Medical Plastic Mold Custom

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// Yuyao City Yunpeng Plastic Mould Co., Ltd.

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YUYAO YUNPENG PLASTIC MOLD CO.,LTD.
A famous China Hot Runner Mould Manufacturers and medical plastic mould suppliers, with extensive experiences in the production of molds for power tool components and home appliances. We are conveniently located in Yuyao city of Zhejiang province, positioned 1 hour from Ningbo port, 1 hour from Hangzhou airport, and 2.5 hours from both Shanghai Hongqiao and Pudong airports. As a leading custom medical plastic mould factory, the foundation of our company is our experienced designers, engineers and technicians. We offer multiple options for all types of injection molds based on their expected production cycles and the warranties they carry. Vigorous quality standards, competitive prices, timely deliveries, and responsive post-sales services form the cornerstone of our business philosophy, which we follow closely in all our operations to ensure strong and confident relationships with our domestic and international clients.
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  • 10000

    Factory Area

  • 4000

    Daily Output

  • 600+

    Staff

  • 20+

    Creation Time

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  • How many cavities should I have in my injection mold tooling?

    How many cavities should I have in my injection mold tooling? Here are some considerations to help you determine the appropriate number of cavities for your injection mold tooling:   1. Production Volume: If you have a high production volume requirement, it may be more efficient to have multiple cavities in the mold.   2. Part Size and Complexity: Larger and more complex parts may require a single cavity or a lower number of cavities due to factors such as part cooling, ejection challenges, or intricacies in part geometry. Smaller and simpler parts can accommodate a higher number of cavities.   3. Equipment Capacity: Consider the capacity of your injection molding machine. The machine's clamping force and shot size should be compatible with the mold design.   4. Cost Considerations: Generally, molds with a higher number of cavities tend to be more expensive due to increased complexity and machining requirements.   5. Time and Efficiency: Having more cavities in the mold can increase production efficiency, as it allows for a higher number of parts to be produced in each molding cycle.   6. Flexibility and Redundancy: Having multiple cavities can provide the flexibility to produce different parts simultaneously or allow for continued production even if one cavity requires maintenance or repair.   It is recommended to consult with mold designers, tooling experts, or injection molding manufacturers who can consider factors such as part design, production goals, and cost considerations to help you make an informed decision. (Add whats app/wechat 008613586853457 if need mould Email: [email protected])

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  • What factors influence the design complexity of injection mold tooling?

    What factors influence the design complexity of injection mold tooling? 1. Part Geometry: The complexity of the part's geometry is a significant factor. Parts with intricate shapes, undercuts, thin walls, or complex features such as threads or inserts require more complex mold designs.   2. Parting Line: Parts with multiple parting lines or irregular parting line configurations may require more complex mold designs.   3. Number of Cavities: Molds with multiple cavities require more precise alignment and gating systems, which can increase the complexity of the mold tooling.   4. Side Actions and Slides: Parts that have undercuts or features that cannot be easily released from the mold adds complexity to the mold tooling design.   5. Cooling System: Complex part geometries or materials with high heat transfer requirements may necessitate intricate cooling channels, which can increase the design complexity.   6. Injection System: Different part geometries and materials may require specific gate designs, hot runners, or multi-tip systems.   7. Ejection Mechanism: Parts with complex undercuts or delicate features may require the use of complex ejection mechanisms, such as lifters or collapsible cores.   8. Tolerances and Surface Finish: Achieving precise part dimensions or surface finishes may require additional mold features or tooling considerations.   It's important to work closely with experienced mold designers or tooling to ensure an optimized mold tooling design that meets the desired specifications. (Add whats app/wechat 008613586853457 if need mould Email: [email protected])

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  • What materials are commonly used for injection mold tooling?

    What materials are commonly used for injection mold tooling? Here are some commonly used materials for injection mold tooling: (Add whats app/wechat 008613586853457 if need mould)   1. Tool Steel (e.g., P20, H13): P20 and H13 are popular choices for general-purpose molds and can withstand the demands of high-production runs.   2. Stainless Steel (e.g., 420, 440): They are often used in food packaging, medical devices, and other industries where cleanliness and durability are crucial.   3. Aluminum: They are commonly used for prototyping, low-volume production, or for parts that do not require high production volumes.   4. Beryllium Copper: They are suitable for applications where high thermal conductivity is required, such as in molding high-performance plastics.   5. Prehardened Steel (e.g., 4140): They are often used for lower-production runs or molds that require moderate hardness and wear resistance.   It's important to consult with mold manufacturers or tooling experts to determine the most appropriate material for your specific application.

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  • What is the typical lead time for manufacturing injection mold tooling?

    What is the typical lead time for manufacturing injection mold tooling? In general, the lead time for manufacturing injection mold tooling can range from a few weeks to several months. Smaller and less complex molds may have shorter lead times, typically in the range of 4 to 8 weeks. However, larger and more complex molds, especially those with multiple cavities or intricate designs, may require longer lead times, extending to 12 weeks or more.   It is advisable to consult with the mold manufacturer or tooling supplier early in the process to discuss your project requirements and obtain a more accurate lead time estimate based on their current workload and capabilities. (Add whats app/wechat 008613586853457 if need mould)  

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  • What is the typical lead time for manufacturing injection mold tooling?

    In general, the lead time for manufacturing injection mold tooling can range from a few weeks to several months. Smaller and less complex molds may have shorter lead times, typically in the range of 4 to 8 weeks. However, larger and more complex molds, especially those with multiple cavities or intricate designs, may require longer lead times, extending to 12 weeks or more.   It is advisable to consult with the mold manufacturer or tooling supplier early in the process to discuss your project requirements and obtain a more accurate lead time estimate based on their current workload and capabilities. (Add whats app/wechat 008613586853457 email:[email protected] if need mould)

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  • How much does injection mold tooling cost?

    The cost of injection mold tooling can vary significantly depending on several factors, including the complexity of the part, the number of cavities in the mold, the material selection, the required tolerances, the surface finish, and the overall size of the mold. Other factors that can impact the cost include the location of the mold manufacturer, the type of mold steel used, and any additional features or inserts required. Add whats app/wechat 008613586853457 if need mould   To provide you with a general range, the cost of injection mold tooling can typically range from a few thousand dollars to tens or even hundreds of thousands of dollars. Simple molds with a single cavity for small parts may start at a few thousand dollars, while large and complex molds with multiple cavities and intricate features can be considerably more expensive.   To obtain an accurate estimate for your specific project, it is recommended to reach out to reputable mold manufacturers or mold tooling suppliers.

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Industry Knowledge Extension

A hot runner mold is a type of injection molding system that is used to manufacture plastic parts. It is designed to keep the material in the runner system (the channels that deliver molten plastic to the mold cavities) at a controlled, elevated temperature, thus eliminating the need for a cold runner system where the material would solidify and be ejected as waste.
Here's how a hot runner mold works:
Injection: The molten plastic material is injected into the hot runner mold through the nozzle of an injection molding machine.
Runner System: Instead of a traditional cold runner system, the hot runner mold has a heated manifold and a network of heated channels, also known as runners. These runners distribute the molten plastic to multiple mold cavities.
Temperature Control: The hot runner system has heaters and temperature sensors to precisely control and maintain the temperature of the molten plastic in the runners. This ensures that the material remains in a molten state, ready to fill the mold cavities.
Mold Cavities: The hot runner mold contains multiple mold cavities, which are the voids where the plastic part is formed. These cavities are precisely designed to produce the desired shape and features of the final part.
Cooling: While the runner system is kept at an elevated temperature, the mold cavities are cooled to solidify the plastic and allow it to take the desired shape. Cooling channels or inserts help dissipate heat from the cavities, and coolant is circulated to maintain the desired temperature.
Part Ejection: Once the plastic in the mold cavities has solidified and cooled sufficiently, the mold opens, and the part is ejected using ejector pins or other mechanisms.
Repeat Cycle: The process is repeated for the next injection cycle, with the molten plastic flowing through the hot runner system, filling the mold cavities, cooling, and ejecting the parts.
Hot runner molds offer several advantages over cold runner molds, including reduced material waste, shorter cycle times, improved part quality, and increased design flexibility. However, they are typically more complex and expensive to implement and require specialized maintenance and troubleshooting procedures.

Using a hot runner mold provides several advantages over a cold runner mold in plastic injection molding. Here are some of the key benefits:
Reduced Material Waste: In a hot runner mold, the runner system is kept at an elevated temperature, preventing the plastic from solidifying. This eliminates the need for a cold runner, which would otherwise need to be removed and discarded as waste. As a result, hot runner molds significantly reduce material waste, leading to cost savings and more environmentally friendly production.
Shorter Cycle Times: Hot runner molds can achieve faster cycle times compared to cold runner molds. Since the plastic remains in a molten state within the heated runners, it can flow more easily and quickly into the mold cavities. This reduces the cooling time required for the part to solidify and allows for faster production cycles, increasing overall productivity.
Improved Part Quality: The controlled temperature in the hot runner system helps maintain consistent material flow and fill in the mold cavities. This results in improved part quality with fewer defects such as sink marks, warping, or short shots. Hot runner molds offer better control over gate placement and filling patterns, allowing for more precise and uniform part dimensions.
Increased Design Flexibility: Hot runner molds provide greater design flexibility compared to cold runner molds. With a hot runner system, it is possible to have multiple gates and fill points, enabling more complex part geometries and better distribution of material flow. This allows for the production of parts with intricate designs, thin walls, or multiple components without sacrificing quality or performance.
Cost Savings: Although the initial investment for a hot runner mold is higher than that of a cold runner mold, the long-term cost savings can be significant. Reduced material waste, shorter cycle times, and improved part quality lead to higher production efficiency, lower scrap rates, and decreased overall manufacturing costs. Additionally, the elimination of post-molding operations like runner trimming further contributes to cost savings.
It's important to note that the selection between hot runner and cold runner molds depends on various factors such as the specific project requirements, production volume, material characteristics, and cost considerations.

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