Estampado de metales

We offer comprehensive metal stamping solutions. Our experts can match your project at every stage with the appropriate stamping technique to ensure the highest quality and efficiency within your budget.

  • A wide range of surface finishes and certified materials available
  • High quality metal stamping parts from short runs to long runs stamping
  • Tool & die design and manufacturing
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Our Metal Stamping Capabilities

Metal stamping is a manufacturing process that utilizes dies and high-pressure machinery to cut, blank, bend, punch, emboss, or shape metal sheets into specific forms and designs with remarkable accuracy and repeatability.Chiggo delivers consistent high-quality metal stamping services, from prototypes to production-level volumes of over one million pieces, all with competitive lead times and pricing. Our press capabilities range from 25 to 500 tons, with a maximum press bed length of 10 feet and a maximum press bed width of 20 feet. We can readily stamp metal thicknesses from .004 to .394 inches (0.1 to 10mm),and work to tolerances of ±0.001″.


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stamping workshop at Chiggo

Comprehensive Metal Stamping Services

Stamping can be completed in a single stage or through multiple stages, depending on the complexity of your parts. We manufacture custom metal stampings in various materials, including copper, brass, stainless steel, and steel alloys. With a dedicated team for designing, manufacturing, modifying, and maintaining your tooling, we primarily focus on the following stamping processes:

  • Progressive Die Stamping Services
    Progressive Die Stamping Services

    A continuous process where a metal strip remains attached and moves through a series of stations within a single press, each performing specific operations — cutting, bending, punching, or coining — to form intricate parts efficiently.Ideal for high-volume, consistent production.

  • Deep Draw Stamping Services 2
    Deep Draw Stamping Services

    A process where a sheet metal blank is radially drawn into a forming die by a punch, creating deep, seamless shapes and hollow parts. This method produces components with high depth-to-diameter ratios, making it ideal for manufacturing parts like cans, kitchen sinks, and automotive fuel tanks.

  • Fourslide Stamping Services 2
    Fourslide Stamping Services

    Fourslide stamping is a versatile process that shapes parts with multiple bends and angles from four directions simultaneously. This enables the efficient creation of complex parts in high volumes, such as phone battery connectors.

  • Transfer-Die-Stamping-Services-2.
    Transfer Die Stamping Services

    Unlike progressive stamping, which processes a metal strip through various stations within a single die, transfer die stamping uses individual dies for each operation. Parts are transferred from one station to the next by mechanical handlers, allowing each piece to undergo multiple operations such as punching, bending, and trimming within separate but sequentially arranged dies. This method is suitable for the production of large, complex parts.

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Design Guidelines for Metal Stamping

Metal stamping is a highly efficient and versatile manufacturing process that includes various metal forming techniques such as blanking, punching, bending, and piercing. To ensure the success of your metal stamping projects, consider the following design guidelines from our engineers with over 20 years of experience:

Hole Diameter

The minimum hole diameter should be at least equal to the material thickness.

Edge-to-Hole Spacing

Maintain a minimum distance of at least 2 times the material thickness between the edge and any hole.

Forming Bends Near Holes

Place bends at least 2 times the material thickness away from any hole to prevent deformation.

Notches and Tabs

The minimum width for notches and tabs should be at least 1.5 times the material thickness, and the minimum length of tabs should be twice the material thickness.

Bend Height

The minimum bend height should be at least 3 times the material thickness (e.g., for 1mm thick material, the bend height should be at least 3mm).

Hole to Form

Prevent deformation by ensuring the spacing is the bend radius plus 2.5 times the material thickness. If the hole diameter is less than 2.5mm, this distance should be twice the material thickness plus the bend radius. For larger holes, use the bend radius plus 2.5 times the material thickness.

Slot to Form

When bending near long slots, maintain a spacing of the bend radius plus a minimum of 4 times the material thickness.

Corners

The radius of the punch and die should be at least 4 times the material thickness. For materials 1.5mm or less, corners can be very sharp.

Squareness

Forming a square (90° angle) should allow for a variation of plus or minus 1 degree.

Flatness

Avoid over-specifying flatness requirements to prevent costly secondary operations. A flatness requirement of fewer than .003 inches may increase costs.

L-Shaped Parts

Include a bend relief notch to avoid fractures and cracks.

Grain Direction

For hard materials, avoid aligning the bend line of sharp V-bends parallel to the grain direction to prevent cracking.

Burrs

Burrs can reach up to 10% of the material thickness. Avoid complex cutouts and sharp corners to minimize burr severity, and note the burr direction in the design.

Shapes

Round shapes are the simplest to draw, followed by squares with sufficient corner radii. Irregular shapes or combinations of basic shapes may increase difficulty and cost.

Feature Distortion

Prevent distortion by ensuring holes and slots are not too close to a form, edge, or each other. Drawn parts are more prone to deformation than formed parts.

metal stamping

Level up Metal Bent Parts

Chiggo offers a wide range of high-quality materials in various thicknesses to meet the needs of your application. Additionally, we provide a variety of outstanding surface finishing options to enhance the aesthetic appeal and functional properties of your product. If you require custom materials or finishes not listed here, please contact us.

  • Aluminum 5052 H32
    Steel 1008

    Excellent ductility and formability, easily cold-formed and welded, ideal for parts requiring deep drawing or complex shapes.

  • Aluminum 2024-T3
    Steel 1010

    Good formability and weldability, offers better strength and hardness than 1008. Used for light-load machinery parts and non-structural components.

  • Aluminum 6061 T6
    Steel 1018

    High tensile strength and hardness, good formability, and better machinability. Suitable for parts needing higher strength and wear resistance.

  • Aluminum 7075 T6
    Stainless Steel 301

    Excellent tensile strength, ideal for high-strength and wear-resistant applications.

  • AR400 Steel
    Stainless Steel 304

    Superior overall performance and corrosion resistance at high temperatures.

  • AR500 Steel
    Stainless Steel 316/316L

    Offers the best corrosion resistance among 301 and 304, though more expensive.

  • Copper C110

    Extremely pure, with excellent electrical conductivity and good formability, mainly used in electrical applications.

  • Brass 230

    Also known as red brass, provides excellent corrosion resistance and formability. Commonly used in decorative applications.

  • Brass 260

    Excellent cold-working properties, strong and corrosion-resistant. Widely used in musical instruments and door handles.

  • Bead blasting
    Bead Blasting

    Achieves a uniform matte finish with a grainy texture, eliminating machining marks or imperfections. This is often a preparatory step for other surface treatments.

  • polishing
    Polishing

    Produces a glossy surface that enhances visual appeal and minimizes light scattering.

  • brushing
    Brushing

    Creates a textured, non-reflective finish that effectively masks fingerprints and light scratches.

  • Brushing-Anodizing type II
    Brushing + Anodizing Type II

    After brushing, parts are dipped in an anodizing bath (Type II). This process increases corrosion and wear resistance, enhances surface hardness, and offers various color options.

  • Bead blasting+Anodizing type II
    Bead Blasting + Anodizing Type II

    Following bead blasting, parts are dipped in an anodizing bath (Type II). This improves corrosion and wear resistance, enhances surface hardness, and provides a range of color options.

  • Hardcoat Anodizing type III
    Anodized Type III (Hardcoat)

    Delivers an exceptionally durable finish, significantly improving wear resistance.

  • Powder coating
    Powder Coating

    Applies a uniform, durable layer of color to metals, available in many shades for a long-lasting finish.

  • Black oxide
    Black Oxide

    Provides a sleek, non-reflective finish that offers mild corrosion resistance and a decorative appearance.

  • Chromate conversion coating
    Chromate Conversion Coating

    Offers corrosion resistance and improves adhesion for subsequent paint or coating applications, while maintaining electrical conductivity.

  • Anodizing
    Anodizing

    Increases corrosion and wear resistance on aluminum laser cut parts, enhancing surface hardness and offering a variety of color options.

  • Bead blasting
    Bead Blasting

    Achieves a uniform matte finish free of machining marks or imperfections, often a preparatory step before other surface treatments.

  • Powder coating
    Powder Coating

    Adds a uniform, durable layer of color to metals, available in many shades for a long-lasting finish.

  • Electroplating
    Electroplating

    Provides functional, decorative, or anti-corrosive finishes, with chrome-plating for auto parts being a common use.

  • Polishing
    Polishing

    Produces a glossy surface that improves visual appeal and minimizes light scattering.

  • Brushing
    Brushing

    Creates a textured, non-reflective finish that masks fingerprints or light scratches.

Custom CNC Machining Solutions: From Concept to Production

From rapid prototyping to small-batch production and onto on-demand manufacturing, Our CNC machining service provides efficient solutions, helping you optimize produ ction processes, reduce costs, and swiftly adapt to market changes.

  • Low-Volume Production
  • High Volume Metal Stamping
  • Laser Cutting 2
    Metal Bending 2
    Low Volume Metal Stamping

    Customers use smaller metal stamping orders to bridge the development of a product between prototypes and mass manufacturing, and to gauge how well a product will perform in the market. Low volume production is also beneficial for buyers seeking customized products.

    Most stamping projects are at least 5000 units to ensure cost-effectiveness for the customer. When the quantity cannot reach this number, we will consider the customer's specific project requirements (such as part complexity,materials,and surface finish requirements ) and provide various  alternative solutions accordingly.

    • Laser Cutting: Possibly the quickest and lowest-cost alternative, with the ability to change and adjust programs in minutes but lower material efficiency and tolerance limitations.
    • CNC Punching: Another efficient alternative that enables easy program changes, producing parts similar to die-struck components with tight tolerances, though material utilization is not optimal.
    • Wire EDM: Offers high precision for complex shapes and fine features, providing excellent surface finish and accuracy, but is slower and more expensive.
    • CNC Machining: Delivers high accuracy and flexibility for both simple and complex parts, but is typically slower and costlier.
    • Prototype & Soft Tooling: Uses any means necessary, often starting with a laser or Wire EDM cut blank, followed by less durable tooling such as soft materials or simpler construction
    • Metal Bending: Involves cutting blanks with technologies like laser or waterjet, then bending them into various shapes, offering flexibility and quick turnaround.
  • Progressive Die Stamping 2
    Deep Draw Stamping Services 2
    High Volume Metal Stamping

    Typically, we define high-volume metal stamping as volumes exceeding 1 million parts. Due to the high scalability of stamping, it significantly reduces the unit cost associated with creating custom tools. However, large-scale metal stamping production also brings unique challenges such as tooling production and maintenance, production efficiency, and quality stability. At Chiggo, we effectively manage these challenges with a range of strategies:

    • We use Class A progressive stamping dies with replaceable high-end components, maintaining core tooling as parts wear out.
    • With expertise in processing tool steels and carbide materials, we use carbide cutting inserts and apply coatings to reduce wear, minimize downtime, and improve efficiency.
    • By stocking spare components, sharpening shims, and other wear items, and regularly inspecting and maintaining tools, we ensure stable production and consistent quality.
    • High-volume stamping demands strict quality control, including inspections during setup and production, ensuring batch control and compliance with customer requirements (FAIR, PPAP, CPK data).
    • We run multiple shifts, with equipment operating up to 600 strokes per minute (SPM). Certifying tools on various presses keeps production running during maintenance or equipment failure.
    • Pre-purchasing materials locks in prices and ensures availability. We can also produce and store parts ahead of time to meet delivery schedules and increased demand.
  • Rapid Prototyping

    Chiggo offers a wide range of metal and plastic materials. Combined with the speed of our skilled machinists, this allows for a quick transition from CAD designs to physical models, enabling designers and engineers to practically assess the product's appearance, dimensions, and functionality.

    • Validating design feasibility.
    • Testing functionality.
    • Optimizing and modifying the design.

Gallery of Stamped Metal Parts

View the custom stamped prototypes and end-use parts we’ve produced for our customers.

  • laser cutting part-1
  • laser cutting part-2


  • laser cutting part-3


  • laser cutting part-4


  • laser cutting part-1

  • laser cutting part-1

Why Choose Chiggo for Metal Stamping Services


  • Powerful Stamping Capabilities

    At Chiggo, we are equipped with a skilled team and cutting-edge facilities capable of handling a wide range of metal types and thicknesses. Besides offering diverse stamping services, we also provide in-house die and tooling design, with our CNC machining and Wire EDM equipments to produce these dies and tools, thereby simplifying and accelerating the production process. Whether it's short-run or long-run stamping, simple or complex projects, we can tackle virtually any challenge.

  • Consistent High Quality

    Thanks to our in-house capabilities for mold, gauge, and fixture manufacturing, coupled with stringent quality controls and rigorous data collection, our productivity never compromises quality. With comprehensive lot control and traceability from materials to final delivery, we ensure that all quality requirements are met, including FAIR, PPAP, or any other specific certifications our customers need.

  • Competitive Pricing

    Our efficient production processes and well-managed supply chain enable us to lower costs and pass these savings on to you. Additionally, our engineers excel at optimizing design and manufacturing processes to eliminate waste and minimize turnaround time. They select the most cost-effective solutions from our extensive range of stamping methods and complementary manufacturing processes, such as laser cutting and CNC machining.

  • One-To-One Support

    We believe that excellent customer service is the cornerstone of a successful partnership. From the initial consultation and design optimization to final delivery and post-production support, our experts are committed to ensuring your total satisfaction and are always ready to help.

  • Powerful Stamping Capabilities

  • Consistent High Quality

  • Competitive Pricing

  • One-To-One Support

Industry Applications of Metal Stamping

Metal stamping is a versatile manufacturing process used to produce high-precision parts efficiently and cost-effectively. Over the past decade, we have provided high-quality metal stamping services to various industries, handling projects that range from simple to very complex, and even seemingly impossible. Please review a gallery of our past projects.

  • Automotive
  • Medical Devices
  • Aerospace
  • Consumer Electronics
  • Industrial Equipment
  • Construction and Architecture

CNC Machining FAQs

  • ¿Cuál es el tamaño más pequeño de pieza que se puede estampar?
    ¿Qué tan pequeño necesitas? Tenemos amplia experiencia en el estampado de piezas pequeñas para industrias como la electrónica, dispositivos médicos y telecomunicaciones. Estos componentes normalmente requieren dimensiones dentro del rango de unos pocos milímetros. Si tiene requisitos específicos, por favor contáctenos.
  • ¿Qué tolerancias se pueden hacer para los estampados de metal?
    Para el estampado de metal de precisión estándar, las tolerancias suelen oscilar entre ±0,001" y ±0,005". Para aplicaciones críticas o de alta precisión, especialmente en industrias como la aeroespacial o la fabricación de dispositivos médicos, se pueden lograr tolerancias más estrictas de hasta ±0,0005" o más finas con nuestras herramientas de alta calidad y el control preciso del proceso de estampado. Las tolerancias de formación dependen del material, la complejidad del diseño de la pieza y los procesos de estampado específicos utilizados. Envíenos los dibujos de su pieza y podremos brindarle una estimación más precisa.
  • ¿Existe una cantidad mínima para un pedido de estampado?
    Por lo general, esto depende de varios factores, como los costos de herramientas, las economías de escala y el uso de materiales. Generalmente recomendamos crear moldes para pedidos superiores a 5000 piezas. Para cantidades más pequeñas, podemos ofrecer soluciones alternativas. Por ejemplo, podríamos comenzar con nuestra avanzada tecnología de corte por láser, seguido de usar una combinación de prensa de freno o herramientas de conformado secundario en una punzonadora. En última instancia, nuestros expertos colaborarán con usted para identificar la solución más rentable adaptada a su proyecto.
  • ¿Cuál es el plazo de entrega típico para el estampado de piezas?
    Para un nuevo proyecto que implica la construcción de nuevas herramientas, el plazo de entrega típico puede oscilar entre 6 y 16 semanas, según la complejidad de la pieza, las herramientas y los requisitos de calibre. Para pedidos repetidos o piezas más simples donde las herramientas ya existen, el plazo de entrega puede ser tan corto como de 2 a 4 semanas. Los pedidos abiertos a veces nos permiten fijar el precio del material y organizar la entrega del material justo a tiempo para la producción.
  • ¿Qué es el estampado de metales?
    El estampado de metal es un proceso de fabricación que implica colocar láminas de metal planas, generalmente en forma de bobina, en una prensa de estampado donde las superficies de la herramienta y la matriz dan al metal la forma deseada. Una vez que se completan el costo inicial y el tiempo para desarrollar las herramientas, la versatilidad del estampado permite procesar grandes volúmenes de piezas con alta precisión y consistencia en muy poco tiempo a un precio más bajo. Los troqueles progresivos son una opción popular de herramientas, en la que nos destacamos en la producción.