The variables that can impact lead times for CNC milling stainless steel parts are the part's complexity, the number of parts to be milled, the availability of materials, and the workload of the machine shop. In contrast, lead times for CNC milling stainless steel parts are usually longer than lead times for aluminum or polymer parts. This is because stainless steel is a more difficult material to machine and necessitates stricter quality control procedures.
Lead times for CNC milling stainless steel parts may also depend on the kind of stainless steel being used. While 316 stainless steel is more difficult to machine and typically requires a longer lead time, 304 stainless steel is a commonly used grade that is reasonably simple to machine.
Lead times for stainless steel parts that are CNC milled typically vary from two to twelve weeks. Certain machine shops may be able to offer shorter lead times for simpler, smaller parts. Here are some factors that can affect the lead time for CNC milling stainless steel parts:
- Complexity of the part: The more complex a part is, the more likely it is to take longer to complete. This is because it takes longer to design, program, and manufacture more complex parts.
- Quantity of parts to be milled: The more parts you need, the longer the lead time will likely be. This is because machine shops typically charge a setup fee for each job. As more parts are needed, the setup fee per part will go down.
- Availability of materials: The availability of stainless steel may also have an effect on lead time. In the event that stainless steel is in short supply, the lead time will most likely be extended.
- The workload of the machine shop: The lead time could also be impacted by the workload at the machine shop. If the machine shop is busy, the lead time will most likely be longer.
If you want the quickest lead time for CNC milling stainless steel parts, you should get quotes from multiple machine shops. Give them as much information as you can about the parts you need, including the complexity of the parts, how many of them you need, and the best lead time.