The Complete Guide to Low Pressure Overmolding

Low pressure overmolding is a manufacturing technique used to mold multiple materials into a single component through a process that involves lower pressures compared to traditional molding methods. This technique is primarily employed when there is a need for combining a soft material, like elastomers or plastics, with a more rigid substrate, ensuring strong bonding while maintaining the delicate features of the underlying component. By applying low injection pressure, the risks of distortion or damage to sensitive substrates—such as electronics—are minimized, making this process ideal for industries where precision and material integrity are paramount.

Low Pressure Overmolding Process

The process of low pressure overmolding is a combination of two distinct processes: inserting a component into a mold and then applying a second material, which is injected under low pressure to form a cohesive part. This method enables the creation of intricate geometries, allowing the soft material to bond perfectly with the substrate while preserving the shape and functionality of both materials. In essence, the low pressure injection molding materials are heated and injected into the cavity of a mold, where the previously inserted substrate is encased. The lower pressures used during this injection stage prevent the substrate from deforming, ensuring both the strength and aesthetics of the final product.

The Process Steps:

1. Preparation of Substrate: The substrate material, which can be anything from metal to plastic or even electronic components, is first placed into the mold cavity.
2. Injection of Low Pressure Material: The second material, such as thermoplastics, elastomers, or silicones, is injected into the mold under low pressure.
3. Cooling and Solidification: After injection, the newly formed part is allowed to cool and solidify, creating a durable bond between the two materials.
4. Ejection: Finally, the completed overmolded part is ejected from the mold cavity.

Expanded reading: A Step-by-Step to Injection Molding Process

Equipment and Tools Used in Low Pressure Molding

Low pressure overmolding requires specialized equipment designed to handle the delicate nature of the process. Key tools include precision injection molding machines, custom molds, and temperature control systems.

Injection Molding Machine

Unlike standard injection molding systems, these machines operate at lower pressures to ensure the substrate material is not compromised. These systems are typically equipped with precise controls for temperature, speed, and pressure.

Mold Design and Tooling

The molds themselves must be designed to accommodate the precise placement of the insert, which is crucial for ensuring that the overmolded component is both functional and high-quality.

Temperature Control Units

Effective cooling systems are essential to ensure the mold material cools at an optimal rate, preserving the integrity of the substrate and avoiding any potential defects in the final product.

Advantages of Low Pressure Overmolding

Low pressure overmolding presents several benefits over traditional molding methods, making it an appealing choice for specific applications.

• Reduced Material Waste and Energy Consumption
• Cost-Effective for Complex Geometries and Delicate Components
• Enhanced Product Durability and Performance
• Increased Precision in Insert Placement

Challenges in Low Pressure Overmolding

While the low pressure overmolding process offers numerous advantages, it also comes with certain challenges that must be addressed to ensure success.

• Insert Positioning and Alignment Challenges
• Managing Bonding Issues Between Materials
• Cycle Time and Production Efficiency Concerns
• High tooling setup cost than traditional molding

Materials Used in Low Pressure Overmolding

The materials used in low pressure overmolding play a significant role in the overall performance of the molded part. The combination of substrates and overmolding materials must be carefully selected to ensure strong bonding and optimal performance.

Low Pressure Molding Materials

Common materials used in low pressure overmolding include thermoplastics, silicones, and elastomers. These materials are selected based on their ability to adhere to substrates and withstand the required operational conditions.

Elastomers and Soft Plastics

Materials like TPE (Thermoplastic Elastomers) and TPU (Thermoplastic Polyurethane) are commonly used for the overmolding process because they provide flexibility, durability, and resistance to environmental factors.

High-Performance Materials for Electronics

In low pressure overmolding electronics, materials with high insulating properties and resistance to temperature fluctuations, such as silicone or thermoset elastomers, are often preferred.

Applications of Low Pressure Overmolding

Low pressure overmolding is highly versatile and can be applied across various industries, enhancing the performance, safety, and aesthetics of products.

• Low Pressure Overmolding Electronics: Electronics require precise molding to ensure that components are protected from physical damage and environmental factors. Low pressure overmolding offers an excellent solution for encasing sensitive electronic parts with flexible materials that provide both insulation and durability.
• Medical Devices: For medical devices, low pressure overmolding ensures that parts remain sterile, durable, and easy to handle. The flexibility of overmolded materials also improves the comfort and usability of these devices.
• Automotive Industry: Low pressure overmolding is used to improve the functionality of automotive components, such as electrical connectors and sensors, by providing both physical protection and electrical insulation.
• Consumer Goods: In consumer products, overmolding enhances the design by offering a soft-touch exterior or shock-absorbent properties, ideal for applications like tool grips, mobile phone cases, and more.

Low Pressure vs. High Pressure Overmolding

While both low and high pressure overmolding share the same goal, bonding two different materials into a single component, their approaches differ.

• Key Differences in Process: High pressure overmolding uses significantly more force to inject the overmolding material, which can lead to more rapid cycle times but also higher risks of distorting delicate substrates. Low pressure overmolding, on the other hand, ensures gentler molding, ideal for sensitive components.
• Cost and Efficiency: High pressure molding can be more expensive due to the equipment and faster cycle times, whereas low pressure molding provides cost-effective solutions for low-volume, complex designs that require more care and precision.
• Material Compatibility: Low pressure molding is particularly useful when the bonding material is difficult to adhere to, or when the parts are prone to damage under high pressure.

What We Offer

Starting an overmolding project can be a highly complex undertaking. It’s essential to partner with trusted experts. Our team, with decades of experience in the molding industry, offers unmatched knowledge and expertise, ensuring you receive the highest level of support and guidance throughout the process. Our experts are able to assist you with:

• Material recommendation and sourcing
• Desing for manufacturability (DFM) report
• Mold tooling production
• On-demand production
• Finished products assembly

This is just a brief overview of our capabilities. You can count on our experts to deliver solutions for all your needs. If you’re ready to begin your overmolding project, reach out to our team today.