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2009.3

2009.3

(Summary description)The company was established In March 2009, the company's predecessor "Changsha Ultramet Minor Metals Co., Ltd." was founded in Changsha Yuhua District Environmental Science and Technology Park. In the same year, it rented an old warehouse of 500 square meters at Zhuzhou Military Supply Station as a laboratory.

2009.3

(Summary description)The company was established In March 2009, the company's predecessor "Changsha Ultramet Minor Metals Co., Ltd." was founded in Changsha Yuhua District Environmental Science and Technology Park. In the same year, it rented an old warehouse of 500 square meters at Zhuzhou Military Supply Station as a laboratory.

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The company was established In March 2009, the company's predecessor "Changsha Ultramet Minor Metals Co., Ltd." was founded in Changsha Yuhua District Environmental Science and Technology Park. In the same year, it rented an old warehouse of 500 square meters at Zhuzhou Military Supply Station as a laboratory.


The company is positioned as a special technology-based enterprise focusing on the research and development, manufacturing and operation of rare, sparse, and rare precious metals and their alloy materials, as well as rare materials related derivative products. The main members of the company have been developing and cultivating in the field of rare materials for decades. They are well versed in future technological development and application trends. They mainly create high-end specialty rare materials products. Now they have expanded and formed the exclusive ten rare materials business section of Outel: high-quality new optoelectronic materials. /High purity targets; refractory metals and their alloys; precious metal functional materials; special alloys and special steels; spherical powders and nanomaterials for additive; biomedical/3D printing products; chemical catalysis/chemical synthesis; rare gold concept papers Creative/art/collectibles; scattered metals and their alloys; rare earths and their functional materials.

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Overview of Vacuum Coating Materials And Technologies
Overview of Vacuum Coating Materials And Technologies
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Vacuum sputter coating. It refers to the technique of using ions generated by an ion source, which are accelerated and gathered in a vacuum to form a high ion beams, to bombard the surface of the target (coating material), where kinetic energy is exchanged between the ions and the atoms on the surface of the target, causing the atoms on the surface of the target to leave and be deposited on the surface of the substrate material. The object bombarded with ions is the raw material for the deposition of thin film materials by the vacuum sputtering method and is called a sputtering target.
Application and preparation method of spherical powder
Application and preparation method of spherical powder
Spherical powders have been widely used in many fields because of their good fluidity and high density. In the field of thermal spraying, the spherical powder makes the coating more uniform and dense because of its good fluidity, so the coating has better wear resistance; In the field of powder metallurgy, the forming parts prepared by spherical powder have high density and uniform shrinkage in the sintering process, so the products obtained have high precision and good performance. It has obvious advantages in the application of advanced powder metallurgy forming technology such as injection molding, gel injection molding and additive manufacturing (such as 3D printing technology).
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Spherical powders have been widely used in many fields because of their good fluidity and high density. In the field of thermal spraying, the spherical powder makes the coating more uniform and dense because of its good fluidity, so the coating has better wear resistance; In the field of powder metallurgy, the forming parts prepared by spherical powder have high density and uniform shrinkage in the sintering process, so the products obtained have high precision and good performance. It has obvious advantages in the application of advanced powder metallurgy forming technology such as injection molding, gel injection molding and additive manufacturing (such as 3D printing technology).
Platinum group metals have been grinding for a decade, and the future is not to be underestimated
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 Advantages and disadvantages of friction stir welding
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The main advantages of friction stir welding are as follows:
What fields are friction stir welding generally used in
What fields are friction stir welding generally used in
Everyone may have heard of Friction Stir Welding (FSW), which was officially launched in 1991. As soon as it appeared, it attracted the attention of the world.
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Everyone may have heard of Friction Stir Welding (FSW), which was officially launched in 1991. As soon as it appeared, it attracted the attention of the world.
Specialized solutions for milling, cutting and drilling tool base materials for high temperature alloys, refractory metals and other parts
Specialized solutions for milling, cutting and drilling tool base materials for high temperature alloys, refractory metals and other parts
Ultra Minor Metals Ltd(UMM) has more than ten years of experience in the application and development of alloy trace addition, and provides rare, scattered and rare precious metal element addition solutions for various alloy manufacturing enterprises. According to the difficulties encountered in milling, cutting and drilling of high-temperature alloys, refractory metals and other parts and components reported by many users in recent years, UMM has finally successfully developed after five years of joint research and development tests with leading domestic enterprises. In order to add ruthenium, rhenium, osmium and other elemental high-purity ultrafine powders specially used to add to the base material of such special cemented carbide tools, or Co-Ru, Re, Os binary and ternary pre-alloyed mixed powders, we also warmly welcome all major High-performance alloy tool manufacturing enterprises and our company jointly develop various special customized tool material grades.
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Ultra Minor Metals Ltd(UMM) has more than ten years of experience in the application and development of alloy trace addition, and provides rare, scattered and rare precious metal element addition solutions for various alloy manufacturing enterprises. According to the difficulties encountered in milling, cutting and drilling of high-temperature alloys, refractory metals and other parts and components reported by many users in recent years, UMM has finally successfully developed after five years of joint research and development tests with leading domestic enterprises. In order to add ruthenium, rhenium, osmium and other elemental high-purity ultrafine powders specially used to add to the base material of such special cemented carbide tools, or Co-Ru, Re, Os binary and ternary pre-alloyed mixed powders, we also warmly welcome all major High-performance alloy tool manufacturing enterprises and our company jointly develop various special customized tool material grades.
The principle of friction stir welding
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Application of friction stir welding
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CT machine X-ray tube anode rotating target
CT machine X-ray tube anode rotating target
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When the CT tube is working, the anode target produces X-rays under the bombardment of high-energy electron beams, but the energy conversion efficiency is very low. Only about 1% of the energy is converted into X-ray energy, and the remaining 99% of the energy is converted into heat energy. The local temperature can be as high as 2600°C. Therefore, the rotating anode target needs to have the characteristics of high high temperature strength, good thermal shock resistance, and fast heat dissipation. Therefore, the density of the target material, the content of alloy impurity elements, and the brazing bonding strength of graphite and molybdenum alloys affect the service life of the target. Key factor.
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