NOORDIA sustainability

In the course of our lives, sustainability plays an increasingly important role . The solutions and decisions we choose affect our lives, the environment, and the entire world. It is therefore important to choose the most sustainable solutions possible. Wearing artificial diamonds is also such a solution , which we consider to have many advantages. On the one hand, it helps to conserve precious resources, and on the other hand, it allows us to buy quality jewelry made of pure diamonds.

A large amount of carbon dioxide is emitted during the mining of diamonds, and the energy consumption associated with mining also leads to additional emissions. In addition, the sale and transport of natural diamonds also results in additional negative environmental effects. The environmental effects of diamond mining are proven by numerous researches and reports. According to one study, a 1-carat natural diamond emits about 57,000 grams of carbon dioxide. And the industry's annual greenhouse gas emissions reach 1 billion tons, which rivals that of the automobile industry.

Fortunately, the production of artificial diamonds is a much more environmentally friendly option. The production of lab-grown diamonds requires less carbon dioxide emissions than the mining of natural diamonds. The destruction of habitats is also a significant environmental problem , the effects of which can be harmful to both nature and humans. The reduction or disappearance of habitats leads to a decrease in biodiversity and depletion of natural resources.

An average of 100 hectares of land is destroyed during a diamond mining operation.

Diamond mining is one of the biggest environmental problems that destroy nature, especially habitats. Mining usually takes place in open pits, which occupy vast areas and destroy the habitats there. Chemicals and other pollutants used in mining enter the soil and water, severely harming wildlife.

Deforestation is also common , as mining activities are usually carried out in forested areas, and the removal of forests destroys the habitats of many species, including birds, small mammals and predators.

Other impacts of diamond mining include soil erosion, pollution of rivers and streams, and air pollution . Due to the destroyed habitats, the number of species in the environment decreases, which can have a long-term harmful effect on the environment and people. More than 80% of the world's diamond production comes from mineral-rich areas, where mining destroys many habitats and plants and it also has a harmful effect on animal life.

The sustainable alternative: the production of clean diamonds and lab-grown diamonds does not destroy habitats. Moreover, diamonds that are produced under laboratory conditions are just as beautiful and hard as natural ones. Lab-grown diamonds offer a sustainable future for the jewelry industry.

At NOORDIA, we believe in the importance of environmentally conscious jewelry making, which is why we offer quality jewelry made of pure diamonds. And our customers can contribute to the protection of nature and the realization of a more sustainable future.

NOORDIA jewelry is embellished exclusively with lab-grown diamonds , because we believe in the importance of ethical diamond trade and sustainability . The procurement of natural diamonds often involves human suffering, human rights abuses and environmental damage. NOORDIA's artificial diamonds are just as beautiful, clean and durable , they have the same physical and chemical properties as natural diamonds, but they do not create conflicts or harm nature.

Frequently asked questions about NOORDIA diamonds

Is lab-grown diamond a new thing?

Diamonds were first grown in the General Electric Co. lab in the 1950s, but they were not yet jewelry-grade stones that could be sold on the market. Only in the last few years have we been able to produce large, jewelry-quality diamonds that match or surpass natural diamonds in terms of desirability and beauty.

So laboratory-grown diamonds are not a new phenomenon, their industrial use is wide-ranging, and they have only recently become available for jewelry making.

How long does it take to produce a lab-grown diamond?

Depending on color and size, it takes 30-60 days to produce a diamond.

How are diamonds grown?

All lab-grown diamonds are grown by placing a diamond core in a heat and pressure chamber that reproduces the natural diamond formation process. Growing diamonds is extremely difficult, because you have to create the special conditions that lead to the formation of diamonds in the depths of the earth. A tiny slice of a Type IIA diamond is placed in a chamber where they can ensure long-lasting, stable, high temperature and pressure. As a result of crystallization, laboratory diamonds mature within six to ten weeks. They are then cut, polished and graded by the same world-renowned laboratories that also certify natural diamonds.

The two techniques most commonly used by laboratories are:

Chemical Vapor Deposition (CVD)

The diamond slice is then subjected to a process called chemical vapor deposition (CVD), where the crystals grow layer by layer in hot plasma. The result is a real rough diamond with all the natural properties of a mined diamond. The CVD process uses ultra-pure, carbon-rich gases in a controlled chamber. Carbon-based gases, such as methane, are heated until they disintegrate and the carbon atoms in them are separated. These tiny carbon atoms fall onto the diamond substrate and form layers, resulting in a rough diamond crystal. This process takes six to ten weeks and results in gem-quality Type IIa diamonds.

In recent years, CVD research has become increasingly popular, and modified versions of CVD are now being used. These processes differ in how they initiate the chemical reactions. Some of these are:

  • Low Pressure CVD (LPCVD)
  • Ultra High Vacuum CVD (UHVCVD)
  • Plasma Assisted Chemical Vapor Deposition (PECVD)
  • Microwave Plasma Vapor Deposition (MPCVD)

High Pressure High Temperature Process (HPHT)

The HPHT process mimics the natural diamond growth environment found deep within the Earth. The machines used are capable of creating pressures of nearly 60,000 atmospheres and temperatures of 2,500 degrees Celsius.

The growth cell contains all the elements needed to grow a diamond, including a core, refined graphite, and a catalyst mixture of metals and powders. The cell is placed in the center of the HPHT chamber. At a constant temperature and pressure of more than 50,000 atmospheres, the catalysts first respond to the added heat and pressure, changing from a solid state to a molten form.

The molten catalyst solution causes the graphite to dissolve in the cell. Once all the necessary conditions are met, the cooling process begins. This process takes several days and allows carbon atoms to build on the nucleus. The cell is removed from the HPHT machine after the growth cycle is complete. The new rough diamond is extracted and cleaned in preparation for final cutting and polishing.

The entire HPHT growth process requires a highly controlled environment to produce gem-quality diamonds. Any changes during growth can stop the diamond from growing or create inclusions that result in unusable diamonds. Every diamond must go through its entire growth cycle. Only after opening the HPHT chamber can we see the finished rough diamond, its color, clarity and size.

In the HPHT process, three main tools are used to provide the necessary pressure and temperature to produce laboratory diamonds:

  1. Bar press
  2. Belt press
  3. Cube press
What is a Type IIA diamond?

The most famous and most brilliant natural diamonds in the world are all type IIA. Koh-I-Noor, Krupp, Regent and Southern Star all fall into this category.

Only the best 1-2% of mined diamonds can be called Type IIA. Of all diamonds, they are the purest and have the best thermal conductivity. As natural diamonds rise from the depths towards the earth's surface, they are usually deformed or imperfectly formed, picking up certain impurities.

Type IIA stones are almost completely free of these imperfections and deformations. All diamonds we sell are type IIA.

Does the diamond tester test positive for lab-grown diamonds?

Igen, ezek valódi gyémántok. Összetételük tiszta, kristályos elemi szén. A NOORDIA ékkövek minden olyan teszten átmennek, melyeket a gyémántok igazolására használnak

Mi a 4C?

A 4C sokak számára ismert fogalom:
1. Colour, a szín;
2. Clarity, a tisztaság;
3. Cut, a csiszolás;
4. Carat, a karát súly.

De valójában milyen jelentősége van az árképzésben?

A gyémánt szakma a Rapaport Diamond Report ® árlista alapján határozza meg az árat. A Rapaport lista alapja a tökéletes briliáns csiszolás. Megfigyelhető, hogy az ár exponenciálisan emelkedik a tömeg és a tisztaság függvényében. A tömegen kívül fontos faktor a gyémánt színe és zárványosztálya.

Miért drágábbak a bányászott gyémántok, mint a laboratóriumban növesztett gyémántok?

A bányászott gyémánt legalább 5 kereskedő kezén keresztül jut el a bányáktól a vásárlókig, így annak árát ez folyamatosan magasan tartja.

A laboratóriumban növesztett gyémántokat viszont egyenesen a gyártóktól rendeljük. A rövid ellátási lánc magyarázza elsősorban az alacsonyabb árat,valamint természetesen a bányászati költségek sem növelik az ékkövek árát.