|Product Name:||HPHT Monocrystalline Diamonds||Brand:||Yuda Crystal|
|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|
2mm HPHT Monocrystalline Diamonds,
Yellow HPHT Monocrystalline Diamonds,
Monocrystalline Diamonds Industrial
1.0-1.2mm Size Yellow Color HPHT Monocrystalline Diamonds For Industrial Usage
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.
Lab diamond is not only of high commercial value, but also widely used in industry.
The diamond we know used in industry is usually glass knife. Because of its high hardness, HPHT Monocrystalline Diamonds can easily cut glass. But diamonds also wear out, so sometimes we grind them to cut glass better.
Because of its high hardness, synthetic diamonds are often made into wire drawing dies, which are used to make copper wires of various thicknesses. For example, the fine copper wires in wires are drawn by diamond eye dies, which are highly practical in industry.
Diamond is an ideal optical material and semiconductor material. It has high hardness, high thermal conductivity, high stability, low expansion coefficient, wide band gap, high breakdown voltage and high carrier mobility
In aviation industry, gyroscopes, laser metal mirrors, magnetic heads of video recorders and sun drums of copiers all have very high requirements for surface smoothness and accuracy. The characteristics of diamonds fully meet the above requirements. They can not only produce natural diamond tools, but also make the ultra precision mirror cutting technology flourish.
Parameters of HPHT Monocrystalline Diamonds
|HPHT Monocrystalline Diamonds|
|Brand Name||Yuda Crystal|
|Name||HPHT Monocrystalline Diamonds|
|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|
|Diamond Type||Synthetic(lab created)|
|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|
|SP3 Carbon Diamond Bonds (%)||100%||100%|
|Internal Crystal Structure||Face-Centered Cubic||Face-Centered Cubic|
|Color||Various Grades||K to D grades|
HPHT Monocrystalline Diamonds Details
Contact Person: JESSIE