Custom insert molding services for high-quality prototypes and on-demand parts. Get online quotes at a competitive price and short lead time. Rapid Tooling Production as fast as 2 weeks.
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Owing certified factories, conducting in-process inspections and dimensional verification after production, guarantee the custom molded parts are consistent in quality regardless of the complex shape with high precision.
With certified domestic factories and a strong supply chain system, we accelerate the product development cycle and bridge the production of your overmolded parts as fast as possible.
Working with our experts having 10+ years of experience in the injection molding industry, efficiently complete a turnaround from prototyping to production.
Insert molding is an injection molding technique that involves injecting a plastic material around a plastic or metal insert (but can also include ceramic or other materials) placed in a mold cavity. The insert is pre-placed in the mold cavity, after which the plastic is injected. These inserts, including threaded metal inserts for enhanced durability, provide specific mechanical or electrical properties to the final product. For example, metal inserts such as aluminum or stainless steel add tensile strength and conductivity, making insert injection molding ideal for highly durable and functional parts. On cooling, this forms a solid part that is strong and durable. XCD plastic insert molding services allow you to make a strong and permanent bond between the insert and molded plastic.
Get QuoteXCD also offers customized insert molding services, assisting with design optimization, material selection, and tooling for complex geometries to meet your unique project needs from concept to production.
Get easy design feedback and validation through superior quality prototype tooling. Create small batches of plastic molded parts with excellent injection molding prototypes. We excel at manufacturing prototype molds within days to ensure you perform functional tests and validate market interest. We implement affordable aluminum tooling to help you reduce financial risks before full-scale production.
We create high-quality production molds for high-volume plastic parts production. With high-strength, durable tool steel material, our production tooling is suitable for producing hundreds of thousands of parts. We can vary materials and construction methods according to your unique requirements.
We offer a broad range of thermoplastic and thermoset materials, each selected for its performance characteristics and suitability for different applications.
Popular for its good mechanical properties, ABS combines rigidity, strength, and toughness, making it ideal for automotive, consumer goods, and electronics.
Known for its exceptional impact resistance and clarity, PC is widely used in applications requiring transparency and durability, such as protective gear and automotive components.
This material stands out for its excellent clarity and optical properties, making it an excellent choice for applications like lenses, displays, and light fixtures.
POM is prized for its high precision, low friction, and excellent wear resistance, suitable for mechanical parts like gears and fasteners.
Distinguished by its excellent strength and abrasion resistance, Nylon is perfect for high-load bearings and gears due to its durability and flexibility.
Known for its high impact strength and flexibility, PE is commonly used in packaging, containers, and piping applications.
Offering outstanding thermal stability and chemical resistance, PEEK is used in aerospace, automotive, and medical implant applications.
Features excellent chemical resistance and fatigue properties, making it suitable for automotive parts, consumer goods, and textiles.
XCD insert molding solutions manufacture parts with different functional and aesthetical needs. These guidelines will help improve part manufacturability, reduce lead time, and improve the part aesthetics. You can check the following standard design considerations:
| Standards | Description |
|---|---|
| Maximum Part Size | 800×1000×400mm (31.50×39.37×15.75 in.) |
| Manimum Part Size | 2×2×2mm (0.08×0.08×0.08in) |
| Substrate Wall Thickness | From 0.5 to 3mm (From 0.20 to 0.12 in.) |
| Tolerance | +/- 0.025 mm (+/- 0.00098 in.) |
| Inserts | Inserts can be female and male. They both can improve a product's appearance and utility. |
| Mold Validation | Provide T0, T1, T2 samples before mass production |
| Inspection and Certification Options | First Article Inspection, ISO 9001, ISO 13485 |
| Lead Time | From mold making to sample delivery: 15-45 business days |
Insert molding reduces assembly and labor costs, enhances part strength and reliability, and allows for multi-material and complex component integration.
Insert molded parts do not require assembly because there is only one manufacturing process.
The removal of the assembly process reduces the cost of the insert molding process compared to the standard injection molding.
Insert molded parts that weigh less than all-metal parts.
Insert plastic molding securely integrates metal inserts, enhancing wear resistance and structural integrity compared to traditional assembly methods.
Plastic insert molding is applicable in making prototypes and full products in several industries. Key industrial applications of insert molding include:
The custom plastic insert molding is suitable for making consumer goods due to its functional and aesthetic benefits.
Ensure the plastic is biocompatible before you choose insert molding to make devices and products such as medical implants.
Applicable in making handheld devices such as screwdrivers, scissors, dials, and knobs.
Applicable in the aerospace and automotive industry due to the strength and durability of molded parts.
Insert molding integrates pre-formed inserts, often metal, into a single molding process, creating a unified part. Overmolding, a multi-step process, molds one material, typically a TPE, over a rigid substrate. Insert molding offers single-shot efficiency for enhanced strength and reduced assembly. Overmolding excels in creating parts with varied textures and functionalities, like a toothbrush with a rigid core and soft grip. Here's a video to explain the vital differences between these valuable processes.
View the VideoInjection molding is a manufacturing process used to produce parts by injecting molten material into a mold. It is commonly used with plastics but can also accommodate metals, glasses, and elastomers. The process begins with melting the material, which is then injected under pressure into a mold cavity. Once the material cools and solidifies, the mold is opened to eject the finished part. This technique is favored for its ability to produce large volumes of identical parts with high precision, complex shapes, and excellent surface finish. Injection molding is efficient and cost-effective, particularly suitable for mass production.
Injection molding is a complex process that involves four key stages to create high-quality plastic parts:
Our injection mold-making process includes six essential steps:
In injection molding, maintaining precise tolerances is essential to ensure that parts fit correctly and function as intended, avoiding potential assembly issues. At XCD, we strictly adhere to the ISO 2768-c standard for general tolerances, which is commonly used across the industry for molded parts. This standard provides a range of tolerances for different features and dimensions, ensuring consistency and reliability in production. For projects requiring even stricter tolerances, we have the capability to accommodate tighter specifications, based on the unique requirements of each client's application. This flexibility allows us to deliver precisely engineered parts that meet or exceed all expectations.
At XCD, we understand the diverse needs of our clients, which is why we have no minimum order requirement for our injection molding services. This flexibility allows businesses of all sizes to access high-quality molded parts, regardless of the size of their project. While we are equipped to handle orders from a single prototype to thousands of units, it's worth noting that larger order quantities typically result in more competitive pricing. This volume discount is due to the economies of scale in production, making larger orders more cost-effective per unit. Whether your project is large or small, we are here to provide the best value and service.
The cost of our injection molding services varies depending on multiple factors, including the size of the component, mold complexity, number of cavities, material type, and any specific post-processing requirements. Each project is unique, and we provide personalized quotes to ensure that you receive a detailed cost assessment tailored to your specific needs. This transparent pricing approach allows you to understand the financial implications before committing to the process. To get an accurate estimate, simply upload your project details on our platform, and we will analyze these factors to provide you with a comprehensive quote.
Absolutely! XCD understands the importance of validation and testing before committing to full-scale production. We offer prototype injection molding services that allow you to receive sample parts quickly. This enables you to test fit, function, and aesthetics before investing in production tooling. Our rapid prototyping capabilities ensure you can iterate on your design and make necessary adjustments early in the development process, ultimately saving time and reducing risk in your project.