Arizona 

Plastic injection molding for Arizona

Receive top-tier engineering services from a seasoned manufacturer with a track record of professionalism and excellence.

Custom Parts, On Demand Manufacturing

Plastic injection molding for Arizona

Explore our premier Plastic injection molding services in Arizona

specializing in plastic prototypes and production parts.

Welcome to CapableMachining! We are your trusted partner for all your plastic injection molding services needs. With years of experience and a team of skilled professionals, we are committed to delivering high-quality products that exceed your expectations. Our state-of-the-art facility is equipped with the latest technology to ensure precision and efficiency in every project we undertake. Whether you need prototyping, tooling, or production runs, we have the expertise to bring your vision to life. Contact us today to learn more about how CapableMachining can help you with your plastic injection molding services.

  • Free & Automatic DFM feedback
  • Tolerances: typically +/- 0.15mm or +/-0.006 inch
  • Typically Tooling: 30 days
  • Typically injection molding: 3 days
  • Why Choose Us?

    Our ability to provide on-demand manufacturing services means not only having strong manufacturing capabilities but also services that can produce complex end-use parts quickly, efficiently, and intelligently.

    Our services

    3 Axis CNC Milling

    Injection molding stands as the predominant approach for mass-producing plastic goods. This method involves melting plastic, injecting it into molds, ejecting the finalized product, and then repeating the cycle.

    4 Axis CNC Milling

    Insert molding proves to be a highly practical injection molding technique that enhances the strength or other properties of the final part by integrating additional materials.

    5 Axis CNC Milling

    Overmolding is a process where various materials are layered to create a composite article. Typically, this method entails injecting a base material over one or more pre-existing parts to integrate them into a unified whole.

    Capabilities

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    Tolerances

    Heavily depending on the plastic type and the size of the part, typically +/- 0.15mm or +/-0.006 inch

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    Mold Life Cycle

    Typically 300,000, and 600,000 if required.

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    Leading Time

    Typically: tooling 30 days, injection molding 3 days

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    Injection Material

    Most of the thermal plastic, ABS, HDPE, PE, PC, PMMA, PA6, PA66, POM, PBT, PET, PVC TPU, TPE, Silicone Rubber… Learn More >

    Materials

    Deciding the right material is important, not only for factors such as cost, processing complexity, and potential surface treatments but also for the ultimate quality of the product. Our competent engineering team specializes in proactively addressing this challenge, even before an order is placed. This process guarantees that our customers have the unwavering faith in the final quality of their products.

    Rigid Materials

    Hard plastic materials are defined as materials that indicate essentially no elastic deformation and no complete plastic deformation. Wesustain ongoing collaboration quality suppliers, which enables us to provide quality assurance to our customers as well as to attend to varied particular needsof our customers.

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    Elastic Materials

    Quality materials are the underpinning of quality and key component of the overall product expense. We engage with significant material suppliers and can provide you with instant quotes on diverse selection of premium plastics, as well as wide assortment of material options.

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    Our Quality Control

    Our company boasts a entrenched quality assurance framework and a team of skilled technological engineers who diligently oversee every aspect of our product manufacturing process – from acquiring top-notch unprocessed resources to delivering impeccable finished goods that encompass metals and plastics. To keep our dedication to perfection, we extensively utilize state-of-the-art testing technology and cutting-edge equipment to meticulously evaluate crucial parameters such as workpiece dimensions, hardness, tensile strength, and elongation at every stage of production. We aspire to maintain utmost control over these data points to meet and surpass the expectations of our esteemed clientele consistently.

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    Professional quality control Engineer

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    Tolerances up to ±0.0004″ (0.01mm)

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    State-of-the-art Inspection Facilities

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    Proven and reliable quality control system.

    Gallery of Parts

    plastic charging plug parts

    Charging Plug

    Material: ABS

    plastic parts

    Material: PEEK

    plastic parts

    Material: PA66

    plastic  parts

    Material: ABS

    plastic  parts

    Material: PPA + 30 Carbon Fiber

    Medical plastic products

    Material: PE

    Other capabilities

    plastic injection molding
    • Free & Automatic DFM feedback
    • Tolerances: typically +/- 0.15mm or +/-0.006 inch
    • Tooling: 30 days
    sheet metal fabrication
    • Free advices from high trained engineers.
    • Quotation in a few hours.leading time 3 days
    • Fast delivery time
    high pressure die casting
    • Tolerances: typically +/- 0.15mm or +/-0.006 inch
    • Free consultant ,Free DFM feedback
    • Casting lead time: 5~7 days
    3d printing
    • Wide range of material choices
    • Free consultant from engineers
    • Fastest leading time: 1 day
    rapid tooling
    • Free & Automatic DFM feedback
    • Tolerances up to ±0.00078″ (0.02mm)
    • Rapid tooling: 7~12 days

    How do find our location?

    FAQ


    Introduction

    Plastic injection molding is a widely used manufacturing process in Arizona that involves melting plastic pellets and injecting them into a mold to create various products. This process is known for its efficiency, precision, and versatility, making it a popular choice for producing a wide range of plastic components. For those who are new to plastic injection molding, here are 10 pairs of questions and answers that will help you better understand this process.

    Q: What is plastic injection molding?

    A: Plastic injection molding is a manufacturing process that involves melting plastic pellets and injecting the molten material into a mold to create a desired shape or part.

    Q: How does plastic injection molding work?

    A: Plastic injection molding works by heating plastic pellets to a molten state and then injecting the molten material into a mold cavity, where it cools and hardens to form the final product.

    Q: What are the advantages of plastic injection molding?

    A: Plastic injection molding offers a high level of precision, repeatability, and cost-effectiveness, making it ideal for producing large quantities of plastic parts with complex shapes.

    Q: What types of materials can be used in plastic injection molding?

    A: A wide range of thermoplastic and thermoset materials can be used in plastic injection molding, including ABS, polypropylene, and polycarbonate.

    Q: What industries use plastic injection molding?

    A: Plastic injection molding is used in a variety of industries, including automotive, aerospace, medical, and consumer goods, to produce everything from car parts to medical devices.

    Q: What factors should be considered when designing a part for plastic injection molding?

    A: When designing a part for plastic injection molding, factors such as material selection, wall thickness, and draft angles must be considered to ensure the part can be successfully manufactured.

    Q: What is the role of the mold in plastic injection molding?

    A: The mold in plastic injection molding is a crucial component that determines the shape and features of the final product, including its size, complexity, and surface finish.

    Q: How can quality be ensured in plastic injection molding?

    A: Quality in plastic injection molding can be ensured through rigorous testing, inspection, and process control measures to maintain consistency and meet customer specifications.

    Q: What are common challenges in plastic injection molding?

    A: Common challenges in plastic injection molding include warping, sink marks, parting lines, and shrinkage, which can affect the quality and integrity of the final product.

    Q: How can a company benefit from using plastic injection molding services?

    A: Companies can benefit from using plastic injection molding services by gaining access to cost-effective production methods, shorter lead times, and customized solutions for their specific needs.

    Conclusion

    In conclusion, plastic injection molding is a versatile and efficient manufacturing process that is widely used in Arizona and beyond. By understanding the basics of plastic injection molding and considering the factors that influence its success, businesses can leverage this process to produce high-quality plastic components for a wide range of industries. The 10 pairs of questions and answers provided here serve as a starting point for those looking to learn more about plastic injection molding and its applications.

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