We use precision jigs and automation to ensure perfect alignment and repeatability.
Elite Mold Tech integrates metal and plastic with precision insert molding—perfect for electrical connectors, threaded inserts, and embedded structures.
Elite Mold Tech specializes in insert molding, a process that allows you to integrate metal, plastic, or other materials directly into your molded parts. This technique is perfect for applications where additional strength, electrical conductivity, or precise threading is required.
By embedding inserts such as metal fasteners, wires, or bushings into plastic parts during the molding process, we achieve stronger, more reliable components without the need for post-production assembly. This service is ideal for automotive, medical, and industrial applications, offering enhanced durability and performance.
Strengthen your design from the inside out. Upload your CAD file today to get an instant quote for your insert molding project.
Insert molding involves placing metal inserts into a mold before injecting plastic around them, creating strong, integrated parts. This process is ideal for producing components that require embedded elements such as threaded inserts or electrical contacts, commonly used in automotive, aerospace, and electronics.
With Elite Mold Tech, you can now access precision molding services for plastic and metal parts integration. Our Insert Molding service improves the strength, durability and functionality of components across many industries.
Description | General Tolerance or Standard |
---|---|
General Dimensional Tolerances | ±0.005” (±0.13 mm) for molded features; in line with ISO 20457 for plastic parts |
Insert Placement Tolerance | ±0.002”–0.005” (±0.05–0.13 mm) for manual or automated insert positioning |
Insert Fit Tolerance | Press-fit inserts: ±0.001”–0.003” (±0.025–0.076 mm) Looser fit may be used if thermal expansion/shrinkage is expected |
Hole Diameter (Post-Mold) | ±0.003”–0.005” (±0.076–0.13 mm), varies with core pin accuracy and plastic shrink rate |
Shrinkage Compensation | 0.4%–2% depending on plastic type (e.g., ABS, Nylon); insert molding accounts for differential shrinkage between metal and plastic |
Flash Tolerance | ≤ 0.004” (≤ 0.10 mm) at parting lines; critical sealing areas may require tighter control |
Surface Finish | Ra 1.6–3.2 μm (63–125 μin) typical; can be textured or polished depending on mold cavity finish |
Insert Material Compatibility | Brass, stainless steel, aluminum, and threaded components; must withstand mold temps (typically 250°C–350°C) |
Assembly Accuracy | ±0.005” (±0.13 mm) for final assembled insert-molded part, depending on number of inserts and complexity |
Offer the best solution for prototype manufacturing, considering a wide range of processes, materials, and surface treatments.
Confirm pricing, requirements, and delivery timelines.
Review product manufacturability and requirements promptly, providing engineering assistance as needed.
Initiate the production order, confirming the production and delivery plan.
Conduct quality inspections based on the BOM and original specifications, providing clear photos for shipment approval.
Ensure secure packaging and provide the tracking number after shipment.
Experience precision CNC machining with Elite Mold Tech. From intricate prototypes to large-scale production, we’re ready to bring your ideas to reality. Contact us today to discuss your project needs!
In today’s fast-paced product development cycles, efficiency isn’t just a bonus—it’s a requirement. Insert molding offers manufacturers a powerful way to integrate multiple materials into a single, unified component, saving time, reducing assembly, and increasing reliability. At Elite Mold Tech, we bring unmatched precision and engineering know-how to every insert molding project we handle.
Whether you need to embed metal threads in plastic housings or bond electronic components into structural parts, we deliver durable results that meet tight specifications.
Insert molding is a specialized injection molding process where a pre-formed component—often metal or ceramic—is placed into a mold and encapsulated with plastic. The plastic forms around the insert during the molding process, creating a single integrated part with improved functionality and mechanical strength.
Common inserts include brass, stainless steel, wire, filters, magnets, and electronic contacts.
Unlike overmolding, where plastic is molded over another plastic, insert molding typically involves bonding plastic with non-plastic components.
Insert molding isn’t just about convenience—it offers real performance advantages:
By reducing part counts and potential failure points, insert molding enables a cleaner, more efficient design.
At Elite Mold Tech, we specialize in tight-tolerance insert molding using advanced automation and tooling strategies to ensure insert accuracy, orientation, and bonding strength.
Our capabilities include:
We work with materials like ABS, nylon, PEEK, PC, and TPU, and can mold around inserts made of brass, steel, copper, aluminum, and more.
Insert molding is used across industries where metal-plastic integration is essential. Some typical use cases:
Wherever you need to combine the electrical or mechanical properties of metal with the flexibility and form of plastic, insert molding provides the solution.
Insert molding demands precision at every step—from insert placement to plastic flow to mold design. That’s where Elite Mold Tech shines. Our process is designed to prevent insert shift, ensure repeatability, and eliminate costly rework.
We offer:
Whether you’re producing 100 or 100,000 parts, you get the same level of attention to detail and manufacturing consistency.
We combine deep expertise in moldmaking and part design with scalable production capabilities. Our insert molding services reduce costs, improve part performance, and accelerate time-to-market.
Choose us for:
From simple threaded inserts to complex electronics integration, we help your product perform better—right from the mold.
We use precision jigs and automation to ensure perfect alignment and repeatability.
Yes, especially for medium to high volumes where secondary assembly would be more expensive.
Yes, especially for medium to high volumes where secondary assembly would be more expensive.
We use ABS, nylon, polycarbonate, PEEK, TPU, and other engineering plastics.
Yes, we offer both manual and robotic insert loading based on production volume.
We work with metal inserts, threaded studs, sensors, wires, magnets, and more.