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

The EMIBA project team is pleased to announce that from May 21, 2019, we have launched the option to pay with bank cards on our website. We draw your attention to the fact that the payment system has set a limit on payment with bank cards of $ 1000 for a one-time payment. If you want to pay for a package of more than 1000 tokens and to increase the card limit, please write a request indicating the required limit for technical support mail at support@emiba.global. We work for you and make your Account convenient for work.

[ENG]
Greetings to all! We will conduct an online broadcast 26/05/19 at 18:30 (Moscow time).
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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! 26.05.19 в 18:30 (МСК), мы проведем онлайн-трансляцию.
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Мы расскажем о текущих новостях проекта.

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

SPECIAL OFFER !!! SPECIAL OFFER !!! SPECIAL OFFER !!!
❗️❗️❗️❗️❗️❗️❗️❗️
WE DROP THE DOLLAR RATE!!!
😳😳😳😳😳😳😳😳
ON THE DAY OF STARTING THE FIRST STAGE OF INVESTING OF THE EMIBA PROJECT 28/05/2018
👏👏👏🎉🎉🎉🎉🎉👏👏👏
ONLY 4 DAYS THE RATE OF USD IN THE PERSONAL AREA OF THE PROJECT EMIBA is 49.9 rubles *
* who invests in $ will receive an additional bonus (% of the bonus will be calculated on 05/27/2019 as the difference between the dollar rate of the Central Bank of the Russian Federation on 05/28/2019 and our internal rate in the Personal Area). The special offer is held from 05/28/2019 to 05/31/2019. The total cost of all packages with a single one-time purchase should not exceed $ 4,999.

We will talk about the physical properties of diamond today.
Let's start with the most popular physical properties since it allowed this stone to gain such popularity. Consider the following of its "professional" qualities.
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Hardness.
Everyone knows that such a mineral as a diamond is the hardest known stone in the world. What is the reason for this? The specific crystal lattice of the stone. The bonds between carbon atoms are solid.
There is the Mohs scale, which is known and accepted throughout the world to assess the relative values of the hardness of minerals. As the basis is the scratching one mineral relative to other reference ones. For example, a diamond piece can “scratch” all minerals and its practically nothing. That's the whole principle that helps to simplify life significantly.
Diamond leads with a substantial advantage and has a rating of 10. For example, the closest to the hardest mineral on Earth is corundum. It also evaluated on this scale, and it has a rating of 9. That is, its value is 150 times less!
It only bases on these numbers that one can imagine a significant advantage of the hardest known mineral. One of the most striking examples is glass cutting with a diamond-tipped glass cutter. It is only necessary to hold a straight line with a hand, slightly press on the other end of the glass - and that's it. It is difficult to achieve with the help of different elements and minerals.
Also noteworthy is the use of diamond hardness when digging and digging mines, underground recesses, new subway tunnels and underwater channels with the help of a proper installation, the tips of which consist of diamonds and make it possible to cut even the most complex iron-granite rock.
Although this unit is expensive, it pays off compared with payments to workers who would make the same amount. Especially in terms of time, the installation significantly benefits. If you have not yet presented how it can look and work, then you can read the author Jules Verne or watch the film “Expedition to the Underworld” of 2005.
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The unique characteristic of the stone is thermal conductivity.
• The thermal conductivity of diamond is the largest among the known solid bodies and is of the order of 0.9-2.3 kW / (m * K). As a result, diamond is an excellent semiconductor, since the most well-known silicon semiconductor elements operate up to temperatures of around 100 degrees Celsius.
Semiconductor technology on diamond elements allows you to work at much higher temperatures, but most often it is an unjustified luxury given the high cost. There is also a replacement that makes sense for them - synthetic diamond semiconductor elements with the same high thermal conductivity as natural stones, but cost much less.
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Other significant properties
• Diamond has a lot of other equally important and useful criteria in addition to the above properties. One of these properties is that a diamond is a dielectric. This mineral does not conduct electricity.
This property is essential in electronics, semiconductor, medical and laser technology. This feature allows you to simultaneously not conduct electricity (thereby not causing a short circuit and a breakdown in the system) and transmit a massive flow of powerful energy (for example, laser systems) without losing any of their qualities, or their characteristics, or weight. Another unique feature of the diamond.
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• It is a low coefficient of friction on metal in the presence of air.
It is due to the formation of a thin film when exposed to heat. This film plays the role of a unique material that lubricates the two surfaces. Maybe you noticed, diamond discs designed for a tool that can cut concrete slabs and foundations, thick-walled metal and at the same time serve for a long time in the shops of construction subjects? Here, please, you visual application of this property dramatically simplifies life.

Короткое сообщение / Short announcement
[RUS]
Друзья, обращаем Ваше внимание! На серверах платежной системы 8 и 9 июня 2019 года будет проводится техническое обслуживание. Просьба это учесть, и оповещать партнеров. С 10 июня все будет работать в обычном режиме. Просим воспользоваться альтернативными способами оплаты в Личном кабинете в период технического обслуживания.
[ENG]
We draw your attention, friends! Maintenance will be carried out on the servers of the payment system on June 8 and 9, 2019. Please take this into your focus and notify your partners. It will back work as usual from June 10th. Please use alternative payment methods in the Personal Account during the maintenance period.

Friends, we want to bring to your attention a brief video review about the business trip of the EMIBA project team in Dubai, UAE (June 2019).
There were essential meetings with partners and investors during the trip. The team has visited the innovation center of Dubai "IN5", where the negotiations with the management of the center have held about mutually beneficial cooperation
https://www.youtube.com/watch?v=Z3lPUxsjktM

Greetings friends! We will conduct an online broadcast 06/30/1919 at 18:30 (MSC).
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We will tell:
✔️About EMIBA project news
✔️About the last trip to the UAE of the project team and negotiations
✔️We present our business performance indicators of EMIBA after the start of production.
There will be a lot of interesting information. We are waiting for everyone to broadcast.
Invite partners, friends who are interested in the EMIBA project.
📲The broadcast will be available at the link:
https://www.youtube.com/channel/UCZU-Rap1fxfD3mKAkavhpww/live

[ENG]
Good day! See our next webinar, it will be interesting. I am preparing interesting material in terms of business, company value and EMIBA stock prices and dividend yield accordingly. The calculations are objective!
[RUS]
Добрый день! Смотрите наш следующий вебинар, будет интересно. Я готовлю интересный материал с точки зрения бизнеса, стоимости компании и, соответсвенно, цен на акции EMIBA и дивидендную доходность. Рассчеты объективные!

Greetings friends! We will conduct an online broadcast 06/30/1919 at 18:30 (MSC).
🔻
We will tell:
✔️About EMIBA project news
✔️About the last trip to the UAE of the project team and negotiations
✔️We present our business performance indicators of EMIBA after the start of production.
There will be a lot of interesting information. We are waiting for everyone to broadcast.
Invite partners, friends who are interested in the EMIBA project.
📲The broadcast will be available at the link:
https://www.youtube.com/channel/UCZU-Rap1fxfD3mKAkavhpww/live

Good day. Please be informed. Today 03/07/2019 from 11-00 (Moscow time) until 12-00 (Moscow time), the Personal Account on https://ico.emiba.global/ will not be available. Technical work is being done.

Добрый день. Доводим до Вашего сведения. Сегодня 03.07.2019 с 11-00 (МСК) до 12-00(МСК) будет не доступен Личный кабинет на сайте https://emiba.global/ Проводятся технические работы.

People often have to deal in life with high pressures that affect small areas.
For example, if you take a regular sewing needle or an ordinary nail, the sharp end of which has a size of about one-tenth of a millimeter, the area of the tip of these objects is about one ten-thousandth of a square centimeter in this case. When exposed to a needle or nail with force equal to ten kilograms, the sharp ends of these objects will exert pressure similar to a hundred thousand atmospheres.
This fact explains the property of sharp objects, which allows them to easily penetrate other bodies that have a solid and dense base. That is why all armor-piercing shells have a pointed tip.
However, we are talking about the impact on small sites in this case. When we speak about large areas, here the situation changes radically.
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Therefore, as a rule, powerful presses are used to create high pressures.
The press can have various designs. For example, there are hydraulic presses to use for this.
The principle of operation of such a press is based on the transfer of force to a small area piston, which pushes into the cylinder, where it is necessary to obtain high pressure. Thus, it is possible to get pressures equal to several thousand atmospheres.
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Ultrahigh pressures are much more difficult to obtain, and this is due primarily to the limited strength properties of the metals from which the cylinder is made where compression occurs.
Meanwhile, one suitable property of metals takes place here, their significant increase in strength when exposed to a pressure of about 20,000 atmospheres. This made it possible to create conditions for obtaining ultrahigh pressures by placing the cylinder of a press in a liquid under pressure of 20-30 thousand atmospheres. Under these conditions, the ultrahigh pressures of hundreds of thousands of atmospheres can be obtained.
The desire of people to create the perfect technology to obtain ultra-high pressures is fully justified. The thing is that in conditions of superhigh forces, such phenomena can appear that cannot be by any other means.
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The EMIBA project team developed the ultra-high pressure concentrator. At the moment, project engineers engage in scaling the device and debugging all processes, for accurate measurements of all indicators.
It is thanks to the ultrahigh pressures of the order of one hundred thousand atmospheres, and at a temperature of more than two thousand degrees, artificial diamonds to obtain.
In the "Concentrator" EMIBA does not require high temperatures; this is what makes the production of diamonds using our device is the much lower and more affordable price for the final consumer.
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An explosion can produce extremely high pressures, but with a small-time value.
High and ultra-high pressure values over large areas with a constant amount of time, take place inside cosmic bodies, including inside the Earth. It can be noted that about three billion atmospheres equal pressure in the very center of the Earth’s sphere. It is impressive!
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Read more on our website https://emiba.global/
You will find all the news of the EMIBA project on our page in FB https://www.facebook.com/emiba.global/?ref=bookmarks

В жизни людям достаточно часто приходится сталкиваться с большими давлениями, которые оказывают действие на маленькие площади.
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К примеру, если взять обычную швейную иглу, или обычный гвоздь, острый конец которых имеет размер порядка одной десятой миллиметра, в этом случае площадь острия данных предметов составляет около одной десятитысячной сантиметра квадратного. При воздействии на иглу или гвоздь с силой равной десяти килограммам, острые концы данных предметов окажут давление равное сотне тысяч атмосфер.
Собственно, как раз этот факт и объясняет то свойство острых предметов, который позволяет им легко проникать в другие тела, имеющие твёрдую и плотную основу. Именно поэтому все бронебойные снаряды имеют заостренный наконечник.
Однако в данном случае, как уже оговаривалось, речь идёт о воздействии на маленькие площадки. Если же говорить о площадях больших размеров, здесь ситуация меняется в корне.
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Поэтому, как правило, для создания высоких давлений применяют мощные прессы.
Прессы могут иметь различные конструкции. К примеру, достаточно часто для этого используются гидравлические прессы.
Принцип действия такого пресса основан на передаче усилия небольшому по площади поршню, который вталкивается в цилиндр, где необходимо получить высокое давление. Таким образом, можно получать давления, равные нескольким тысячам атмосфер.
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Сверхвысокие давления получать намного сложнее и это обусловлено, прежде всего, ограниченными прочностными свойствами металлов, из которых выполняется цилиндр, где происходит сжатие.
Между тем, здесь имеет место одно хорошее свойство металлов, а именно их значительное увеличение прочности при воздействии давления порядка 20 000 атмосфер. Это позволило создавать условия для получения сверхвысоких давлений путём помещения цилиндра пресса в жидкость, находящуюся под давлением 20-30 тысяч атмосфер. В таких условиях можно получить сверхвысокие давления в сотни тысяч атмосфер.
Стремление людей создать совершенные технологии получения сверхвысоких давлений, вполне оправданы. Всё дело в том, что в условиях сверхвысоких давлений могут образовываться такие явления, которые невозможно получить какими-либо иными способами.
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Команда проекта EMIBA разработала устройство сверхвысокого давления «Концентратор». В данный момент инженеры проекта занимаются масштабированием устройства и отладкой всех процессов, для точных измерений всех показателей.
Именно благодаря сверхвысоким давлениям порядка ста тысяч атмосфер и при температуре более двух тысяч градусов, были получены искусственные алмазы.
В «Концентраторе» EMIBA не требуются высокие температуры, именно это делает производство алмазов с помощью нашего устройства гораздо дешевле и доступнее цена для конечного потребителя.
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Давления, имеющие сверхвысокие значения, могут быть получены в результате взрыва, но при малом значении времени.
Высокие и сверхвысокие значения давлений на больших площадях при постоянной величине времени, имеют место внутри космических тел, в том числе и внутри Земли. Можно отметить, что примерно трём миллиардам атмосфер равняется давление в самом центре шара Земли. Это впечатляет, не правда ли?
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Более подробно читайте на нашем вебсайте https://emiba.global/
На нашей странице в FB найдете все новости проекта EMIBA https://www.facebook.com/emiba.global/?ref=bookmarks

Watch our reporting video on engineering work with Ivan Yurin, Technical Director of the EMIBA project. (video in Russian) Contact us for more information about the project by email: info@emiba.global https://www.youtube.com/watch?v=8Ptp0njFwf4&feature=youtu.be