Injection Mold Tooling

Expert injection mold tooling solutions for precise, high-quality custom injection molds. From prototype tooling to production molds, TOUWEI delivers outstanding mold craftsmanship to produce superior plastic parts.

Tooling Solutions for Injection Molding

TUOWEI Precision creates injection molded parts with unmatched accuracy and innovation. Our custom tooling solutions are designed to meet the exact needs of your project, ensuring reliable performance and long-term success. We collaborate closely with you to understand every detail of your requirements, then engineer precise mold designs that bring your concepts to life.

Our skilled technicians manage all aspects of mold fabrication, from simple prototypes to complex production tools. With cost-effective solutions, rapid lead times, and ISO-certified quality standards, we help you accelerate product development and achieve market readiness faster. Whether you need prototype tooling or high-volume production molds, TUOWEI Precision is your trusted partner for advancing plastic part manufacturing.

Types of Injection Molds

TUOWEI Precision provides diverse mold tooling options, tailored for your unique applications and production requirements.

Single Cavity Mold

Produce low-volume plastic parts cost-effectively with single cavity molds, ensuring precision and better process control.

Multi Cavity Mold

Achieve high-volume production efficiently with multi-cavity molds, reducing unit costs and optimizing cycle times significantly.

Stack Mold

Boost molding productivity with stack molds, enabling multi-component assemblies while reducing part cost effectively.

2K Injection Mold

Combine two plastics seamlessly using 2K molds, creating durable, cost-efficient products in a single process.

TUOWEI Precision Mold Tooling Services

Prototyping

Rapid Prototyping

Obtain quick design validation and functional testing with our advanced prototype tooling solutions. We deliver small batches of molded parts within days, helping you assess performance and market potential. Using cost-effective aluminum tooling, we minimize risks while providing reliable prototypes before scaling to full production.

Production

Production Tooling

Our production tooling is built for long-lasting performance and high-volume manufacturing. Crafted from premium tool steel, these molds support the production of hundreds of thousands of parts with precision. We adapt tooling materials and construction methods to fit your project’s unique specifications.

Injection Molding Capabilities

We manufacture accurate custom injection molds using premium materials and advanced processes. Our expertise guarantees consistent results, quick lead times, and cost-effective solutions for diverse applications. Each mold complies with international standards, ensuring reliability. From prototypes to production tooling, we deliver durable and precise mold tools.

Injection Molding Service	Tolerance
Standard Injection Molding	±0.005" (±0.127 mm)
Precision Molding	±0.003" (±0.076 mm)
Rapid Prototyping Molding	±0.005" (±0.127 mm)

Quick Turn Injection Molding Surface Finishes

These are the surface finishing techniques for Quick Turn Injection Molding to accelerate production while maintaining quality:

Polishing

Polishing removes imperfections and burrs from the surface, providing a smooth, glossy finish on the molded parts.

Bead Blasting

Bead blasting creates a consistent matte surface finish that helps mask any mold lines or imperfections on quick-turn parts.

Texturing

Texturing adds visual appeal and grip to the surface of the part, commonly used for quick-turn consumer goods with tactile requirements.

Laser Engraving

Laser engraving is used for precise marking or part identification, allowing for high-speed production without compromising quality.

Vibratory Finishing

Vibratory finishing is used to smooth rough edges and surfaces, ensuring quick-turn molded parts meet both aesthetic and functional standards.

Plasma Treatment

Plasma treatment ensures the part’s surface is free of contaminants and enhances adhesion properties, ideal for quick-turn molded parts.

Materials for Metal Injection Molding

Engineers and leading manufacturers trust TUOWEI for fast iterations and durable, high-performance parts. Whether for prototyping or full-scale production, our extensive material selection ensures precision, strength, and reliability for any CNC machining project.

Stainless Steel

17-4 PH

316L

304L

420

430

Tool Steel

H13

Titanium

Ti-6Al-4V

Ti-64

Ti-15V-3Cr-3Sn

Copper Alloys

Bronze (CuSn)

Brass (CuZn)

CuNi

Nickel Alloys

Inconel (625, 718)

Monel

Hastelloy C22

Cobalt Alloys

CoCr

CoNiCr

Magnetic Alloys

Soft Magnetic Alloys (Fe-Si, Fe-Ni)

Aluminum

2011

2024

6061

7075

With Tuowei Precision’s CNC milling service, you’re not just investing in advanced machinery. You’re gaining the assurance of flawless precision, commitment to strict timelines, and the expertise of skilled professionals dedicated to meeting your needs.

Choose Us

/01

High Quality Parts

Tuowei Precision’s ISO-certified CNC machining guarantees exceptional accuracy and quality. Every part is crafted for perfect fit and flawless performance, with rigorous quality control at each stage.

/02

Fast Turnaround

Stay on schedule with Tuowei Precision. Our state-of-the-art equipment and local workshops deliver rapid production to meet your tight deadlines.

/03

Expert Engineering Support

Rely on our team for comprehensive CNC machining support. Our experts are available to optimize design efficiency and ensure top-quality results at every step.

Plastic Injection Molding Process

Plastic injection molding is an efficient and flexible method for producing precise and detailed plastic parts.

Mold Design & Material: Engineers create precision molds with CAD software, using steel for durability or aluminum for rapid cooling.
Plastic Preparation: Plastic granules are selected for required properties, carefully dried, and loaded into the injection machine hopper.
Melting & Injection: Granules are melted and injected into the mold at high pressure, ensuring complete filling and detail accuracy.
Cooling & Solidification: Controlled cooling channels regulate solidification, ensuring the molded part achieves strength, accuracy, and minimal defects.
Ejection & Finishing: Once cooled, parts are ejected from the mold, then trimmed, polished, or coated for the desired finish.
Quality Inspection: Each molded product undergoes strict inspection to verify dimensional accuracy, surface appearance, and reliable performance.

Benefits of Using Prototype Tooling

Prototype tooling plays a crucial role in streamlining product development, providing a fast and cost-effective bridge from concept to functional prototype. Its main benefits include:

Faster Time-to-Market: Speeds up development and design iterations, enabling quicker product launches.
Cost Savings: More economical than full-scale production molds, reducing upfront investment.
Enhanced Design Flexibility: Supports easy adjustments based on testing results and feedback.
Reduced Risk: Detects potential production issues early, preventing expensive fixes later.
Comprehensive Functional Testing: Allows thorough evaluation to ensure the product meets all performance and quality standards.

Let’s Build What’s Next Together

Partner with TUOWEI to Shape Your Vision

From detailed prototypes to high-volume production runs, TUOWEI is your trusted partner for precision CNC machining. Reach out today and take the first step toward streamlined, high-quality manufacturing solutions.

Get In Touch With Us!

Prompt response guaranteed within 12 hours

What is the Process of Manufacturing an Injection Mold Tool?

The production of an injection mold tool involves several precisely executed stages that transform a digital design into a high-performance mold. Each phase plays a crucial role in achieving durability, accuracy, and efficiency.

Design and Engineering (CAD Phase)

Engineers create a 3D CAD model and conduct mold flow analysis to prevent defects before production begins. This stage defines part geometry, cooling systems, and overall mold performance.

Key Features:

Mold flow simulation for shrinkage, warpage, and fill time.
Determining draft angles, wall thickness, and parting lines.
Design approval before machining begins.

Material Selection

Choosing the right material impacts mold cost, lifespan, and cycle count. High-volume production requires hardened steel, while prototypes may use aluminum.

Key Features:

P20 steel: Good balance of cost and durability.
H13 steel: High hardness for 1M+ cycles.
Aluminum: Lightweight, good for low-volume runs.

CNC Machining & EDM

CNC milling shapes the core and cavity with high precision, while EDM creates intricate details. This stage achieves tolerances as fine as ±0.005 mm.

Key Features:

Multi-axis CNC milling for complex designs.
EDM for sharp corners and deep cavities.
Multiple setups for complete geometry.

Heat Treatment

Heat treatment hardens the mold to improve wear resistance. It ensures the mold withstands high pressures over long production runs.

Key Features:

Hardness range: 48–52 HRC for steel molds.
Stress relief to prevent warping.
Increases mold life by several hundred thousand cycles.

Polishing & Surface Finishing

The mold surface is polished or textured based on the product’s needs. It affects part appearance, ejection, and defect prevention.

Key Features:

High-gloss polish for optical clarity.
Texturing for grip and aesthetics.
Reduces flow marks and scratches.

Assembly

All mold components are fitted together with micron-level alignment. Proper assembly ensures smooth operation and defect-free parts.

Key Features:

Installing core, cavity, ejector pins, and guide rails.
Aligning halves for precision mating.
Integrating cooling and venting systems.

Trial Runs (T0, T1, T2)

Initial trials detect and correct molding issues before full production. Adjustments are made until final part accuracy is achieved.

Key Features:

T0: First sample run for defect inspection.
CMM measurements for dimensional checks.
Adjusting cooling, pressure, or cavity dimensions.

Quality Assurance & Delivery

The finished mold undergoes thorough inspection and documentation. It’s then shipped with maintenance guidelines to extend its lifespan.

Key Features:

Functional testing of cooling and ejection.
Final dimensional inspection reports.
Maintenance schedule for long-term performance.

How Many Types of Injection Mold Tools Are There?

Injection mold tools come in several designs, each tailored to different production volumes, part complexities, and cost considerations.

Here’re the five main types of mold tools used in modern manufacturing.

Single Cavity Molds

A single cavity mold produces one part per molding cycle, making it ideal for low-volume production or specialized parts. This design offers lower tooling costs, easier maintenance, and faster design-to-production timelines, but it’s less efficient for large-scale manufacturing.

Multi-Cavity Molds

Multi-cavity molds contain two or more cavities, producing multiple identical parts in one cycle. They are perfect for high-volume production, as they significantly reduce cycle times and per-unit costs, though they require higher initial investment and more complex mold design.

Family Molds

Family molds have different cavities within the same mold, allowing the production of multiple part shapes or sizes simultaneously. They are cost-effective for assemblies with multiple components, but require careful balance in cooling and material flow to ensure consistent part quality.

Hot Runner vs. Cold Runner Molds

Hot runner molds use heated channels to deliver molten material directly into the cavities, reducing waste and cycle time. Cold runner molds, on the other hand, use unheated channels, which are simpler and less expensive but produce more material waste and require additional trimming.

Overmold and Insert Molds

Overmold molds allow one material to be molded over another, enabling soft-touch grips or multi-material designs. Insert molds involve placing a pre-formed part (such as a metal insert) into the mold before injection, ideal for producing components with integrated hardware.

Tuowei Proto's Solutions

Whether you’re creating a small batch of custom parts or scaling up for high-volume production, Tuowei Proto services offer the flexibility you need.

Rapid Prototyping

CNC rapid prototype machining is perfect for creating engineering or production prototypes that closely resemble the final product in both appearance and functionality. At Tuowei, we offer instant quotes and fast delivery, providing you with precise, high-quality CNC machined prototypes for your needs.

Low Volume Manufacturing

Low volume CNC machining often acts as a bridge between prototyping and mass production for new and emerging production. With Tuowei, this process becomes easier, more efficient, and cost-effective, allowing you to scale production quickly while maintaining high-quality standards.

End-use Production

CNC production machining is the best solution for producing a thousand parts or more efficiently. Leveraging a diverse selection of materials and automation and multi-axis capabilities, Tuowei delivers high-volume production with tight tolerances, superior dimensional accuracy, high reliability and fast turnaround times.

Explore Insights & Innovation

Stay ahead with expert tips, industry trends, and precision manufacturing insights from the team at Tuowei. Read our latest blogs to gain valuable knowledge and discover how we’re shaping the future of CNC production.

What’s the Difference between Overmolding and Insert Molding?

octobre 8, 2025

Plastic Injection Molding Machines: Types, Parts, and Uses

octobre 7, 2025

Everything You Need to Know About Polycarbonate Injection Molding

octobre 6, 2025

What Are the Main Components of an Injection Molding Machine?

octobre 3, 2025

3D Bioprinting Revolutionary Guide to Creating Living Tissue and Blood Vessels

octobre 2, 2025

How to Create 3D-Printed Molds for Casting: Mold Making and 3D Print Tips

septembre 30, 2025

Frequently Asked Questions

Injection Mold Tool

What Factors Influence Injection Mold Tooling Design?

Several factors determine how an injection mold is designed. The part’s geometry, size, and complexity directly affect mold features, including cooling channels and gating systems. The type of plastic material impacts shrinkage, flow, and wear on the mold, influencing material choice and design details. High-precision parts demand tighter tolerances, while the ejection system must safely release parts without causing damage. Gate placement and type affect flow, surface finish, and cycle time. Finally, parts with undercuts or complex shapes may require side actions or lifters, increasing the mold’s complexity and overall cost.
Why is Injection Molding Tooling So Expensive?

Injection molding tooling is costly due to a combination of materials, precision, and labor. Molds are usually made from high-quality steel or aluminum, with steel preferred for long production runs because of its durability. The manufacturing process itself is complex, involving CNC machining, Electrical Discharge Machining (EDM), and sometimes hand polishing. Achieving the tight tolerances required for industries like automotive, aerospace, and medical adds to the cost, as does the need for skilled technicians and advanced equipment. Additionally, every mold is custom-designed for a specific product, requiring detailed engineering to handle part geometry, cooling, and ejection systems. These factors together make injection molding tooling a significant investment.