![]() ![]() Once the tool is complete, it will be mounted in a moulding machine and run for the first time. ![]() This can involve machining techniques such as w ire cutting, CNC m achining, e lectrical discharge machining and many more. The tooling production is when the tool is constructed. This CAD model of the tool is crucial for the toolmaker as it is his roadmap to the construction of the mould – just like how a builder has plans when building a house. All these systems are represented in a 3D model that will be generated. The tool design must incorporate systems of cooling, injection, ejection, and slides (if required). This is also a good time to bring up any design changes that may benefit the production of the part. Some features to consider is the p lastic material, if tooling slides are required, e jector l ocation, g ating of the part s, d raft on parts, and how the part s s hut of f. The t ool making process is norma l l y broken down into 4 steps: Stage 1: Tool Analysisĭuring this stage, the toolmaker is reviewing the parts to see how best to approach the tooling design stage. Step 1 of Product Manufacture: Tool Making The first step in this process is tool making. Normally the design has been proven and tested via prototyping. The p roduct manufactur ing stage comes after the product design process is complete. In this article, we will take a look at the 4 main steps you need to take to manufacture products – keep an eye on our blog in the coming weeks as we break down each of these steps individually. Product manufacturing can sometimes seem like a mysterious process that requires firsthand experience to understand. ![]()
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