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Product Details:
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| Product Name: | HPHT Monocrystalline Diamonds | Brand: | Yuda Crystal |
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| Grade: | Low | Assortment: | Good |
| Color: | Yellow | Size: | 1.8-2.0mm |
| Technology: | HPHT | Shape: | Rough |
| Usage: | Abrasives And Diamond Tools | Component: | Carbon |
| Hardness: | Moh's 10 Scale | Available Type: | HPHT |
| Place Of Origin: | Zhengzhou, China | Payment Terms: | 100% Payment In Advance |
| Payment Mode: | T/T, Bank Transfer, PayPal, Western Union | Delivery Time: | 1-7 Working Days Depends On Quantity |
| Courier: | DHL, FedEx, UPS, TNT, EMS Etc | Packaging: | As Export Standard |
| Customization: | Welcome | Polish: | None |
| Symmetry: | None | Sample Order: | Welcome |
| Treatments Applied: | None | Enhancement: | None |
| High Light: | HPHT Monocrystalline Diamonds SI,1.8mm HPHT Monocrystalline Diamonds,2.0mm Yellow Monocrystalline Diamonds |
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1.8-2.0mm Yellow HPHT Monocrystalline Diamonds For Diamond Cutting Tools Making
HPHT Monocrystalline Diamonds Description
Lab diamonds are real diamonds. Carbon is the main element of natural and laboratory-grown diamonds. The chemical and physical properties of synthetic diamonds are same as natural diamonds in terms of hardness, thermal conductivity, and strength.
High temperature and high pressure (HPHT) and chemical vapor deposition (CVD) are the two most commonly used growth methods in synthetic diamonds industrial. High temperature and high pressure exert intense heat (about 1500 degrees Celsius, or 2700 degrees Fahrenheit) and pressure (1.5 million pounds per square inch) on the diamond seed and the carbon atoms surrounding it. Chemical vapor deposition, on the other hand, uses less heat and pressure, but introduces a mixture of chemical gases, which decomposes and hardens into crystalline carbon atoms.
Diamond is divided into two types: type I and type II, which is mainly based on whether it contains N element: type I contains N element; type II contains N element; Type II does not contain. And the blue diamond is type 2B, semiconductor.
Due to its excellent optical, thermal and electrical properties, type II diamond plays an irreplaceable role in many fields, such as optics, electronics, atomic energy, space technology, high energy physics and medicine, especially in the field of high-tech and cutting-edge technology. For example: using its thermal conductivity to make super heat sink materials; Making use of its light transmittance, we can make various window materials, such as high power laser window and infrared detector filter; Using its photoconductivity, it can be used in nuclear industry, automation technology and medicine; It can be used as high function semiconductor material.
Parameters of HPHT Monocrystalline Diamonds
| HPHT Monocrystalline Diamonds | |
| Brand Name | Yuda Crystal |
| Name | HPHT Monocrystalline Diamonds |
| Diamond Color | Yellow |
| Diamond Clarity | SI-I |
| Diamond Size | 1.8mm 2mm |
| Diamond Cut | Uncut |
| Polish | None |
| Symmetry | None |
| Technology | HPHT |
| Mesh Size | None |
| Shape | Rough |
| Diamond Enhancement | None |
| Available Type | HPHT |
| Diamond Certificate | None |
| Application | Diamond tools making |
| Place Of Origin | Zhengzhou, China |
| Delivery Time | 1 - 15 Working Days Base on Order Quantity |
| Payment Terms | 100% Payment In Advance |
| Payment Methods | T/T, PayPal, Western Union, Bank Transfer |
| Shipping way | DHL, FedEx, SF Express, UPS, EMS, TNT etc |
| M.O.Q | Negotiable |
| Diamond Type | Synthetic(lab created) |
| Location | Zhengzhou, China |
| Treatments Applied | None |
| Fire Dispersion | 0.044(Same as Natural Diamond) |
| Brilliance Refraction Index | 2.42(Same as Natural Diamond) |
| Relative Density | 3.52(Same as Natural Diamond) |
| Chemical Composition | Carbon(Same as Natural Diamond) |
| Moh's Hardness | 10(Same as Natural Diamond) |
HPHT Monocrystalline Diamonds Introduction
Natural diamonds are created by nature and are the result of high temperature and pressure formed over billions of years. The Lab Grown Diamonds are produced in the laboratory, usually in a few weeks. The chemical difference between the two is same.
So how do you distinguish between Lab Grown Diamonds and natural diamonds?
There is no obvious difference between the Lab Grown Diamonds and natural diamonds. Even professional gemologists need special equipment to identify them. By zooming in, professionals will be able to discern subtle contrasts in diamond inclusions grown and mined in the laboratory.
| The Difference Between Lab Diamond And Natural Diamond | ||
| Properties | Earth Mined | Lab Created |
| Guaranteed Conflict-Free | No | Yes |
| Hardness (MOHS) | 10 | 10 |
| SP3 Carbon Diamond Bonds (%) | 100% | 100% |
| Internal Crystal Structure | Face-Centered Cubic | Face-Centered Cubic |
| Hardness Comparable | 2.42 | 2.42 |
| Relative Diversity | 3.52 | 3.52 |
| Color Diffusion | 0.044 | 0.044 |
| Color | Various Grades | K to D grades |
| Price | $$$$$ | $$$ |
HPHT Monocrystalline Diamonds Details
Contact Person: Ms. Pang
