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Plasma Surface Treatment Flame Treatment for Auto Parts1
Pre Press Equipment, Plasma Surface Treatment, Plasma Treatment
Keylink Technology Co., Ltd.
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Product Description Product ParametersPL-5010-OUTTechnical specificationNozzle models availableNozzle treatment areaModelInterface displayMultifunctional one body LED digital tubeD04 NX Nozzle A7-8mmPL-JX-101-1Rated supply voltageAC220V ±10%D04 NX Nozzle B7-8mmPL-JX-102-1Plasma output power1000VAD03 Nozzle C(flat)12-13mmPL-JX-104-1Input current4.0-6.0AD02xy nozzle7-8mmPL-JX-106-1Supply frequency20kHz Air source requirementExternal air source (gas consumption 50L/min) Air source input pressure≥0.6Mpa Air pressure operating range0.1-0.25Mpa ModeSignal Mode/ Encoder Mode Relative humidity<93%Storage temperature-25oC-+55oCCleaning height5-15mmTreatment width≤13mmBracketGymbalDimensions (including components)580(L)*350(W)*320(H)mmNet weight19 kgDimensions of the outer packing box640(L)*395(W)*475(H) mmGross weight26 kgDetection functionAir pressure detection, overtemperature detection, undercurrent detectionFault alarmUndercurrent, input overcurrent, output overcurrent, abnormal air pressure Plasma Surface Treatment for Cables and Wires In modern cable production, many insulation materials (like PTFE, FEP, EPDM, silicone, PVC, PE, etc.) have very low surface energy, so inks, coatings, and glues will not readily stick. Plasma surface treatment uses a directed ionized gas jet to functionalize the outer layer of a cable or wire as it is produced. The energetic plasma "activates" the surface (breaking bonds, cleaning off contaminants) so that inks or adhesive will wet out and form permanent bonds. In practice, treating a moving wire or extrusion with plasma yields a more wettable and reactive surface layer that is ideal for printing, overmolding, or bonding. This inline plasma step eliminates weak "beading" defects (like a freshly waxed car surface) and results in indelible ink marking and durable adhesive joints. Compatible Insulation MaterialsPlasma surface treatment works on virtually all common wire and cable insulations. In particular, it is very effective on low-surface-energy polymers. Examples include:Polytetrafluoroethylene (PTFE/Teflon) and other fluoropolymers (FEP, ETFE) - often used in aerospace/medical cables.Silicone rubber and other rubbery elastomers (EPDM) - used in flexible cables and harsh environments.PVC (polyvinyl chloride) and PE (polyethylene) - the most common thermoplastic jacketing materials.XLPE, CPE, polyurethane, neoprene, etc. - used in specialty cables and overmolded assemblies. These materials have notoriously poor wettability (ink beads up) and normally require special pretreatment. Plasma treatment can be applied to all of them, increasing surface energy and creating micro-roughness and chemical anchors that let inks and adhesives permanently adhere. Downstream Processes EnabledPlasma pretreatment is especially valuable for the following downstream cable processes:Inkjet or Laser Printing/Marking: Enables durable, high-contrast codes (alphanumeric, barcodes, logos, etc.) to be printed on moving cables. The plasma-activated surface bonds with ink polymers so that markings do not rub or wash off.Overmolding/Encapsulation: Ensures that molded housings or sealants adhere to cable sheaths. For example, when injection-molding a connector or potting a cable splice, plasma-treated cable jackets (PE, CPE, polyurethane, neoprene, etc.) form much stronger bonds.Adhesive Bonding: Improves adhesion of adhesives, epoxies, or solder joints to cable surfaces. Plasma cleaning removes mold-release oils and adds "bonding anchors" on the polymer, so that glues and potting compounds cure to a reliable bond.Insulation Extrusion and Coating: In multi-layer extrusions, plasma can treat inner layers or cores to ensure that the next jacket layer bonds uniformly. This improves sheath adhesion and prevents delamination between layers.Other Assembly Steps: Any process requiring wetting of cable surfaces (e.g., polyimide coating, solder mask, printing of UV-curable inks) benefits from plasma.Technical BenefitsPlasma pretreatment delivers multiple technical advantages for cable makers:Enhanced Adhesion and Bond Strength: By increasing surface energy and creating reactive chemical groups, plasma prevents delamination and yields much stronger bonds of inks or coatings to the cable. Marks and glue lines are far more durable (even under abrasion or thermal cycling).High Surface Energy/Wettability: The plasma-treated surface becomes highly wettable, as if it had a permanently "polished" or micro-etched surface. This dramatically improves ink runnability and glue spread.Contaminant and Release Agent Removal: Plasma etches away tiny traces of mold-release oils, dust and other impurities on extruded cables. This cleaning action means that primers or washing steps are no longer needed, and coatings cure on a pristine surface.Better Process Reliability: Plasma treatment is uniform and repeatable. Even on tight aerospace or medical standards cables, in-line plasma ensures each meter has identical surface activation. Fewer rejects and reworks result from the consistent bonding.Primer-Free Operation: Because plasma eliminates the need for wet chemical primers or flame etch solutions, manufacturers save time and materials. Not waiting for solvents to flash off also speeds up the line throughput.Environmental and Cost AdvantagesPlasma surface treating is also a greener and more economical choice than chemical primers or abrasive etches:Chemical-Free Process: Plasma uses only ionized air (or inert gases) and electricity - no solvent, acids, or primers are required. This means zero VOC emissions and no hazardous waste.Energy-Efficient: Modern plasma systems consume relatively little power and generate no significant heat, making them cost-effective to run. In fact, systems are typically energy-saving and explicitly designed to be eco-friendly.Lower Material Costs: Eliminating primers not only removes chemical purchase costs but also saves time (no solvent flash-off) and reduces storage/handling needs. As one cable manufacturer reported, switching to handheld plasma eliminated primers and their drying time, slashed operator PPE requirements, and accelerated production.Improved Safety and Compliance: With no toxic fumes or flammable chemicals, the production line is safer for workers. Ventilation requirements are greatly reduced, and regulatory compliance (REACH, etc.) is simpler without primer solvents.Samples, Testing, and CustomizationWe encourage customers to send us samples or insulation compounds for free trial testing. Our in-house labs can run your parts through a plasma module and report the optimal settings. Based on the trial results, we will recommend the ideal plasma setup - nozzle design, power level, number of passes - for your exact application. This ensures that the plasma pretreatment is tailored to your materials and downstream processes. With this data in hand, your engineering team can confidently integrate the plasma system and realize the improved print/bond quality and lower production costs.Contact us to learn more about our cable & wire plasma treatment solutions, or to schedule a custom trial run. We look forward to helping your company improve cable marking quality and bonding reliability while cutting costs and environmental impact.References: Industry technical articles and supplier literature on plasma treatment for cables and wires(citations in text).Company ProfileCertificationsExhibitionPackaging & ShippingFAQ 1. What is the shipping warehouse location?Answer:Our main shipping warehouse is located in Zhejiang, China, and we ship globally via trusted logistics partners. We also accommodate customer-preferred shipping methods or carriers.2.What is the production lead time?Answer:Lead time varies based on order size and product type:For small to medium orders (e.g., 10-20 machines), the lead time is approximately 3-4 workdays.We expedite production to meet tight deadlines whenever possible, especially before holidays like the Spring Festival. 3.Can I customize my order (e.g., specific configurations or spare parts)?Answer:Yes, customization is available! We can tailor machine configurations, spare parts, and accessories (e.g., nozzles or cable lengths) based on your specific requirements. Please share your customization needs during the order confirmation process. 4.What are the payment terms?Answer:We offer flexible payment terms, including:Full payment before shipping50% deposit upon order confirmation.Remaining balance before shipment.Payments are typically made via SWIFT transfer. For long-term partners, we can explore customized payment plans based on mutual agreement. 5.What kind of after-sales support do you provide?Answer:We offer comprehensive after-sales support, including:Technical Assistance: Troubleshooting via email, phone, or video calls.Spare Parts: Quick access to replacement parts for machines under warranty or through spare part orders.Documentation: User manuals, maintenance guides, and troubleshooting SOPs for all products.On-Site Support: For critical issues, we can dispatch technicians to your location (subject to availability and agreement).
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