For the machining industry, a work order is usually for the production of a single component, so it needs to list each step in the production process in detail, including the raw materials, machinery, equipment, tools, and human resources required. As a result, this type of work order usually requires very detailed production planning and resource allocation to ensure production efficiency and product quality.
The electronics manufacturing industry, on the other hand, often produces multiple components and products simultaneously. As a result, the work order model requires comprehensive planning and resource allocation across the entire production process to ensure that products are delivered on time. In this case, the work order needs to detail the production requirements for each component and product, including the electronic components, machinery, equipment, tooling, and human resources needed.
Work order models for different manufacturing industries should be optimized accordingly to their production processes and resource requirements. For example, the machining industry can improve productivity and product quality by adopting intelligent robots or automated production lines, while the electronics manufacturing industry can adopt IoT technology for more efficient production and logistics management.
In short, work order models for different manufacturing industries differ in terms of production processes and resource requirements. In order to optimize production efficiency and product quality, they should be optimized and adjusted accordingly.