Another sibling of diamond
Cubic zirconia is a crystal formation of zirconium dioxide (ZrO2). This is a substitute for diamond, and it is very hard substance. It is very clear and it has no color. This can be made in different colors and shapes. The stone looks like diamond, but it is not costly like diamond. It has a striking similarity with diamond that is why it is largely used in jewelry industry. It was commercially introduced in the market in 1976. Because it is low cost and very durable, it is mostly used in gem industry. Zirconia was discovered in 1892. It has a very high melting point and can be fashioned in any shape.
Now cubic zirconia is used in all the major gem and jewelry industry. It is a look alike of diamond that is why it is used by all the jewelers around the world. Diamonds are very costly and there is a chance of getting cheated some times that is why these artificial diamonds are the closest substitute to the diamond. There are different types of cubic zirconia, which are researched in the laboratory to make unique designs. This cubic zirconia is a perfect substitute for the diamonds. These substitutes are used in different articles like earrings, eternity bands and cubic zirconia necklaces. They are very attractive and the customers have a great appeal for them. This jewelry is less costly and very popular among students.
That is why they are used in large scale artificial diamond industry. They are being used to make articles like earrings, bracelets and necklace like cubic zirconia necklaces. There are many dedicated web sites to offer you cubic zirconia designed articles. They are flawless and perfect substitutes to the diamond. This is a safe way to have the luxury of diamond at a lower cost. The only thing you have to do is to just to click on the right website and order yourself one. However, you will have to ensure yourself that you are not asked to mention your credit card details anywhere. So click and have a great piece of innovation to your near and dear ones.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment