TR Material Engineering and Super Alloy Technologies

Adıvar

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LoL, You can't import GaN modules. The moment you state that the end use will be for military purposes no one will sell you such advanced subsystems. Heck, Türkiye can't even buy advanced milling machines if it is for military production.

BTW Don't you know Turkish? Yerli tasarım ve üretim= national design and production.
Read my post once again.

I am talking about GAN transistors not the module itself.
 

TheInsider

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Read my answer again. No one will sell you anything in the GaN business if the end-use case is military-related.
 

Bogeyman 

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Developed domestic device that can produce super alloys with TUBITAK support



Faculty of SBTU Engineering and Natural Sciences Department of Basic Sciences. Dr. Muhammet Fatih Kılıçaslan launches the project "Vacuum induction Melting and Melt Spinner Device" at the University of Kastamonu, 3 years ago.

Then Kılıçaslan, which is later started with the SBTU, managed to implement the project with his team in the laboratory in the Sivas Organized Industrial Zone of the University.

Turkey's scientific and technological research institution (TÜBİTAK), the device developed with completely domestic facilities, produces titanium, nickel and cobalt based super alloys, which constitute the raw material of many sectors, especially in medical, defense, aviation and automotive industry.

Kılıçaslan said the AA reporter, the device under the high vacuum and protective gas of said super alloys, making heat and sintering transactions, with the protective material of the samples produced with rapid solidified metallic strips, with the protective material of PVD (Physical vapor accumulation) with the protective materials produced with the transformation of the samples produced into fast solidified metallic strips.


Completely domestic, 10 times less costly

With this feature of the device, Kılıkaslan, which has a compact structure that has 4 main tasks, has given the following information:

"We have developed this device with completely domestic opportunities and are currently actively using our laboratory. 4 A device that is in the production of 4 devices used in the production of super alloys. So when you want to buy these devices, they give up an average of $ 100 thousand dollars. Hence If we had to buy each device separately, it would be a cost of $ 400 thousand dollars in total. We have developed this device in our own structure in our own structure, 30-40 thousand dollars with domestic facilities. Super alloys produced in various forms in the device are used in many areas. The stiffents of the solidified magnetic materials are used in the making of the magnets, the soft ones are used in the construction of high energy-efficient electrical motors and transformers. It is also available in the aviation and defense industry due to the elocentic shielding properties. "

The titanium, nickel and cobalt-based super alloys produced in this machine are also known to be used in the aviation, defense and automotive industry, "It is known that these materials are used in the dental and medical implant. We are able to do all of these in the laboratory environment." said.

Kılıkaslan, who expressed these materials to gain rapidly in the university, "We want these materials to be produced on industrial scale, to be sold in domestic and out-of-scale markets. We will soon share the industrial scale with the public." spoke in the form of.

"Hot pressed - isotropic" type of "Neodymium-Iron-Boron (NdFeB)" magnets, which are widely used in electronic devices, were produced in a laboratory environment at Sivas Science and Technology University (SBTU) in Turkey.

SBTU Faculty of Engineering and Natural Sciences Department of Basic Sciences Professor. Dr. Muhammet Fatih Kılıçaslan, with the support of the Scientific and Technological Research Council of Turkey (TÜBİTAK), developed a project for the domestic production of NdFeB magnets, which are used in the production of electronic devices from electric motors to mobile phones, from televisions to computers and unmanned aerial vehicles.

SBTU Rector Prof. Dr. Mehmet Kul told Anadolu Agency (AA) that as a result of long-term studies, they managed to produce the "hot pressed - isotropic" type of magnets in the laboratory environment with completely domestic devices.

Noting that the project managed to attract the attention of the Rare Earth Elements Research Institute (NATEN), Kul stated that the institute wanted to fund the study for the industrial production of magnets.

Turkey is also targeted to get a share from the annual 25 billion dollar market.

Kılıçaslan, who implemented the project with his team in the rapid solidification laboratory of the university in the Sivas Organized Industrial Zone, drew attention to the importance of the magnets in question and made the following assessment:

"These magnets are used in almost every electronic device, from electric motors to mobile phones, from TVs to computers and even drones. Currently, there is a global market of 25 billion dollars annually and this market is expected to reach 30 billion dollars very soon. Turkey, it takes almost no share from this huge market. Therefore, our aim here is to completely localize this product, which is of vital importance in terms of today's technology, and even to develop magnets that are better than existing ones."

Emphasizing that they have created the infrastructure necessary for the development of the magnet with completely domestic resources, Kılıçaslan said, "For this, we first designed a vacuum induction melting system, then a vacuum melt spinner device, and finally a vacuum hot press device, and we had them all manufactured in Turkey. Thus, While an investment of 300 - 400 thousand euros was required, we completed it with a cost of 35-40 thousand euros. said.

Stating that they are working on the supply of the raw material that makes up the magnet, Kılıçaslan said, "The raw material of such magnets is supplied from abroad. Therefore, we evaluated waste magnets in order to produce the magnet at a lower cost. First, we recycled these magnets. Later, we also recycled this raw material in the magnet we developed ourselves. We recycle approximately 30 percent of the composition of the magnet we produce. This stands out as a very cost-saving solution." used the phrase.
 

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Turkish scientists increased the performance of lithium-ion batteries by 5 times

A group of academics in Malatya conducted experiments to improve the performance of lithium-ion batteries with carbon-derived materials produced from 10 different species. As a result of the research, academics succeeded in producing two different compounds that increase the performance of these batteries.

Faculty of Arts and Sciences, Department of Chemistry, Prof. Dr. Sedat Yaşar told Anadolu Agency (AA) that lithium-ion batteries are an important part of electronic devices, and that they are on the agenda even more with electric cars.

Stating that many countries are investing in the production of lithium-ion batteries and they are working in this direction, Yaşar stated that they have been working on the project "Production of Supercapacitor and Electrode Materials from Carbon Supported and Porous Materials and Investigation of their Electrochemical Properties" for a while.

Associate Professor of Physics. Dr. Emine Altın and Dr. Explaining that they have been working with Nesrin Buğday for about a year, Yaşar said, "We have produced 10 different types of carbon-based materials. In our tests, we observed that the two materials provide approximately 5 times superior performance compared to graphite. We tested the materials we produced in CR 2032 type batteries and they produced a very strong electrical material with very high stability. We got conductivity." he said.

Pointing out that they are also trying to reduce costs, Prof. Dr. Yaşar said:

"The material we produce is stable in about 250 cycles (fill-discharge) under atmospheric conditions. We have measured 250 cycles so far. As a result, the material we have obtained has superior properties and electrical conductivity in many respects than the commercially produced graphite material used in batteries. "We are excited. We will try to reduce production costs by trying combinations of the material we have developed with graphite. We aim to use this material in batteries that will be used in areas with very high power requirements in the future, by using it alone or together with graphite in batteries."

"We want to produce cheap, effective and stable batteries"

Stating that they synthesized new types of anode electrode materials as a result of the study, Yaşar said:

"We have achieved a result that is approximately 5 times better in capacity than the commercially used graphite anode material. The capacity of the graphite anode material is approximately 240 milliampere hour/gram, while the result we obtained from the material we produce is approximately 1200 milliampere hour/gram. This study was passed by the patent board with the support of our university. "We have started initiatives for national and international patents. With our work, we want to increase the power density of commercial batteries and produce cheaper, more effective and stable batteries."
 

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The armor raw material produced from "special alumina" at the Eti Aluminum Facilities in Konya will provide higher protection than the steel armor used in land, air and sea vehicles.

Eti Aluminum, a subsidiary of Cengiz Holding, has developed an armor raw material for the defense industry from aluminum oxide, which increases explosion damping and ballistic protection.

The mass production of the raw material, which has been developed through R&D studies and provides high protection with its non-flammability feature, will start next year at the facility.

Mehmet Arkan, General Manager of Eti Aluminum, told Anadolu Agency that they are among the strategic institutions of the country with special aluminum trihydroxide (ATH) and special alumina they have developed with advanced technology.

Stating that there are difficulties in the supply of raw materials in the defense industry, Arkan said that they started this work in line with the demands received from domestic armor production companies.

08_Nisan%2F19_haziran%2F26%2FAA-28268930.jpg


12 thousand tons of 20 thousand tons of ATH consumed annually are produced in this facility.

Emphasizing that Turkey has an annual consumption of 20 thousand tons of ATH, Arkan said, "We started to produce 12 thousand tons of this. With these investments, we prevented 22 million dollars from 50 million dollars of annual imports. We will reach a capacity of 30 thousand tons by the end of the year. ATH is very important in the defense industry. It is a material that provides high protection thanks to its non-flammability feature. ATH must be used in the cables of tanks, ships, submarines and airplanes." he said.

Mentioning that they also obtained "special alumina" from the high quality ATH developed, Arkan continued as follows:

"We turn ATH, from which we throw away the water molecules at high temperature, into aluminum oxide, that is, special alumina. We mainly use it in metal production. We produced armor raw materials for the defense industry, which is not a producer in the world, by giving alumina different properties. "We will start the mass production of the raw material and supply it to companies producing armor. The defense industry is developing and our armored vehicles attract the attention of the world. For this, international standards must be met. We have succeeded in producing this raw material."

08_Nisan%2F19_haziran%2F26%2FAA-28268933.jpg


Doesn't melt even at 2,000 degrees

Arkan stated that Turkey is among the few countries that can produce this raw material.

Drawing attention to the superiority of the armor raw material produced from alumina over steel armor, Arkan said:

"Special alumina is a material that is resistant to very high temperatures and does not melt even at 2 thousand degrees. This material does not melt because it withstands very high temperatures, and the ammunition cannot penetrate inside and explodes outside. It also prevents attacks with assassination weapons and armor-piercing bullets. It increases the strength of the armor and provides extra protection. Composites to be produced with this armor raw material can also be used in armored vehicles of the armed forces that require modernization."
 

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The armor raw material produced from "special alumina" at the Eti Aluminum Facilities in Konya will provide higher protection than the steel armor used in land, air and sea vehicles.

Eti Aluminum, a subsidiary of Cengiz Holding, has developed an armor raw material for the defense industry from aluminum oxide, which increases explosion damping and ballistic protection.

The mass production of the raw material, which has been developed through R&D studies and provides high protection with its non-flammability feature, will start next year at the facility.

Mehmet Arkan, General Manager of Eti Aluminum, told Anadolu Agency that they are among the strategic institutions of the country with special aluminum trihydroxide (ATH) and special alumina they have developed with advanced technology.

Stating that there are difficulties in the supply of raw materials in the defense industry, Arkan said that they started this work in line with the demands received from domestic armor production companies.

08_Nisan%2F19_haziran%2F26%2FAA-28268930.jpg


12 thousand tons of 20 thousand tons of ATH consumed annually are produced in this facility.

Emphasizing that Turkey has an annual consumption of 20 thousand tons of ATH, Arkan said, "We started to produce 12 thousand tons of this. With these investments, we prevented 22 million dollars from 50 million dollars of annual imports. We will reach a capacity of 30 thousand tons by the end of the year. ATH is very important in the defense industry. It is a material that provides high protection thanks to its non-flammability feature. ATH must be used in the cables of tanks, ships, submarines and airplanes." he said.

Mentioning that they also obtained "special alumina" from the high quality ATH developed, Arkan continued as follows:

"We turn ATH, from which we throw away the water molecules at high temperature, into aluminum oxide, that is, special alumina. We mainly use it in metal production. We produced armor raw materials for the defense industry, which is not a producer in the world, by giving alumina different properties. "We will start the mass production of the raw material and supply it to companies producing armor. The defense industry is developing and our armored vehicles attract the attention of the world. For this, international standards must be met. We have succeeded in producing this raw material."

08_Nisan%2F19_haziran%2F26%2FAA-28268933.jpg


Doesn't melt even at 2,000 degrees

Arkan stated that Turkey is among the few countries that can produce this raw material.

Drawing attention to the superiority of the armor raw material produced from alumina over steel armor, Arkan said:

"Special alumina is a material that is resistant to very high temperatures and does not melt even at 2 thousand degrees. This material does not melt because it withstands very high temperatures, and the ammunition cannot penetrate inside and explodes outside. It also prevents attacks with assassination weapons and armor-piercing bullets. It increases the strength of the armor and provides extra protection. Composites to be produced with this armor raw material can also be used in armored vehicles of the armed forces that require modernization."
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I wonder if this material can be used on body armor and if it can stop 6.8 caliber bullets.
 

Saithan

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The armor raw material produced from "special alumina" at the Eti Aluminum Facilities in Konya will provide higher protection than the steel armor used in land, air and sea vehicles.

Eti Aluminum, a subsidiary of Cengiz Holding, has developed an armor raw material for the defense industry from aluminum oxide, which increases explosion damping and ballistic protection.

The mass production of the raw material, which has been developed through R&D studies and provides high protection with its non-flammability feature, will start next year at the facility.

Mehmet Arkan, General Manager of Eti Aluminum, told Anadolu Agency that they are among the strategic institutions of the country with special aluminum trihydroxide (ATH) and special alumina they have developed with advanced technology.

Stating that there are difficulties in the supply of raw materials in the defense industry, Arkan said that they started this work in line with the demands received from domestic armor production companies.

08_Nisan%2F19_haziran%2F26%2FAA-28268930.jpg


12 thousand tons of 20 thousand tons of ATH consumed annually are produced in this facility.

Emphasizing that Turkey has an annual consumption of 20 thousand tons of ATH, Arkan said, "We started to produce 12 thousand tons of this. With these investments, we prevented 22 million dollars from 50 million dollars of annual imports. We will reach a capacity of 30 thousand tons by the end of the year. ATH is very important in the defense industry. It is a material that provides high protection thanks to its non-flammability feature. ATH must be used in the cables of tanks, ships, submarines and airplanes." he said.

Mentioning that they also obtained "special alumina" from the high quality ATH developed, Arkan continued as follows:

"We turn ATH, from which we throw away the water molecules at high temperature, into aluminum oxide, that is, special alumina. We mainly use it in metal production. We produced armor raw materials for the defense industry, which is not a producer in the world, by giving alumina different properties. "We will start the mass production of the raw material and supply it to companies producing armor. The defense industry is developing and our armored vehicles attract the attention of the world. For this, international standards must be met. We have succeeded in producing this raw material."

08_Nisan%2F19_haziran%2F26%2FAA-28268933.jpg


Doesn't melt even at 2,000 degrees

Arkan stated that Turkey is among the few countries that can produce this raw material.

Drawing attention to the superiority of the armor raw material produced from alumina over steel armor, Arkan said:

"Special alumina is a material that is resistant to very high temperatures and does not melt even at 2 thousand degrees. This material does not melt because it withstands very high temperatures, and the ammunition cannot penetrate inside and explodes outside. It also prevents attacks with assassination weapons and armor-piercing bullets. It increases the strength of the armor and provides extra protection. Composites to be produced with this armor raw material can also be used in armored vehicles of the armed forces that require modernization."
This must be the aluminum factory DYP established in Seydi Sehir. That was given to Cengiz Holding. I remember posting about the strange tender process during AKP tenders.

good to see it’s still being used.
 

TheInsider

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Alumina is not a new thing for Turkiye but the importance of this facility is now we can mass produce it in extreme amounts.
 

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In cooperation with SBTU and TÜBİTAK SAGE, iron-nickel alloys with low thermal expansion coefficients, which are widely used in the defense, aviation, space and electronics industries, were produced.


SBTU Aeronautical Engineering Department research assistant Bekir Akgül, about 1.5 years ago, Rector Prof. Dr. He started working on his doctoral thesis on "production and development of low thermal expansion materials for electronic sensor technology" under the supervision of Mehmet Kul.

Akgül's doctoral thesis was turned into a scientific academic project within the framework of university-industry cooperation with the support of TÜBİTAK SAGE.

Within the scope of the project, iron-nickel based alloys (Invar 36) were produced in the laboratories of both TÜBİTAK SAGE and SBTU.

08_Nisan%2F19_haziran%2F24%2FAA-28306405.jpg


SBTU Rector Kul stated to the AA correspondent that the project was funded by TÜBİTAK SAGE and its universities, and said, "Iron-nickel alloys with low thermal expansion coefficients, which are determined as a great need for the defense industry, are the first time in Turkey to work with Sivas Science and Technology University and TÜBİTAK SAGE. It was co-produced." said.

It will also be produced on an industrial scale within the university.


Emphasizing that the tests yielded positive results and that alloys with lower thermal expansion coefficients were developed than those on the market, Kul said:

"This project has been successful in the nationalization of alloys that our defense industry needs. TÜBİTAK SAGE has been freed from foreign dependency in this regard. In the advanced alloys production center of our university, commercial production of this will also be carried out on a larger scale. Because the infrastructure at TÜBİTAK SAGE is small-scale, 3 -5 kilograms capacity. The vacuum induction melter we set up in our advanced alloys production center has a production capacity of 20-25 kilograms at a time."

08_Nisan%2F19_haziran%2F24%2FAA-28306415.jpg


Kul stated that iron-nickel alloys constitute the raw material of many sectors, they are used in the construction of the interiors of natural gas tankers and electronic sensors, and as a wing and body tilt mold material in airplanes.

It is also used in accelerometers in ammunition.

Research assistant Bekir Akgül stated that he decided to implement his doctoral thesis after learning that these alloys were imported from abroad and said, "These materials have many uses, especially in the defense, aviation, space and electronics industries. In applications where the thermal expansion coefficient is low in defense and aerospace, in hermetic packaging. It is especially preferred in electronic sensor applications, thermal batteries and many other areas. used the phrases.

Akgül added that such alloys are not affected by environmental conditions and high temperature differences, so they are frequently used in accelerometers in ammunition.

08_Nisan%2F19_haziran%2F24%2FAA-28306417.jpg



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Industrial production of alloys needed by the defense, aerospace and medical industries in solid forms and metal powder forms has begun at the Advanced Alloys Production Center of Sivas Science and Technology University (SBTU).


The center, which started to be established in 2020 with a fund of 6 million 250 thousand liras provided within the scope of the "Attraction Centers Support Program" of the Ministry of Industry and Technology, became operational within the body of SBTU.

The production of titanium, iron, boron, nickel and cobalt-based alloys in solid forms and metal powders, which are needed by the aviation industry and the medical industry, was successfully carried out at the center in the Sivas Organized Industrial Zone.

FW6I6ybWAAAmmRc


SBTU Rector Prof. Dr. Mehmet Kul told Anadolu Agency (AA) that they are a university trying to specialize, especially in the defense industry.

Explaining that they learned that one of the most important problems of additive manufacturing is powder metal during the meetings with defense companies during the field visits, Kul said, "Both the high price of this product and the dependence on foreign countries were stated as a big problem. We applied to the Program and started working on our project after a funding of 6 million 250 thousand liras was provided in 2020." said.

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2 ton order offer received while in trial production

Stating that they got very high quality results from their trial production, Kul said, "They were very excited when the products were shared with the private sectors. In fact, a businessman came from Istanbul and stated that he wanted to place the 2-ton order immediately. Our work on this continues. Also, not only in the defense industry, but also in the medical industry. Additive manufacturing is used. In other words, the raw materials needed by the medical industry will also be produced here. In addition, exports will be realized through these companies." he said.

Pointing out that they are also planning to work with TUSAŞ Motor Sanayii AŞ (TEI), an international manufacturer and design center that provides high quality products and services to the aviation industry, within the body of Turkish Aerospace Industries (TUSAŞ), Kul noted:

"We continue to work with TEI, one of the favorite defense organizations of our country, working on the engines of aircraft, helicopters and unmanned aerial vehicles, to realize the parts of these engines with domestic alloys and metal powders that we produce. Today, we received good news from there. The microscopic photograph of the products excited them as well. TEI , wants to work with us on titanium alloys in the field of aviation. We will realize this project with a study conducted through TÜBİTAK."

FW6I_L-XEAI91IG


"1 kilogram is about 450 euros"

Emphasizing that the advanced alloys production center will also provide significant income to the university, Kul said, "Universities should now create their own resources. It is necessary to get out of resources that are only funded by the funds provided by the state. This facility was also established for this purpose. It is the middle school that will bring income to the university, both in research, development and production. "For example, 1 kilogram of this metal powder produced is approximately 450 euros. The devices in the facility have a capacity of 25 kilograms. Therefore, we have a production capacity that will provide high added value every time." used the phrases.
 

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Industrial production of alloys needed by the defense, aerospace and medical industries in solid forms and metal powder forms has begun at the Advanced Alloys Production Center of Sivas Science and Technology University (SBTU).


The center, which started to be established in 2020 with a fund of 6 million 250 thousand liras provided within the scope of the "Attraction Centers Support Program" of the Ministry of Industry and Technology, became operational within the body of SBTU.

The production of titanium, iron, boron, nickel and cobalt-based alloys in solid forms and metal powders, which are needed by the aviation industry and the medical industry, was successfully carried out at the center in the Sivas Organized Industrial Zone.

FW6I6ybWAAAmmRc


SBTU Rector Prof. Dr. Mehmet Kul told Anadolu Agency (AA) that they are a university trying to specialize, especially in the defense industry.

Explaining that they learned that one of the most important problems of additive manufacturing is powder metal during the meetings with defense companies during the field visits, Kul said, "Both the high price of this product and the dependence on foreign countries were stated as a big problem. We applied to the Program and started working on our project after a funding of 6 million 250 thousand liras was provided in 2020." said.

FW6I9KvWQAABhjD


2 ton order offer received while in trial production

Stating that they got very high quality results from their trial production, Kul said, "They were very excited when the products were shared with the private sectors. In fact, a businessman came from Istanbul and stated that he wanted to place the 2-ton order immediately. Our work on this continues. Also, not only in the defense industry, but also in the medical industry. Additive manufacturing is used. In other words, the raw materials needed by the medical industry will also be produced here. In addition, exports will be realized through these companies." he said.

Pointing out that they are also planning to work with TUSAŞ Motor Sanayii AŞ (TEI), an international manufacturer and design center that provides high quality products and services to the aviation industry, within the body of Turkish Aerospace Industries (TUSAŞ), Kul noted:

"We continue to work with TEI, one of the favorite defense organizations of our country, working on the engines of aircraft, helicopters and unmanned aerial vehicles, to realize the parts of these engines with domestic alloys and metal powders that we produce. Today, we received good news from there. The microscopic photograph of the products excited them as well. TEI , wants to work with us on titanium alloys in the field of aviation. We will realize this project with a study conducted through TÜBİTAK."

FW6I_L-XEAI91IG


"1 kilogram is about 450 euros"

Emphasizing that the advanced alloys production center will also provide significant income to the university, Kul said, "Universities should now create their own resources. It is necessary to get out of resources that are only funded by the funds provided by the state. This facility was also established for this purpose. It is the middle school that will bring income to the university, both in research, development and production. "For example, 1 kilogram of this metal powder produced is approximately 450 euros. The devices in the facility have a capacity of 25 kilograms. Therefore, we have a production capacity that will provide high added value every time." used the phrases.
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"We continue to work with TEI, one of the favorite defense organizations of our country, working on the engines of aircraft, helicopters and unmanned aerial vehicles, to realize the parts of these engines with domestic alloys and metal powders that we produce. Today, we received good news from there. The microscopic photograph of the products excited them as well. TEI , wants to work with us on titanium alloys in the field of aviation. We will realize this project with a study conducted through TÜBİTAK."

FW6I_L-XEAI91IG


"1 kilogram is about 450 euros"

Emphasizing that the advanced alloys production center will also provide significant income to the university, Kul said, "Universities should now create their own resources. It is necessary to get out of resources that are only funded by the funds provided by the state. This facility was also established for this purpose. It is the middle school that will bring income to the university, both in research, development and production. "For example, 1 kilogram of this metal powder produced is approximately 450 euros. The devices in the facility have a capacity of 25 kilograms. Therefore, we have a production capacity that will provide high added value every time." used the phrases.

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TEI developed a production process with additive manufacturing. The process will not be patented for reasons of confidentiality. The process is currently expected to be used in the TJ 300 engine project. It is said that the 3D printing process is currently not even in some American professional companies.
 

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A company operating in Afyon Uşak Zafer Technology Development Zone (Zafer Technopark) produced 97% pure lithium carbonate, which can be used in battery technology from geothermal water.
55 tons of lithium carbonate will be produced annually from the production facility with a capacity of 0.6 tons/hour to be established in the region.
 

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