Every machinist should know how to work with various materials, but there’s always room for improvement. Here are some tips and guidance for drilling one of the more challenging metal groups, stainless steel, used widely in medical, aerospace and general engineering applications.
Due to machinability variations from one alloy to the next, it can be challenging to determine the optimal feeds and speeds during holemaking operations. This is true for any material group, but even more so for stainless steels. That’s because there’s a world of difference between drilling holes in 303 and 304 stainless, especially when additives such as selenium (303SE) or copper (304Cu) enter the equation, making both of these stainless steel alloys much easier to cut.
Similar examples exist elsewhere within the stainless steel family. For instance, 416 stainless is far more machinable than 440C, particularly when the latter is in the hardened state (such as drilling holes in rocks). And even though the precipitation hardening (PH) alloys such as 13-8 PH and 15-5 PH fall under the same umbrella as other stainless steels, they boast machinability ratings comparable to some superalloys.
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I have only worked with softer materials, such as aluminum and mild steel. We do mostly keyways and general machining for maintenance of industrial machinery here at the US Postal Service. In tip no. 3 "Typically, you’re looking for a sharper cutting edge and a relatively light hone". I'm curious; what is meant by "light hone"?
27Hello Lyle,
Cutting tool manufacturers will typically break an insert's edge slightly after finish grinding. This helps to control wear and prevent chipping. The amount of hone depends on the material and type of machining the insert is designed to cut. Hope this was helpful!
27Because most of my work is performed in the field, most of my drilling is performed using hand-held tools. I use cobalt bits because carbide is too brittle for hand-held applications, and I get generally good results. Lots of pressure to avoid the work hardening issue and careful alignment of the tool is essential. Because essentially all of my work is one-off, quantity production is not an issue.
63I find way too often carbide is just to brittle and have breakage. Biggest trick is preventing work hardening. This is accomplished by properly low rpm and proper high feed. That means fast enough to keep ahead of the work hardening. Anchor lube is very good for drilling stainless I been a machinist and machine shop owner for nearly all my life. Trust me
23Thanks for sharing your expertise William.
Does anyone else have something to add?
30Like others I worked in the field. Found a chart with drilling speeds for different metals. My co-workers couldn't drill stainless. But with the right drilling speed and plenty of transmission fluid I was able to drill the holes easily.
30Thanks for sharing John.
29I like to add one more tip that helps to drill stainless steel. Keeping the drill straight. You need to clamp the workpiece and begin drilling the hole. Once the drill is past the tip angle, turn off the spindle. By using this tip, you can manufacture custom machined parts with precision.
25Please send catalog to
David w. Harrah
9730 n K92 Highway
McLouth Kansas 66054
Home shop Hobbie machinest/ custom knife maker
33Hobby machinest
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