Sapphire is one of the most coveted of all gemstones.
Its beauty is unparalleled.
But with the iPhone, Apple has turned that lust into a reality, and that means the Sapphire line is going into the future.
It’s time to start talking about sapphires again.
Sapphire was the source of one of Apple’s most successful innovations.
It was the first iPhone, and was one of its most successful products.
The first iPhone was named after a jeweler who made it.
It became a major brand, and it has been a part of the DNA of Apple since its inception.
Now, Sapphire is poised to make a comeback, at least in the jewelry market.
Its rise is an industry story that goes way back.
It started as a small-batch jewelry business in the 1940s, and over the years it has grown into a global brand.
The story is told by a collection of jewelers who were among the first to develop the technology used to create the iPhone.
The technology was developed by Richard W. Allen, a German who had previously worked for the German government.
Allen patented the technology in 1951, and the company named its new phone after him.
He called the phone “the iPhone.”
It was an incredibly powerful device.
Its glass and crystal were made of sapphat, a very rare, precious gemstone.
Sapphire’s glass and crystals are very high quality, and they provide a very high resistance to corrosion.
They’re resistant to acid and alkali and water.
They resist scratches and other defects in the glass and make the phone look great.
That’s a lot of features.
The phone came with a lot more.
In 1953, Apple released the iPhone 2, which was the second iPhone.
It had a much bigger screen and a bigger battery, but the iPhone still had a lot to offer.
The iPhone was a revolutionary device, with an incredibly high-resolution display and high-definition audio and video.
And its new camera and a host of new features and functions gave it an edge over its competitors.
But there was one big problem.
People didn’t like the phone.
When you took the phone out of the case and put it on your wrist, it didn’t feel great.
You could feel the pressure of the buttons.
And there was the vibration of the screen.
When I tried to hold it in my hand, the vibrations started to get to my fingers.
The company decided to do something about this problem, and Allen and his colleagues came up with a new design for the phone that would make it more comfortable.
They designed a screen with an internal spring that would bend the phone when you pressed it, and then they put it back on a silicone mat that was held by magnets.
The magnetic force from the mat was strong enough to pull the phone from its mat.
It wasn’t just a big difference in size and weight; it was a huge change in the feel of the phone, which is why many people complained about it.
And so Allen and the other engineers at Apple went to work on a new, more powerful phone.
The new phone had a larger display, a larger battery, and a higher-resolution screen.
But the biggest change was the way the display worked.
They redesigned the screen with a thin layer of sapele, a precious glass mineral.
The sapeles were made from a mineral called sapphard.
It has a very beautiful color, and when you rub it on the screen, it gives it that beautiful sheen.
That sapeled glass has an amazingly high electrical resistance, which means that even the slightest touch to the screen causes the screen to vibrate.
But that’s a problem because if you touch the screen and it vibrates, you’ll damage the screen glass.
So Allen and company decided they would design a way to keep the sapely glass from damaging the screen when you touched it.
They called it an “insulating layer,” and they did it with a special, flexible material called a “Sapphire” layer.
The Sapphire layer was made from pure sappharium.
And the sappashield, when you hold the phone up to your face, it is made of the same type of crystal that was used to make the sappy glass.
It is very light, and so it has a really high electrical charge, so when you put your finger on the sappe, it feels very nice.
The problem was that it was very hard to get hold of.
So they made a little glass box with a rubber pad inside, and inside it they put a tiny metal plate that would stick to the sappo.
The plates had a small hole that would fit through the sappa, so you could slide your finger through it and touch the sapping glass.
Then, the company coated the metal plate with a clear, translucent material called “Simmons.”
The new screen,