7 Common Plastic Injection Mold Tooling Development, Approval, & Maintenance Pitfalls
China Manufacturing Decoded - Podcast autorstwa Sofeast - Piątki
In This Episode... Andy Bartlett, an experienced British product designer who has 25 years of experience in product design, development, and working with manufacturers in China, returns to the podcast to join Sofeast's CEO Renaud for a lively discussion about the kinds of issues and common pitfalls that can come up when developing, approving, and maintaining tooling for your plastic injection molded products. You'll learn why supplier selection is key, how to protect your IP, tooling budgets, managing the process, and much more besides, as Renaud and Andy both have many years of experience in dealing with mold fabricators and the manufacture and design of plastic injection molded goods. Show Notes 00:00 - Introducing the episode & our guest, Andy - tooling with a focus on plastic injection molding. How to go into tooling once prototype plastic parts have been made and are ready to go into production? What kind of defects may we see? Covered from the angle of the 7 most common mistakes to avoid. 02:31 - Mistake 1. Going straight into the fabrication of the tooling from a 3D CAD drawing without doing DFM, DFQ, & DFC reviews - Andy suggests using the interference check with CAD software and looking for issues in the tooling design like knife edges and radius adding, understanding where the cooling channels are, etc. 07:32 - When is the real golden sample ready? - actually, it's after tooling has been fabricated and used, as this is when you see flow lines, gates, etc. 09:12 - Mistake 2. Not giving enough time to iterate tooling and verify tooling - the first parts that come off will probably prompt you to need to make changes to tooling, so factor that time and budget in. 13:08 - Mistake 3. Getting tooling made in China without making sure to use an enforceable contract - less experienced importers may feel that signing an NDA or an agreement from their own country is enough, but then find that they don't 'own' the tooling and can't be pulled out. 17:58 - Mistake 4. Purchasing tooling from a supplier on Alibaba, etc, without confirming who designs and produces the tooling - risks include your small project being outsourced to a tooling shop you have no knowledge of which means a lack of control over your project, your IP, etc. 21:41 - Horror stories where toys have been copied and sold on the market before your original product has even come out - if your tooling design and fabrication is outsourced, perhaps the outsourcer might also decide to produce your tooling again and sell it to someone else to produce your product themselves if they like it! 23:34- Assessing toolmaker quality - A tip is to look at the floor of the tool shop of your tooling fabricator. If it's clean and well-managed, you have a good chance that they're able to produce quality tooling. 25:13 - Mistake 5. Not maintaining the tooling carefully - if tooling needs to last for a number of years, it's important to store and maintain it carefully in order to avoid rust and damage. 25:52 - Mistake 6. Not getting a guarantee for tooling - Andy reminds us to make sure that tooling is provided with a manufacturer's guarantee that it will be usable for the right period of time appropriate to the quality of steel used in its construction and projected volumes. 28:27 - Why from a designer's perspective it's better to have a cohesive alignment between the manufacturer and toolmaker - this reduces overall risks of things going wrong and also the effort needed to solve problems. 30:16 - Mistake 7. Not keeping tabs on the health of your supplier's business - if their business fails your tooling could be in danger! 33:42 - Wrapping up Related content... Tooling Management for Plastic Injection Molds in China List of 12 Plastic injection mold fabrication companies in China Selecting a Plastic Injection Material for China Manufacturing Common Design For Manufacture Improvements On Plastic Injection Molded Parts How to move Plastic Injection Molds betwee