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- smoked egg manufacturing device using plasma sterilization
- basil hydroponics guide#smart plasma skill
- 플라즈마 활성수
- #플라즈마 표면처리 #플라즈마표면개질#플라즈마장치#프라즈마회사 #플라즈마업체#플라즈마표면개질#프라즈마 발생장치#프라즈마살균#프라즈마장치 수리#프라즈마장비#프라즈마실험장치#프
- development of dredger parts
- #대기압플라즈마#플라스마#플라즈마코팅#플라즈마발생기#프라즈마#플라즈마장비#진공플라즈마#화염플라즈마#PLASMA #상압플라즈마#플라즈마클리너#광플라즈마#플라즈마세정#저온플라즈마#AP플
- #플라즈마표면처리#플라즈마표면개질#플라즈마장치#플라즈마장비#대기압플라즈마#플라즈마업체#코로나처리#플라즈마장비제작업체#플라즈마#상압플라즈마 #플라즈마살균#플라즈마수리#외국
- 계란구이기#훈제계란구이기#훈제계란제조기
- 종자발아#종자발아기#플라즈마종자발아#종자발아 플라즈마
- #플라즈마 살균 #농산물 플라즈마처리#식자재 플라즈마살균#축산물 플라즈마처리#음식물 플라즈마처리#저장창고 플라즈마처리#플라즈마멸균#바이오 플라즈마처리#의료용 플라즈마 살균장치
- #플라즈마장치#플라즈마기술#플라즈마표면처리장치#플라즈마개질#플라즈마회사#플라스마#plasma#코로나처리
- 플라즈마양액제조기#양액제조기#스마트팜앵액#식물농장양엑#플라즈마양엑
- agricultural sterilization and washing machines
- #준설부품#모래채취선#준설선#모래준설선#모래채취준설선#바다모래채취선 #주물준설부품#모래채취선부품#주물제조
- Digtal Transfomation #AI 시대 #감성
- #hopper dredger loading line# steel pontoon#impeller# dredging components#rock cutter# loading pipe
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- plasma#plasma technology and smart farm #nutrient solution #smart farm
- #플라즈마 실험장치 #플라즈마실험장치 #실험용플라즈마장치 #플라즈마표면처리장치
- #플라즈마장치 #플라즈마표면처리
- 준설부품#준설선박#모래채취선박
- #casting#foundry#metal casting#casting manufacturing#foundry work
- splasma technology and nutrient solution
- 플라즈마장치
- smart farm and plasma technology
- 준설부품#주물제조#모채채취선박 부품
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- #플라즈마표면처리#플라즈마기술#대기압플라즈마#플라즈마장치#플라즈마장치#플라즈마업체#상압플라즈마#코로나처리기 #플라즈마처리장치 www.plasmakorea.com
- 바질수경재배#바질스마트팜
- #플라즈마표면처리#플라즈마업체#플라즈마장치
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Powder surface treatment using plasma technology 본문
Powder surface treatment using plasma technology, transformation into high value-added material
Plasma-based powder surface treatment technology, one of the cutting-edge technologies of modern industry, is in the spotlight. This technology focuses on transforming powder materials into high-functional materials by dramatically improving their performance and characteristics by treating the surface of the powder material with plasma. In particular, the plasma treatment device unveiled this time has been found to be able to implement various functions such as hydrophilicity, water repellency, and anti-oxidation by surface-treating various types of powder.
The plasma surface treatment method mainly consists of the following steps. First, the powder material is evenly placed in the treatment device. At this time, it is important to adjust the powder so that it is evenly distributed to maximize contact with the plasma. After that, high-frequency voltage is applied through the plasma generation device to generate plasma. During this process, electrons and ions collide with the surface of the powder, changing the chemical bonding of the surface.
The plasma treatment device is mainly composed of a reaction chamber, an electrode system, a gas supply device, and a vacuum system. The reaction chamber is a space where powder is contained and processed, and the internal pressure can be adjusted to optimize the plasma treatment conditions. The electrode system is a key component that generates plasma, and is generally composed of a high-frequency electrode and a ground electrode. When voltage is applied to the high-frequency electrode, plasma is generated between the electrodes, and this plasma processes the surface of the powder. The gas supply device supplies the gas required for the reaction into the chamber, and various gases (e.g., argon, oxygen, nitrogen, etc.) are used depending on the characteristics of the powder being processed. The vacuum system controls the pressure inside the reaction chamber to maintain an environment suitable for plasma generation.
In particular, surface discharge plasma is used to concentrate the plasma on the powder surface. Surface discharge plasma forms plasma locally on the powder surface, allowing energy to be concentrated and transferred only to the necessary parts. This allows the powder surface to be modified, and specific functionality (e.g., hydrophilicity, water repellency) can be imparted. The degree and characteristics of the surface modification can be adjusted as desired by controlling the plasma treatment conditions (pressure, gas type, power, etc.).
For example, the hydrophilicity of polyethylene plastic powder can be maximized through plasma treatment to make it well dispersed in water, and conversely, contact with water can be minimized through water repellent treatment on the surface. This can greatly open up possibilities in various application fields such as coating, pharmaceutical manufacturing, and environmental purification.
In addition, by treating functional powders such as antioxidants with plasma, the interaction of the powder with water can be controlled, thereby ensuring homogeneous dispersion. As a result, the plasma-treated antioxidants are better dispersed in water and maintain a stable suspension state, which can provide great advantages in the pharmaceutical and cosmetic fields.
Another example of plasma powder treatment technology is the result of treating alumina powder. Alumina powder that has undergone plasma hydrophilic treatment mixes well with other powders and maintains a stable suspension state. This characteristic can greatly contribute to the mixing and stability enhancement of advanced materials, and is expected to play an important role in electronic materials, battery materials, etc.
Currently, plasma treatment technology has high applicability in various industrial fields such as manufacturing high-functional plastics, thin film coating, and filter manufacturing, as well as pharmaceuticals, cosmetics, and secondary battery materials. In particular, plasma surface treatment technology can provide an innovative solution in processes that require homogeneous mixing or where physical stability is important.
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