The use of diamonds is in demand in such areas:
• jewelry industry;
• manufacturing industry;
• mining;
• electrical engineering;
• nanotechnology.
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Those diamonds that don't cut and framed in precious metal also known as technical stones use to be to the manufacture of industrial tools. The demand for industrial diamonds is high; therefore deposits are being developed, and technologies will improve for the obtaining of synthetic crystals. These ways can cover the needs of the industry.
The manufacturing industry uses mainly the hardness of the element. Different types of work such as drilling or cutting pass quickly and without the formation of microcracks on the surface of the material. Metal turning occurs with the help of diamonds. The drills used in oil wells also have a mineral crumb coating.
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It has high wear resistance to allow to cover any tools with diamond dust. This extends their lifespan and increases productivity. For example, there are more than 1,200 diamond coated chips in Russia:
• drill;
• mills;
• glass cutters;
• scissors for metal and stone;
• grinding tools.
🚀Emiba website: https://emiba.global/

The advantages of using diamonds in construction:
• the accuracy of work, filigree;
• speed;
• low process noise.
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There are several types of diamond cutting using borax or dry diamond cutting. Of course, diamond-coated dusting tools are more expensive than ordinary ones, but their cost pays off with the quality of the process. For example, the cost of cutting concrete with diamonds is fully justifying. And from the employee when using special equipment does not require much physical effort.
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Drilling wells with diamonds, especially if the diameter should be small. Now there is a branch in construction called diamond cutting. When drilling, for example, concrete, there is no vibration, dust. Diamond drilling will make holes for the following communications:
• water supply, air conditioning, sewage and sewage pipelines;
• Internet and other data transmission channels;
• taking actual samples on monolithic rock structures.
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But diamond cutting is also relevant, since it leaves behind a perfect cut after it, without chipping or cracking the material. The discs on which there is a diamond coating withstand high temperatures and pressure drops.
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Diamonds are used in the space industry to cover instruments and improve their strength. And on the ground, a stone is used for work, for example, laying tunnels in hazardous areas.
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In medicine, the use of diamond coatings, especially in surgical instruments, is also encouraged, such as medical scalpels, dental equipment, scissors, and clamps. The crystals of an advanced medical laser will have a diamond coating, and the mineral acts as a conductor.
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The use of diamond is also justified in telecommunications and electronics. Crystals are used to transmit signals through cables. Of course, such technologies require real investments, but the corresponding cables can withstand temperature drops. And diamonds are not afraid of power surges. Apply the mineral together with ruby and in the manufacture of supersensitive elements.
🔻
There is diamond used in optics for astronomers. Experiments from the field of physics and chemistry require the use of diamonds for the invention of new optics, the improvement of laser technology, and space exploration. Crystal act as a protective element that cannot damage hydrofluoric acid.

Good afternoon friends! We do not stop our work, and one crucial aspect is the safety of the technology. In the framework of the working meeting with colleagues, Ivan Yurin visited the Federal State Budget Institution Federal Institution for Industrial Property and the Chamber of Patent Disputes. During the meeting, there was an official discussion on patent security issues at the local and international level. But most importantly, the necessary consultations were held at an unofficial level, which will help the EMIBA project to protect itself and all investments in the project. As you understand, all global issues are resolved “on the golf course,” and the meeting that took place is part of the previous great work and future achievements.

Friends, today is the International Day of Astronautics! The team of EMIBA project congratulates you on holiday! Diamonds are widely used in the space industry, and we also see this area as a market for the realization of our future products. And one of the materials used in the space industry is the boron compound obtained using ultrahigh pressures. This fact is another possible use of our device "Concentrator."

Друзья, очень интересная статья! Это еще раз доказывает, что мы идем правильным путем! Главная цель проекта Emiba, это снизить стоимость алмазного сырья!
«Еще во времена моей студенческой молодости были разговоры о скором конце эпохи кремния и переходе на другие полупроводники, например структуры A3B5 (аресенид галлия, фосфид галлия или нитрид галлия), карбид кремния, алмаз, графен и пр. У них выше эффективная подвижность электронов и дырок, ниже температурная зависимость, выше теплопроводность. Кроме того есть возможность создавать гетеропереходы. Это когда области внутри транзистора отличаются не только типом проводимости, но и физической структурой, что дает дополнительные возможности. При прочих равных микросхемы на нитриде галлия могут работать на более высокой частоте, устойчивы к высокой температуре, и обеспечивают лучший теплоотвод. Но пока эти материалы используются лишь для дискретных элементов и небольших микросхем. Для больших микросхем сложность технологии делает ее цену на порядки выше кремниевой. Да и «прочих равных» пока не получается. Поэтому альтернативные некремниевые микросхемы имеют узкую специализацию. В массовой микроэлектронике царствует кремний.» далее читайте в статье: https://aftershock.news/?q=node/745507

Friends, very interesting article! This proves once again that we are going the right way! The main goal of the Emiba project is to reduce the cost of rough diamonds! Article only in Russian! Use the translator, if necessary! «Back in my student days, there was talk about the imminent end of the silicon era and the transition to other semiconductors such as the A3B5 structures (gallium arsenide, gallium phosphide or gallium nitride), silicon carbide, diamond, graphene, etc., with lower temperature dependence, higher thermal conductivity. In addition, it is possible to create heterojunctions. This is when the areas inside the transistor differ not only in the type of conductivity but also in their physical structure which gives additional possibilities. Microcircuits based on gallium nitride can operate at a higher frequency, are resistant to high temperatures, and provide better heat dissipation with other things being equal. But while these materials are used only for discrete elements and small circuits. For large microchips, the complexity of the technology makes price worth up to orders of magnitude higher than silicon. Yes, and "other things equal" does not work. Therefore, alternative non-silicon chips have a narrow specialization. Silicon reigns in mass microelectronics....».

[ENG]
Greetings to all! We will conduct an online broadcast 22/04/19 at 18:30 (Moscow time).
🔻
We will tell you the news of Emiba project.

📲The broadcast will be available at the link:
https://www.youtube.com/channel/UCZU-Rap1fxfD3mKAkavhpww/live


[RUS]
Приветствуем всех! 22.04.19 в 18:30 (МСК), мы проведем онлайн-трансляцию.
🔻
Мы расскажем о текущих новостях проекта.

📲Трансляция будет доступна по ссылке:
https://www.youtube.com/channel/UCZU-Rap1fxfD3mKAkavhpww/live

Friends, we want to share with you how else you can use our installation.(Concentrator EMIBA)
Under the conditions, the diamond is synthesized, hexagonal boron nitride was found. The result is a cubic analog called "borazon". It has all the "diamond" properties, but also high heat resistance. Therefore, grinding wheels made of borazon are more efficient diamond than ten times.

Crystals with semiconductor properties are scarce among natural diamonds. They are of great interest for the technology since they retain their parameters unchanged at high temperatures - up to 1000 K. But they can be found very rarely in diamond deposits. It is quite possible to synthesize such crystals in the right quantities.

With the help of overpressure, one can significantly expand the class of superconducting substances. Under "pressure" superconductivity becomes selenium and tellurium, silicon, germanium, phosphorus, bismuth, antimony, arsenic.

Where does any business start? The correct answer is to analyze the market and market potential. We knew that the diamond market had significant growth, but that in an exponential progression ... from almost zero to unprecedented sizes. Check out the charts and reports on the diamond market until 2050 by Frost and Sullivan.

[ENG]
Greetings to all! We will conduct an online broadcast 05/03/19 at 14:00 (Moscow time) from EMIBA's office with CTO Ivan Yurin jointly.
🔻
We will tell you the news and plans of Emiba project.
📲
The broadcast will be available at the link:

https://www.youtube.com/channel/UCZU-Rap1fxfD3mKAkavhpww/live

[RUS]
Приветствуем всех! 03.05.19 в 14:00 (МСК), мы проведем вебинар с участием Ивана Юрина.
🔻
Мы расскажем о текущих новостях и планах проекта.
📲
Трансляция будет доступна по ссылке:

https://www.youtube.com/channel/UCZU-Rap1fxfD3mKAkavhpww/live

Hi everyone. It has been ended a long weekend in Russia finally. So we can work adequately. The EMIBA project team did not stop work even on holidays. Today some parts of the Concentrator's technical layout have been received. There are a lot of plans and a lot of work for the summer. If you have partners from other countries, you to connect us. There are exciting suggestions for leaders. Even if you do not live in that country, you can be a Curator and have preferences from the company. Write questions, and we are glad to answer.

Hello, Friends !!! The EMIBA Project has started the production of the Technical layout of the Concentrator.

Friends, today we will talk about the benefits of rough diamonds in medicine.
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Magnetic resonance imaging is one of the most effective ways to diagnose various diseases as it allows to obtain a layer-by-layer image of the internal organs.
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However, because expensive superconducting magnets are used in MRI devices, this procedure is not for everyone, as many clinics cannot afford to purchase such equipment. The handling of diamonds in medicine will solve not only the problem of accessibility but many others. Such a solution is presented by American experts from the National Academy of Lawrence in Berkeley who conducted a series of experiments.
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How do gem-based technologies work in medicine?
Scientists decided to use tiny crystals in MRI devices, through which the green light of a laser beam transmitted and the minerals exposed to a weak magnetic field at the same time. Thanks to this approach, it was possible to increase the polarization of the spins hundreds of times and thus improve the quality of the resulting image.
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The team leader noted that no one had previously achieved such results to confirms the revolutionism of the invention. Scientific language discovery is called the effect of the hyperinflation of nano and microscale diamonds. In the future, it can transform the market of not only magnetic resonance but also nuclear tomographs.
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What practical advantages does the invention have?
The scientific component is essential, but technology in medicine can bring practical benefits. If we talk about the use of diamonds in MRI, they provide:
• cost reduction; expensive superconducting magnets are not used;
• increase the accuracy of diagnosis; able to create the most detailed image of the internal organs;
• downsizing is especially vital as modern MRI devices occupy entire rooms.
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The procedure will become more accessible and accurate, which will contribute to improving the level of medical care.
Learn more about the EMIBA project - Highly profitable diamond production and its widespread use in microelectronics on our website: https://emiba.global