Our CNC Plasma Cutting Services
Power up your metal fabrication projects with our top-tier CNC Plasma Cutting services—El mezcla perfecta de altas velocidades de corte, corte de precisión, y rentabilidad. Whether you’re cutting thick carbon steel for shipbuilding or intricate stainless steel for architectural designs, we deliver consistent results across diverse metals, backed by fast setup times, minimal distortion, and tailored solutions for industries like automotive, aeroespacial, and metal fabrication. Experience the efficiency of plasma technology to boost your production today!
What Is CNC Plasma Cutting?
Corte de plasma CNC is a dynamic tecnología that uses a high-temperature plasma arc to cut through conductive materials—primarily metals. Unlike water jet or laser cutting, it relies on ionized gas (plasma) to melt and blow away material, making it ideal for thick metal cutting while maintaining speed.
En su núcleo, el descripción general del proceso es sencillo: A plasma torch ionizes a gas (like compressed air or nitrogen) into plasma—a superheated, electrically conductive gas (reaching 20,000–30,000°C). This plasma arc is focused through the torch’s nozzle, melting the material, while a high-velocity gas stream blows away the molten metal to create a clean cut.
To explain “Cómo funciona” simply: Imagine a tiny, ultra-hot flame guided by a computer. The CNC (Control numérico de la computadora) system follows pre-programmed designs, moving the plasma torch with precision to slice through metal—even thick sheets. This is the essence of plasma basics: using ionized gas’s extreme heat to cut conductive materials quickly and efficiently.
Our CNC Plasma Cutting Capabilities
We offer robust cutting capabilities to meet the demands of heavy-duty and precision-focused projects. Below is a detailed breakdown of our key capacities, incluido maximum material thickness, material size limits, niveles de precisión, custom cutting, y tolerance achievements:
| Capacidad | Especificación |
| Maximum Material Thickness | – Acero inoxidable: Up to 50mm- Aluminio: Up to 40mm- Acero suave: Up to 80mm- Acero carbono: Up to 100mm- Cobre: Up to 25mm |
| Material Size Limits | Estándar: 4000mm x 2000mm; Custom large-format: Up to 6000mm x 3000mm (with specialized beds) |
| Niveles de precisión | ±0.2mm for thin metals (≤10mm); ±0.5mm for thick metals (≥50 mm); ±0.3mm for medium metals (10–50 mm) |
| Custom Cutting | – Complex 2D shapes (compatible with CAD/CAM files: DXF, Dwg, Stl, AI)- Bevel cuts (0–60 degrees)- Hole cutting (minimum diameter: 3milímetros)- Prototipos de bajo volumen (1–50 unidades) a la producción de alto volumen (100,000+ unidades/mes) |
| Tolerance Achievements | Consistent ±0.15mm for critical parts (P.EJ., corchetes aeroespaciales); se encuentra con ISO 2768 fine standards for precision applications |
Whether you need to cut a single thick carbon steel plate or mass-produce aluminum components, our capabilities scale to match your project’s unique needs.
The CNC Plasma Cutting Process (Paso a paso)
Nuestro proceso paso a paso is designed to ensure speed, exactitud, and consistency—from design to finished part. Each phase is optimized to minimize waste and meet your specifications:
- Design and Preparation: We start by reviewing your design files (or helping you create one from a sketch). Our team checks for feasibility—ensuring the design aligns with the material’s thickness, conductividad, and your precision requirements. Para no metales (like some plastics), we confirm compatibility (plasma cutting works best with conductive materials).
- Programming the CNC: Una vez que se finaliza el diseño, our engineers convert it into a CNC-compatible program. The program defines the torch’s path, velocidad de corte, gas type, and arc voltage—tailored to your material (P.EJ., higher speed for mild steel, lower speed for copper to avoid heat buildup).
- Setup and Calibration: The material is secured to the cutting bed (to prevent movement during cutting). We calibrate the plasma torch height (critical for consistent cut quality), select the appropriate torch type (P.EJ., drag torch for thin metals, mechanized torch for thick metals), and test gas flow rates. A trial cut on scrap material ensures all settings are correct.
- Ejecución de corte: The CNC system takes control—moving the torch along the programmed path. The plasma arc melts the material, while the gas stream (P.EJ., oxygen for mild steel, nitrogen for stainless steel) blows away molten metal. For thick materials, we adjust cutting speed to ensure full penetration without excessive Zona afectada por el calor (Cría).
Post-Cutting Inspection: Después de cortar, Cada parte sufre inspección. We check dimensions (Usando calibradores, micrómetros, y CMMS), calidad de borde (looking for dross—molten metal residue), and adherence to tolerances. Parts with dross move to desacuerdo o molienda para terminar.
Materials We Work With
Corte de plasma CNC excels with conductive materials—primarily metals—though it can handle some non-metals (with limitations). Below is a breakdown of our supported materials, sus propiedades clave, y usos ideales:
| Categoría de material | Ejemplos | Propiedades clave | Aplicaciones ideales | Limitaciones (if any) |
| Rieles | Acero inoxidable | Resistente a la corrosión, fuerte | Componentes aeroespaciales, Equipo de procesamiento de alimentos, architectural trim | None—ideal for plasma cutting |
| | Aluminio | Ligero, conductivo, heat-sensitive | Paneles de cuerpo automotriz, piezas de aeronaves, recintos eléctricos | Requires lower speed to minimize HAZ |
| | Acero suave | Asequible, highly conductive | Vigas estructurales, cáscara de barco, marcos industriales | Excellent for high-speed, thick cutting |
| | Acero carbono | Fuerte, durable, conductivo | Pipeline parts, equipo de construcción, heavy machinery | Ideal for thick cuts (hasta 100 mm) |
| | Cobre | Highly conductive, heat-absorbent | Cableado eléctrico, intercambiadores de calor, conectores | Slower cutting speed to avoid heat buildup |
| Non-Metals | Some Plastics | Low conductivity (varía según el tipo) | Custom plastic signs (grueso, rigid types like PVC) | Only works with thick, plásticos rígidos; thin plastics may melt unevenly |
| | Composite Materials | Conductive core (P.EJ., carbon fiber-metal composites) | Racing car parts, industrial panels | Requires composite with conductive core; non-conductive composites (P.EJ., fiberglass-plastic) are not compatible |
We always test non-metal materials first to ensure optimal results—contact our team to confirm if your material is suitable for plasma cutting.
Tratamiento superficial & Opciones de acabado
Después de cortar, Ofrecemos una gama de tratamiento superficial y finishing options to enhance part durability, apariencia, y funcionalidad. Our most popular services include:
- Molienda: Removes dross (residuo de metal fundido) and smooths rough edges—critical for parts that require assembly or visible placement (P.EJ., architectural trim).
- Pulido: Crea un suave, shiny surface for stainless steel or aluminum parts—ideal for decorative applications (P.EJ., art sculptures, kitchen equipment).
- Cuadro: Applies a durable, corrosion-resistant coating (available in matte, brillo, or textured finishes) to protect metal parts from rust (Especialmente para uso al aire libre).
- Revestimiento: Options include powder coating (grueso, resistente a los arañazos) y galvanizando (zinc coating for carbon steel parts used in harsh environments like shipbuilding).
- Tratamiento térmico: Strengthens metal parts (P.EJ., acero carbono) by heating and cooling—improving hardness for high-stress applications (P.EJ., componentes de maquinaria).
- Desacuerdo: Removes sharp edges or burrs—essential for safety (P.EJ., recintos eléctricos) and easy assembly.
The table below compares our finishing options by key factors:
| Finishing Option | Durabilidad | Tiempo de entrega | Costo (per sq. metro) | Mejor para |
| Grinding | Medio | 1 day | 15-30 | Removing dross from thick metals |
| Pulido | Rico | 2–3 días | 30–55 | Visible stainless steel/aluminum |
| Pintura | Rico | 2–3 días | 20–45 | Outdoor/industrial metal parts |
| Revestimiento (Polvo) | Muy alto | 2–4 días | 25–50 | Heavy-duty components (maquinaria) |
| Tratamiento térmico | Muy alto | 3–5 días | 35–70 | High-stress carbon steel parts |
| Desacuerdo | Medio | 1 day | 10–25 | Parts requiring safe assembly |
Tolerancias & Seguro de calidad
Tolerancias y accuracy standards are critical for ensuring parts fit and perform as intended. Nuestro niveles de precisión y rangos de tolerancia are tailored to your material and application, backed by rigorous técnicas de medición y quality control processes:
| Material | Tolerancia estándar | Tight-Tolerance Option | Accuracy Standard Used | Técnica de medición |
| Acero inoxidable | ±0.25mm | ± 0.15 mm | ISO 2768 Bien, ASME Y14.5 | Cmm (Coordinar la máquina de medir) |
| Aluminio | ±0.30mm | ±0.20mm | ISO 2768 Bien, AMS 2750 | Cmm + Digital Calipers |
| Mild Steel | ±0.40mm | ±0.25mm | ISO 2768 Medio, ASTM A36 | Digital Micrometer + Ruler |
| Acero al carbón | ±0.50mm | ±0.30mm | ISO 2768 Medio, ASTM A572 | Cmm + Escáner láser |
| Cobre | ±0.35mm | ±0.25mm | ISO 2768 Medio, ASTM B152 | Optical Comparator + Calipers |
Nuestro quality control processes incluir:
- Pre-cut material inspection: Checking thickness, llanura, and conductivity to ensure it meets project requirements (P.EJ., no impurities in stainless steel that could affect cut quality).
- In-process monitoring: Real-time tracking of arc voltage, torch height, and cutting speed via CNC software—adjusting settings automatically if deviations occur.
- Post-cut inspection: 100% of parts are measured; partes críticas (P.EJ., componentes aeroespaciales) undergo additional testing (P.EJ., pruebas de estrés, corrosion resistance checks).
Documentación: We provide a detailed quality report with every order, including measurement data, Resultados de inspección, y cumplimiento de los estándares de la industria.
Key Advantages of CNC Plasma Cutting
Compared to other cutting methods (like oxy-fuel, láser, or water jet), Corte de plasma CNC offers unique benefits that make it a top choice for metal fabrication. Below are its core advantages:
- High Cutting Speeds: It’s 3–5x faster than oxy-fuel cutting for thin-to-medium metals (P.EJ., 10mm mild steel) and 2x faster than water jet cutting for thick carbon steel (P.EJ., 80milímetros). This reduces lead times for high-volume orders.
- Corte de precisión: With tolerances as tight as ±0.15mm, it produces parts that fit together seamlessly—reducing assembly time and rework. For most metal fabrication projects, its precision matches laser cutting (at a lower cost).
- Ability to Cut Thick Materials: A diferencia del corte láser (which struggles with metals over 25mm), plasma cutting handles thick metals up to 100mm (acero carbono)—ideal for heavy-duty applications like shipbuilding and construction.
- Versatilidad: It works with all conductive metals (acero inoxidable, aluminio, acero suave, acero carbono, cobre) and some non-metals (thick plastics). This means you can use one service for multiple material types.
- Rentabilidad: Lower upfront costs than laser cutting (plasma machines are more affordable) and lower operating costs than oxy-fuel (less gas consumption). Desperdicio mínimo (kerf width: 1-3 mm) also reduces material costs.
- Fast Setup Times: CNC programming and setup take 1–2 hours (VS. 3–4 hours for oxy-fuel), so we can start cutting your parts quickly—perfect for urgent projects.
Minimal Material Distortion: Advanced CNC systems and optimized gas flow reduce warping (common with oxy-fuel cutting). El Zona afectada por el calor (Cría) is smaller than oxy-fuel (5–10mm vs. 15–20 mm), preserving material strength.
Aplicaciones de la industria
Corte de plasma CNC is widely used across industries that rely on metal fabrication—thanks to its speed, ability to cut thick materials, y precisión. Aquí están sus aplicaciones más comunes:
| Industria | Usos comunes |
| Aeroespacial | Stainless steel brackets, aluminum structural components, copper heat exchangers (precision cuts for tight tolerances) |
| Automotor | Mild steel chassis parts, aluminum body panels, componentes de escape (high-speed production for mass manufacturing) |
| Fabricación industrial | Carbon steel machinery frames, stainless steel tanks, Piezas del sistema transportador (heavy-duty cuts for durable equipment) |
| Arquitectónico | Stainless steel decorative panels, mild steel railings, aluminum facades (intricate shapes for aesthetic designs) |
| Construcción naval | Thick carbon steel hull plates, copper piping supports, stainless steel deck components (ability to cut large, thick materials) |
| Fabricación de metal | Custom metal signs, vigas estructurales, welded assemblies (versatility for diverse projects) |
| Arte y escultura | Mild steel sculptures, stainless steel art installations (intricate 2D shapes and bevel cuts for creative designs) |
| Recintos eléctricos | Aluminum enclosure panels, stainless steel junction boxes (precision cuts for fitting electrical components) |
Por ejemplo, in shipbuilding, our plasma-cut carbon steel plates (up to 100mm thick) meet maritime safety standards—ensuring hulls are strong and durable. In architecture, our precision cuts for stainless steel facades create visually striking designs that withstand harsh weather.
Técnicas de fabricación avanzadas
To deliver optimal results, Usamos de vanguardia plasma cutting techniques y cutting methods, tailored to your material and project goals. Here are the key techniques we employ:
- Types of Plasma Cutting:
- Conventional Plasma Cutting: For thick metals (≥25 mm) like carbon steel—uses high gas flow to blow away molten metal, ideal for heavy-duty applications.
- Precision Plasma Cutting: For thin-to-medium metals (≤25 mm) like stainless steel—uses a narrower plasma arc (0.5–1 mm) to achieve tighter tolerances (± 0.15 mm).
- High-Definition Plasma Cutting: Our top-tier technique—uses advanced torch design and higher arc density to produce laser-like precision (± 0.1 mm) para partes críticas (P.EJ., componentes aeroespaciales).
- Torch Types:
- Drag Torch: Para metales delgados (≤10mm)—the torch “drags” along the material surface, ensuring consistent height and speed.
- Mechanized Torch: For thick/medium metals (≥10 mm)—mounted on a CNC gantry, it adjusts height automatically for uneven material surfaces.
- Gas Types and Mixtures:
- Oxygen: For mild steel—oxidizes the material to speed up cutting and reduce dross.
- Nitrógeno: For stainless steel/aluminum—prevents oxidation (Sin óxido) and produces clean edges.
- Argon-Hydrogen Mixture: For copper—reduces heat buildup (copper absorbs heat quickly) and improves cut quality.
- Velocidades de corte: Speed varies by material and thickness—e.g., 15m/min for 5mm mild steel, 5m/min for 25mm stainless steel, 2m/min for 80mm carbon steel.
Zona afectada por el calor (Cría) Management: We optimize gas flow and cutting speed to minimize HAZ—e.g., lower speed for aluminum (heat-sensitive) to keep HAZ under 5mm.
Estudios de caso: Historias de éxito
Nuestro CNC Plasma Cutting services have helped clients across industries overcome challenges and achieve their production goals. A continuación hay dos proyectos exitosos destacando nuestra experiencia:
Estudio de caso 1: Shipbuilding Company (Thick Carbon Steel Hulls)
Desafío: El cliente necesitaba 500 carbon steel hull plates (80mm de grosor, 4000mm x 2000mm size) for cargo ships—with tight tolerances (±0.30mm) and minimal distortion. Their previous supplier used oxy-fuel cutting, which caused excessive Zona afectada por el calor (Cría) (15–20 mm), leading to warping and costly rework. The client also needed the plates delivered in 4 weeks to meet shipyard deadlines.
Solución: Usamos conventional plasma cutting (80,000 PSI arc pressure) with oxygen gas (to speed up cutting and reduce dross) and a mechanized torch (to handle the thick material evenly). We optimized the cutting path to minimize torch movement, Reducción de la distorsión, and added a post-cut molienda step to remove any remaining dross. Our team ran 3 plasma machines 24/7 to meet the tight timeline.
- Resultados:
- 100% of hull plates met the ±0.30mm tolerance—no warping, and HAZ was reduced to 5–8mm (well below the client’s 10mm limit).
- Rework costs dropped by 70% en comparación con el proveedor anterior del cliente.
- The order was delivered 3 días temprano, allowing the shipyard to stay on schedule.
- Testimonial del cliente: “The plasma-cut hull plates fit perfectly—no more reworking warped parts. The fast delivery kept our project on track, and the quality is far better than oxy-fuel cutting.” — Sarah K., Shipyard Production Manager.
Estudio de caso 2: Architectural Firm (Custom Stainless Steel Facades)
- Desafío: The firm needed 200 custom stainless steel facade panels (5mm de grosor) with intricate geometric patterns—requiring corte de precisión (±0.15mm tolerance) and a polished finish. The client wanted the panels to be identical for a uniform building appearance and needed them in 3 weeks for a commercial project launch.
- Solución: Usamos high-definition plasma cutting (our top-tier technique) with nitrogen gas (to prevent oxidation and keep edges clean) and a drag torch (for precise control over the intricate patterns). We programmed the CNC system to replicate the pattern exactly across all panels and added a post-cut pulido step to achieve the desired high-gloss finish. Our quality team inspected each panel with a CMM to ensure consistency.
- Resultados:
- Todo 200 panels were identical—matching the geometric pattern within ±0.12mm (exceeding the client’s ±0.15mm requirement).
- The nitrogen gas cutting left edges so clean that polishing time was reduced by 40% compared to standard methods.
- The order was delivered on time, and the facade received positive feedback for its sleek, uniform design.
- Before and After: Raw stainless steel sheets were plain; after high-definition plasma cutting and polishing, they became eye-catching facade panels that elevated the building’s aesthetic.
Challenge Overcome: Intricate patterns often lead to uneven cuts with conventional methods, but our high-definition plasma technology ensured sharp, consistent lines across every panel.
Why Choose Our CNC Plasma Cutting Services?
With countless plasma cutting providers, here’s what makes us the trusted partner for businesses across aerospace, automotor, construcción naval, and architecture:
- Expertise in Plasma Cutting: Nuestro equipo de ingenieros tiene 18+ years of specialized experience in Corte de plasma CNC—we master all types of plasma cutting (conventional, precisión, high-definition) and can tailor techniques to your material (P.EJ., using argon-hydrogen mixtures for copper, nitrogen for stainless steel). We solve complex challenges like minimizing HAZ for heat-sensitive aluminum or achieving tight tolerances for aerospace parts that other providers can’t match.
- Experience in Various Industries: Hemos servido 600+ clientes entre 10+ industries—from small metal fabricators to Fortune 500 aerospace companies. This cross-industry experience means we understand sector-specific requirements: FDA compliance for food processing equipment (piezas de acero inoxidable), maritime safety standards for shipbuilding (thick carbon steel), and aesthetic precision for architecture (custom metal facades).
- High-Quality Equipment: We invest in state-of-the-art plasma cutting machines—including 5 high-definition plasma systems (capable of ±0.1mm tolerance) y 8 conventional/precision systems. Our torches (drag and mechanized) are replaced every 500 hours to ensure consistent performance, and we use advanced CNC software (with real-time monitoring) to track every cut. All equipment is calibrated monthly by certified technicians.
- Excelente servicio al cliente: Nuestro equipo está disponible 24/7 to support your project—from design consultation to post-delivery follow-up. We offer free design reviews (helping you optimize your design for plasma cutting, P.EJ., adjusting hole sizes to avoid dross) and free samples (so you can test our quality before placing a large order). We also provide regular order updates (via email or phone) so you always know your project’s status.
- Tiempos de respuesta rápidos: Con 13 plasma cutting machines (running 24/7) and optimized production processes, we deliver industry-leading lead times:
- Prototipos (1–50 unidades): 1–3 días
- Low-volume orders (50–500 unidades): 3–7 días
- High-volume orders (500+ unidades): 7–14 días
Para proyectos urgentes (P.EJ., shipbuilding delays or emergency machinery repairs), we offer rush services—delivering parts in as little as 48 horas (for small orders) sin comprometer la calidad.
- Soluciones rentables: We help you save money at every stage:
- Material savings: Our nesting software optimizes part placement on sheets, reducing waste by 12–18% compared to competitors (P.EJ., fitting 10 facade panels per stainless steel sheet instead of 8).
- Operational savings: Plasma cutting uses 30% less gas than oxy-fuel cutting, and our high-efficiency machines reduce electricity costs by 20%.
- Volume discounts: Ofrecemos 10% off orders over 1,000 units and 15% off orders over 5,000 units—perfect for mass production (P.EJ., Piezas de chasis automotriz).
- Innovative Techniques: We stay ahead of industry trends by adopting cutting-edge methods:
- Automated nesting software: Uses AI to maximize material usage (reducing waste further).
- HAZ management technology: Customizes gas flow and cutting speed for each material to minimize heat impact (critical for aluminum and copper).
3D plasma cutting: Para piezas complejas (P.EJ., aerospace brackets with beveled edges) that require multi-angle cuts—eliminating the need for secondary machining.