Jan. 13, 2025
You may not be aware but you probably have in your hands one of the toughest substances in the world right now. If you own a good quality watch chances are that it has a sapphire glass. Also, some versions of Appla watches and almost all mobile phones use sapphire lenses on their cameras. Sapphire, in its natural form, is a precious stone typically blue in color that is used in jewelry. However, sapphire can be created synthetically and it is this form that is endowed with valuable properties in many industries.
If you want to learn more, please visit our website RuiQi Optics.
You may wonder what makes sapphire so special. I will go more in detail about its characteristics, but here I will present you with five reason why sapphire is so valuable
Why do we only see sapphire glass used in very limited applications? Why is it that our mobile phones don&#;t use sapphire instead of Gorilla Glass (&#;)? If you own a luxury watch, it probably has sapphire glass, but for the most part, sapphire use is not that widespread.
Well, sapphire is so hard, that is expensive to work with it.
If you are more interested to learn about sapphire, please read the rest of the article and ask us any questions in the comment sections
One of sapphire&#;s most well known properties is its hardness. There are different ways to measure the hardness of a material. Two very common ones are the Mohs scale and the compressive/tensile stress. Mohs scale measures the resistance of a material against scratching. It is a qualitative scale with diamonds occupying its highest place, followed by silicon carbide, and, along with some other materials, sapphire in third place.
Mohs scale just measures how easy it is for one material to scratch another. There are harder synthetic materials like graphene but graphene is still not fully adopted in industry on a massive scale. An area where sapphire excels is its compressive strength: the pressure it can support before breaking. Sapphire has a compressive strength of around 2 GPa (or the equivalent of having 40 elephants stack on top of each other with the bottom one balanced on a single leg).
For comparison, steel has a compressive strength of 250 MPa (almost 8 times less than sapphire), and Gorilla Glass(&#;) (the industry standard for smart covers) has a compressive strength of 900 MPa (less than half of sapphire).
Also of interest is the fact that sapphire has excellent chemical properties being almost inert to all chemicals, making it suitable where corrosive materials are present. It has very low thermal conductivity, 25 W m^(-1) K^(-1), and extremely low thermal expansion coefficient, 5.8×10^6 / Celsius-Degree: it doesn&#;t deform or expand under high pressure or high heat conditions. Whatever your design is, you can be sure that it will have the same dimensions and tolerances at 100 meters under the sea or at 40K in orbit.
We have used theses properties of strength and scratch resistance windows for customer applications including industrial and medical lasers, underwater camera, and marine environment spectrometers.
Sapphire glass has an excellent window of transmission in the 300nm to nm range (covering the UV, visible, and infrared region) with a peak in transmission of almost 90% at 300nm-500nm wavelengths. Sapphire is a birefringent material, so many of its optical properties will depend on the crystalline orientation. In its ordinary axis, its refractive index goes from 1.796 at 350nm to 1.761 at 750nm, and it has very small variations even with large changes in temperature.
If you want to learn more, please visit our website Plano Convex Cylindrical Lens.
Because of its good transmission and wide range of wavelengths, we have often used sapphire elements in infrared lens designs when more common glasses are not suitable.
If you are designing a satellite lens system where a wide range of extreme temperatures are present, a refractive index optical sensor for acids, a military display where protection from abrasive weather conditions is needed, or monitoring the conditions inside a high pressure chamber, sapphire glass will be your best choice.
Because of its mechanical properties, sapphire is extremely difficult to work with. Creating large pieces of it is technically challenging and shaping it to specific geometries can be daunting. The same properties that make it so attractive also make it expensive.
Personally, we think that one of the reasons we don&#;t see more consumer electronics with sapphire is due to the nature of the market itself. Mobile phones, tablets, and laptops have a lifespan of less than 18 months before a new set of models are out in the market. Having a high end material like sapphire will make it extremely expensive for end users. High end watches, on the other hand, are meant to last decades, so using sapphire justify its costs. After several years, mobile companies like Apple and Samsung started using sapphire in their high-end products, but only as covers for their camera lens or on their smart watches.
Let us know in the comments if you have had the need to use sapphire in your designs, or if you own a device that has sapphire in it.
You probably know how sapphire is useful in your industry, but how else is this substrate being used? You may be surprised to see how some other industries utilize the rugged properties and scratch resistance of Sapphire from Guild Optics. Let's start with an obvious one for most.
It only makes sense that some of the hardest working people depend on some of the hardest optics available. Sapphire can stand up to the extreme conditions that our military experiences in the air, water, and on the ground. Sensors, cameras, lasers, and more can be protected by sapphire windows or lenses.
The same characteristics that make sapphire so scratch resistant also make the substrate extremely hard to break or bend under pressure. This makes for a window that can withstand high pressure while being less than half the thickness of its glass or fused silica counterparts. Deep ocean and high vacuum chamber cameras or lasers protected by a sapphire window will have a greater range of view with a thinner window.
One major industry that utilizes sapphire windows is the endoscope market. The tips of these scopes need a scratch resistant sight glass so the doctors can consistently see what they are doing. Various other uses range from skin contact windows, hair removal lasers, and even pharmaceutical monitoring uses.
There are a multitude of other uses for sapphire in the photonics world, maybe even some that are yet to be discovered. Whatever the need is, Guild Optical Associates will be ready to help manufacture the precision sapphire optical components using the finest raw sapphire material.
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