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Yellow 3.4mm HPHT Synthetic Single Crystal Diamonds Industrial Applications

Minimum Order Quantity : Negotiate Price : Negotiate
Packaging Details : Carton box Delivery Time : 1-7 working days
Payment Terms : T/T, Western Union, PayPal, Bank Transfer Supply Ability : 50000carats per month
Place of Origin: Zhengzhou, China Brand Name: YUDA CRYSTAL
Certification: None Model Number: YD-A+

Detail Information

Product Name: Synthetic Monocrystalline Diamonds Brand: Yuda Crystal
Grade: Low Assortment: Good
Color: Yellow Size: 3.4mm
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:

Yellow 3.4mm Single Crystal Diamonds

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HPHT Single Crystal Diamonds

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3.4mm HPHT Synthetic Diamond

Product Description

Yellow 3.4mm Synthetic Single Crystal Hpht Diamonds For Industrial Applications

 

Single Crystal Hpht 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 the most stable material in density. Because of its simple chemical composition and compact structure, the density of transparent diamond has the greatest stability, and the range of density variation is only about 0.01% when it contains impurities. This characteristic is of special significance for gem identification.

Diamond is the most inert material. Thermal inertia is the nature of maintaining the thermal motion state of matter. The greater the thermal inertia, the more difficult it is to change the thermal state. Diamond has the highest thermal conductivity and the highest thermal inertia, which can not be compared with any metal and non-metallic minerals. This provides a basis for the design of thermal test instrument. It is quick and effective to distinguish diamond from other gemstones by thermal conductivity meter.

 

Parameters of Single Crystal Hpht Diamonds

 

Single Crystal Hpht Diamonds
Brand Name Yuda Crystal
Name Single Crystal Hpht Diamonds
Diamond Color Yellow
Diamond Clarity SI-I
Diamond Size 3.4mm
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)

 

Synthetic HPHT Industrial 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 $$$$$ $$$

 

Single Crystal Hpht Diamonds Details

 

Yellow 3.4mm HPHT Synthetic Single Crystal Diamonds Industrial Applications 0

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