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  • - Hello just flew back from the lab in Iowa

  • and boy are my arms tired.

  • (rimshot)

  • (pop music)

  • Have you ever wondered how the lab knows

  • how well their AR coating will last?

  • Well the test used to determine that is

  • called the salt water boil test.

  • And we just happen to catch one being done

  • while we were at the lab and want to share it with you.

  • A few moments at the whiteboard before I show you

  • the actual test.

  • You may have noticed that I have a cold or I'm sick

  • there's a reason for that.

  • It was because I was traveling.

  • As the old saying goes it was almost like

  • I was asking for it.

  • I had my sleep cycle interrupted.

  • I was in airports and in planes.

  • I was in all kinds of public places.

  • I went out to eat, I went to the Y and worked out.

  • We were at the Iowa State Fair

  • 50,000 other people were there.

  • I was on the factory floor shaking hands,

  • touching all the equipment that other people were using.

  • After about five days I was sick

  • (sneeze) as if I was asking for it.

  • What we're about to do with this test

  • in the AR coating is kind of the exact same thing.

  • We're gonna scratch the front of the lens,

  • we're gonna score it up, boil it in some abrasives.

  • We're gonna actually take adhesives

  • and try to yank that AR coating off

  • the front of the lens.

  • We're gonna thermal shock the lens,

  • plunge it into boiling water and then take it out

  • and put it into room temperature.

  • We are trying to make that AR coating sink.

  • (sneeze) Normally that would take about

  • one to two years.

  • You don't kid yourself, even the very best AR

  • after a year starts to degrade.

  • You might get two years out of it.

  • And we're gonna try to mimic that one

  • to two years of use down to about 15 minutes.

  • Remember that the AR stack itself is actually

  • working the manometer level.

  • That the one-billion of an inch level.

  • You'll see that we use a microscope

  • even to capture the the scoring

  • that we do and the lifting that might occur.

  • The stack itself it could be

  • three layers, five layers, seven layers

  • anything depends on the manufacturer

  • and what they're calling a layer.

  • Those are elements and the elements play

  • pretty well together.

  • They they have good bonds and they like to stick together

  • and play together.

  • So it's fairly rare that those separate

  • as individual layers.

  • The stack if you took all these layers and slammed

  • them down to the molecular level,

  • this has to stick to the front surface of the lens.

  • That front surface of the lens has

  • that thermal hard coat on it.

  • That is prepped in a special bath so that

  • these can hold on to the front of the lens.

  • That's what we're testing, how well the AR layer

  • is adhering to the thermal coat layer which in turn

  • is adhering to the front surface of the lens.

  • This is everything.

  • You're going to see in a moment a pattern

  • that we scratch or score into the front of the lens

  • with a razor blade.

  • If I took one of the squares

  • in the six by six grid and

  • blew it up this would be my lens.

  • And because my layers are nanometers

  • and this could be a couple of millimeters,

  • this wouldn't be terribly unrealistic.

  • The layer that sticks to the top portion

  • this would be that the front surface of my lens here

  • is exposed because we score it on four sides.

  • So it is far more likely to have an issue with

  • the chemical that we're using, the tape that we're lifting

  • with, all of the things to want to peel away

  • from that little tiny millimeter section that it has.

  • And by creating the grid system we're giving it so many more

  • opportunities to fail.

  • That's why we do that.

  • The first step is to score the lens.

  • We do this using a basic razor blade and

  • we cut this six by six grid of approximately

  • one millimeter squares,

  • Just as I showed you on the whiteboard

  • this is done to greatly increase exposed edges

  • of the AR stack or layers.

  • (pop music)

  • After scoring we move to the lift pull test.

  • This is done with a special tape designed

  • specifically for the test.

  • The tape is firmly pressed across the grid

  • and allowed to sit for 30 seconds.

  • After that the tape is a bit away and closely

  • examined for any AR layers that may have pulled off.

  • (pop music)

  • After the lift pull test we get to the actual

  • boil part of the salt water boil test.

  • The salt is added for two reasons.

  • One, it's as a acts as a mild abrasive.

  • And two, it keeps the temperature more consistent

  • throughout the beaker.

  • In reality this test is a thermal shock test.

  • The lens is plunged into boiling water

  • for about two full minutes.

  • After that it's quickly removed and again dropped into

  • a beaker of room temperature water for one minute.

  • (pop music)

  • Once this shock test has been completed

  • you remove the lens and we inspected using this microscope.

  • And the microscope allows us to take a really up close look

  • at each of the edges within the grid.

  • What we're looking for is any kind of failure

  • or lifting around each one of the squares.

  • Next we move on to the hydra layer test.

  • This is also a two part test.

  • The first part test uses the lift pull tape

  • but what we do is we mark the lens

  • using an ordinary AR pen.

  • And then we try to peel that ink away

  • and hopefully it's going to remain on the tape,

  • which it does.

  • (pop music)

  • The second part of the hydra layer test

  • is the water droplet.

  • And all of you who are familiar with contact lenses

  • will remember wetting angle.

  • Basically it's the same idea.

  • What you're looking for on that water droplet

  • is that it's a consistent beautiful

  • spherical shape and the angle between

  • where the water droplet ends and it meets the lens

  • is good and sharp it's an acute angle.

  • And as you tilt the lens and allow the water droplet

  • to run off, you don't want one residual water.

  • You don't want a trail that behind it.

  • Because we're trying to duplicate two years

  • worth of use and abuse

  • and kind of compact it into a 15 minute test,

  • what we do now is run through this series two more times.

  • Once we have the results of that series of three tests

  • we have these guides or rubrics that allow us to judge

  • the results of each of the tests

  • against both subjective and objective measures.

  • What you're always looking for is a lens to score

  • four or higher, which this particular lens does.

  • As always, thank you so much for watching.

  • Don't forget if you are watching this on YouTube

  • be sure to hit the Subscribe button

  • down there in the corner.

  • If you're watching us on Facebook be sure to share it

  • with as many people as you can.

  • Thanks so much.

  • I am headed out on vacation so next week you are

  • stuck with a rerun and I'll see you the week after that.

  • (pop music)

- Hello just flew back from the lab in Iowa

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B1 中級

ARコーティングのテストどのように行われるか (Testing Your AR Coatings: How It's Done)

  • 8 0
    wei に公開 2021 年 01 月 14 日
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