible spectrum. When light hits an object some of these colours are absorbed and only the reflected colours are then visible to the eye. Your brain figures out what colour light is bouncing off the object by subtracting that colour from the real colour of the object,” explains Elani.

 

All colours have different wavelengths. These colour wavelengths hit the retina in the back of the eye (the cone cells, specifically) where the pigments transmit signals to the part of the brain that processes these signals into an image and colour.

 

According to Elani, human beings are better able to see in daylight. However, daylight changes the colour of everything we see. The human eye will compensate for the chromatic bias of daylight colour. This also includes objects seen under artificial light. An incandescent light bulb looks yellowish and has the tendency to bring out warmer colours in objects. A fluorescent light bulb has bluer light available and will bring out a cooler ‘feel’ to objects. Could this have an effect on how people see the colours of the shoe?

 

As the debate is surrounding a digital photograph we also need to think of the digital visual aspects.  The image in question was taken in low light conditions, either due to low light in the room, or how the camera perceived/recorded the light in the room. This will, as mentioned above, affect how the object reacts, and reflects the visible light, and thus what colour the shoe seems to be.

 

At the end of the day, what we could be experiencing is just a colour illusion. Colour illusions are images where the object’s surrounding colours trick the eye into incorrectly interpreting the true colour of the object. What’s happening in this image is that your eye is either discounting the grey so that you see pink and white, or discounting the pink so that you see green and grey. But why would your eyes lie to you like this? 

 

To tie in with our artist’s (Ms Rumball’s) point-of-view, the answer could be that most people will see the shoe against a white background as grey and teal. But on a black background, some (the minority) see it as pink and white. Or, is it genetic visual capability combined with preconceptions, as our brainy researcher suggests? One thing is certain, and backed up by Elani (Torga optometrist), is that light plays an important part.

 

So, what colour is the shoe? Is there a correct answer? Yes, there is.

 

The trainer is, in fact, pink and white. This particular brand of trainers didn’t ever make a teal and grey version. The majority of people see teal and grey, but they are wrong. Those of us who see pink and white is quite right!

 

 

Professional consultation from:

Sally Rumball (BA Visual Arts (UJ))

Jon Mirkel (BHSc (Wits))

Elani Van Der Westhuizen (BOptom (UJ))

Claire Wiggill (BOptom (UJ))

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