Injection pallet moulds can be made from a variety of materials, depending on the specific requirements of the application
The most commonly used materials for tools include:
Tool steel: High strength and wear resistance, ideal for producing pallets capable of carrying heavy loads.
Stainless steel: High temperature resistance, excellent corrosion and wear resistance, ideal for use in harsh environments or applications requiring frequent cleaning
Aluminum: Aluminum is a lightweight material with excellent thermal conductivity and is often used in moulds for making high-precision, small-size parts.
Copper alloy: Copper alloy with excellent thermal conductivity, hardness, and resistance to wear and corrosion
Composite materials: Composite materials such as carbon fiber reinforced polymers are increasingly used to make pallet moulds. These materials are lightweight, strong, and have good abrasion and tear resistance.
The choice of material for manufacturing an injection pallet mould depends on factors such as the size and complexity of the pallet design, the required throughput, and the expected life of the mould. It is important to choose high-quality materials that can withstand the stresses and strains of the production process and provide a long and reliable service life.
Designing an Injection pallet mould requires careful consideration of various factors to ensure that the final mould can produce high-quality, consistent pallets. Usually, some key factors need to be considered including: Material selection, injection moulding process, cooling system, parting line, ejection system design , mould maintenance, mould flow analysis, production volume, cost, exhaust system, etc., by considering these factors, an
injection pallet mould that meets the specific requirements of the production process and produces high-quality, consistent pallets can be designed
A simple injection pallet mould with a simple design can take around 4-8 weeks to manufacture, while a more complex mould with intricate details and larger dimensions can take 12-16 weeks or more to complete.
Generally speaking, a well-maintained pallet mould of a high-quality material, such as hardened steel or aluminum, can last for many years, producing tens or even hundreds of thousands of pallets before needing to be replaced. Some manufacturers report using a single die for more than ten years, and if it is used frequently or wears out, the die may need to be replaced more frequently.
Regular maintenance can extend its life and reduce the need for premature replacement by addressing these common problems with injection pallet moulds:
Warpage and sink marks: Warpage and sink marks are caused by uneven cooling or improper demoulding. To address warpage, manufacturers can optimize the cooling system to ensure even cooling of the tray.
Cracking: 1. When the pallet is subjected to high stress or impact, cracking may occur. To address cracking issues, manufacturers can use high-quality plastic materials that are resistant to pressure and impact
Mould corrosion: Mould corrosion occurs when the mould is not maintained properly or when the plastic material contains corrosive additives. To address mould corrosion, manufacturers can: Regular maintenance schedules to clean and inspect moulds, use plastic materials without corrosive additives, use mould release agents to protect moulds from corrosive plastic materials.
Flash: Excess plastic material protruding from a moulded part. This happens when the mould is not aligned properly or the injection pressure is too high. To solve the problem, manufacturers can optimize the injection moulding process to ensure that the pressure is properly regulated and the plastic material is not overfilled.
Sinking: The defect that one part of the pallet is thinner than the rest of the pallet. Caused by incorrect mould design or material cooling too fast. To solve this problem, ensure that the mould is properly designed and the cooling system is adequate. Consider using a higher viscosity material or increasing the packing pressure.
Mould sticking: Mould sticking occurs when the tray sticks to the mould and is difficult to remove. To solve this problem, you can use a release agent, adjust the mould temperature, and reduce the injection pressure. You can also optimize the ejection system to ensure smooth and consistent tray ejection.
By addressing these common issues, properly maintaining, testing, and repairing them, preventing failures, and promptly addressing any issues that arise, manufacturers can produce injection moulded pallets that are high quality and meet the required specifications for strength, durability, and other performance characteristics.