Plasma Knowledge

Atmospheric Pressure Plasma

 
Many of Thierry’s plasma treatments utilize low-pressure plasma systems which lower the pressure in a chamber by creating a partial vacuum and then introduce gas into the chamber which is ionized to become plasma. In atmospheric pressure plasma systems, there is no chamber and there is no vacuum. It utilizes the air around it and converts it into plasma by applying a large voltage to it and expelling it through a nozzle creating a plasma beam. Atmospheric pressure plasma systems can activate surfaces with the added benefit of being able to blow away loose particles or impurities giving surfaces an extremely thorough plasma clean. Atmospheric pressure plasma is capable of treating many different surface types and materials such as plastic, metals, glass, ceramic and hybrid materials.

Applications of Atmospheric Pressure Plasma

 
Since they do not require chambers, it is much easier to incorporate atmospheric pressure plasma machines into automated industrial manufacturing lines. This is a vital capability since plasma technology is becoming more widely used in many industries. Unfortunately, these atmospheric pressure plasma treatments are limited to 2-dimensinal surfaces whereas low-pressure plasma systems are capable of treating 3-dimensional objects of most shapes. Atmospheric pressure plasma can also be used in the small scale. Devices called plasma pens are atmospheric pressure plasma systems that are handheld and capable of very detailed surface activation and cleaning.
 
A Plasma System to Suit Each Application & Advantages of Plasma-enhanced Chemical Vapor Deposition (PECVD)Adhesion Science & Adhesion TreatmentsAnisotropic Etching & The Methods and Uses for Anisotropic EtchingApplications of a Plasma Asher & Surface ModificationArgon Plasma & Argon Plasma Role in Micro-SandblastingAtmospheric Pressure Plasma & Applications of Atmospheric Pressure PlasmaBonding Polyethylene & Using Plasma for Bonding PolyethyleneCoating PVD & Advantages and Disadvantages of Coating PVDContact Angle Measurements & How to Measure Contact AnglesCorona Discharge & The Properties of Corona DischargesCorona Treatment & The Differences between Corona Treatment and Atmospheric PlasmaCVD & Plasma Enhanced CVDDifferences between the Types of Plasma Treatments, Specifically Plasma Coating & Plasma Treatments IntroductionDry Etching & Dry Etching vs. Wet EtchingDry Etching (Plasma Etching) and Wet Etching & Advantages and Disadvantages of Dry Etching (Plasma Etching) and Wet EtchingDyne Levels & Determining a Dyne Level Using a Dyne TestDyne Testing & More about Dyne TestingEtching Silicon & How Etching Silicon is DoneEvaporated Coatings & Methods of Applying Evaporated CoatingsHF Etching & Buffered HF EtchingHistory of Plasma Treatment & Why Powder Plasma Treatment?How to Measure Surface Tension & More Methods of Measuring Surface TensionHydrogen H2 Plasma & Oxide-Layer Reduction with Hydrogen PlasmaHydrogen Peroxide Plasma & The Advantages and Uses of Hydrogen Peroxide Plasma SterilizationHydrophilic Treatment & How Hydrophilic Treatment WorksHydrophobic Coatings vs. Hydrophilic Coatings & Uses for Hydrophobic CoatingsInductive Plasma & The Application of Inductive PlasmaIndustries That a Plasma Asher is Used In & Plasma Etch Customer Parts (Plastic, Metal, Glass)Intelligent Textiles & The Possible Applications of Intelligent TextilesIsotropic Etching & Wet Isotropic Etching vs. Dry Isotropic EtchingLength of Activation for Plasma Treatments & Plasma Treatments and Types of Plasma CoatingLow Pressure Plasma Systems & Types of Low Pressure Plasma SystemsMaximizing Coating Adhesion & Applications of Improving Coating AdhesionNanotechnology Fabrics & Nanotechnology Fabric ProcessesNitrogen Plasma & Nitrogen Plasma vs. Oxygen PlasmaOleophobic Coating & Oleophobic Coating Plasma TreatmentOxide Etch & Buffered Oxide Etch vs. Plasma EtchOxygen Plasma Etching & How Oxygen Plasma Etching is AccomplishedPECVD Industrial Applications & PECVD EfficiencyPECVD Is an Improved Method of Chemical Vapor Deposition & Operation of PECVD SystemsPhysical Vapor Deposition & Physical Vapor Deposition ApplicationsPlasma Applications & Plasma applications in Surface ModificationPlasma Asher & How is Plasma Ashing Done?Plasma Asher Tailored to the Customer & Plasma Etchers and SelectivityPlasma Beam & Plasma Beam ApplicationsPlasma Bonding & The Techniques for Plasma BondingPlasma Etching Tailored to the Customer & Plasma Etcher ParametersPlasma Frequency & Ranges of Plasma FrequencyPlasma Gas & Plasma Gas (Partially Ionized Gas) – Degree of IonizationPlasma Generator & Types of Plasma GeneratorsPlasma Surface Modification & Plasma Surface SciencePlasma Surface Technology & Surface Technology CapabilitiesPlasma Treatment of Different Materials & Plasma Treatment of Silica PowderPlasma Treatment of Powder Applications & Experienced Powder TreatmentPlasma Treatment of Textiles & Plasma Treatment of Textiles: Medical and Technological ApplicationsPlasma Treatment Services & The Use of Corona and Plasma Treatment to Modify Contact AnglePlasma Treatment Systems & Plasma TreaterPlasma Treatments and the History of Plasma & Plasma Treat Different MaterialsPowder Treatment for the Customer & Industries that Need Powder TreatmentSteps of Dry Etching (Plasma Etching) and Wet Etching & Dyne Levels and Plasma Etching TechnologiesSurface Coating with PECVD System & Applications of PECVD SystemsSurface Treatments & Uses for Surface TreatmentsThierry Plasma Systems & What is Plasma-enhanced chemical vapor deposition (PECVD)?What Industries Plasma Etching Is Used In & Plasma Etching MechanismsWhat is a Plasma Asher? & Differences between Plasma Etch and Plasma AshWhat is Plasma Density? & Plasma Density: Cold and Hot PlasmaWhat is Plasma Treatment? & Plasma Treatment of Powders

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