Xometry.pro
en – EU
Knowledge & Community
Search
K
Quote & source your parts
Europe Europe
English DeutschFrançaisItalianoEspañol
Türkiye Türkiye
English Türkçe
United Kingdom United Kingdom
English
Global Global
English
select
navigate
switch tabs
Esc close

Get Instant Quote

Use our Instant Quoting Engine to easily quote and source your parts online

Get a Quote
Back
 Profile
Menu
Materials Library
Manufacturing Stories & Cases
Articles
E-Books & Guides
Free Tools
Webinars
Free Courses
Community Discussions
Create Topic
Quote & Source Your Parts
Get a Quote

Edit topic

Home Xometry Community Manufacturing Machining deep cavities in aluminium

Machining deep cavities in aluminium

0
L
3

Hi all, I’m machining 60 mm deep, 20 mm diameter cavities in Aluminum 6061 with ±0.05 mm tolerances. Issues like chatter, tool deflection, and poor chip evacuation make it tricky, and I’m concerned about overheating and tool wear. Do you have any advice on tool selection, speeds/feeds, cooling, or strategies to balance precision and efficiency?

Link copied
Solved by J Kalberg

You’ll want to go with a long-length end mill designed for aluminum and choose polished flutes to help with chip evacuation. A 2- or 3-flute tool works best for this. For chatter, using a variable helix end mill will help. It disrupts the vibration of standing waves. Also, consider roughing the cavity with a larger tool, leaving a small stock for a finishing pass.

For aluminum 6061, keep the surface speed around 400-600 m/min, depending on your tool. Use a moderate feed per tooth—0.05 mm/tooth is a good starting point. Coolant is crucial. Flood cooling works well, but if chip evacuation is still an issue, consider air blasting or a high-pressure coolant system. A pecking or trochoidal milling strategy can also improve chip clearance while reducing heat buildup.

    • L

      Hi all, I’m machining 60 mm deep, 20 mm diameter cavities in Aluminum 6061 with ±0.05 mm tolerances. Issues like chatter, tool deflection, and poor chip evacuation make it tricky, and I’m concerned about overheating and tool wear. Do you have any advice on tool selection, speeds/feeds, cooling, or strategies to balance precision and efficiency?

      0
      Reply
    • J

      That’s a challenging need – 60 mm depth at ±0.05 mm tolerance is pushing it, especially allowing for chatter and tool deflection. First, the depth-to-diameter ratio is 3:1, which is on the edge of manageable, beyond ideal. With higher aspect ratio cavities, precision is harder, and machining time and tooling costs rise. Can you split the machining into multiple stages to reduce the effective depth per pass?

      0
      Reply
      Link copied
      • L
        J Kalberg

        That’s a good approach. What tools would you recommend for moderating deflection and chatter at that depth? How about speeds, feeds, and cooling?

        0
        Reply
        Link copied
      • J
        Lyn Stewart

        You’ll want to go with a long-length end mill designed for aluminum and choose polished flutes to help with chip evacuation. A 2- or 3-flute tool works best for this. For chatter, using a variable helix end mill will help. It disrupts the vibration of standing waves. Also, consider roughing the cavity with a larger tool, leaving a small stock for a finishing pass.

        For aluminum 6061, keep the surface speed around 400-600 m/min, depending on your tool. Use a moderate feed per tooth—0.05 mm/tooth is a good starting point. Coolant is crucial. Flood cooling works well, but if chip evacuation is still an issue, consider air blasting or a high-pressure coolant system. A pecking or trochoidal milling strategy can also improve chip clearance while reducing heat buildup.

        0
        Reply
        Link copied
Machining deep cavities in aluminium
Your information:




Suggested Topics

Topic
Replies
Views
Activity
Minimum letter size for raised text on SLS nylon parts
Manufacturing
I’m working on a medical device enclosure that needs raised lettering (product name and serial number) on the lid, printed in SLS nylon. The letters are around 2 mm high with a stroke width... read more
m
j
4
43
Oct 30
2 mm stainless sheet bend radius
Manufacturing
I’d like some help with a project. I’m designing a stainless steel 304 enclosure with multiple 90° flanges (sheet thickness ~2 mm). For strength and edge alignment, I want the inside bend radius to... read more
L
C
4
132
Oct 24
Urethane casting for sensor housings
Manufacturing
Hello all, I’m looking for some advice. I’m working on a prototype of a handheld casing for an outdoor sensor (approx. 20×10×5 cm) that needs to be rigid, weather-resistant, and have fine surface details.... read more
a
0
83
Oct 17
Will a threaded hub and locknut hold up in a conveyor roller assembly?
Manufacturing
hi! my project is a small conveyor assembly where the rollers need to be swapped out fairly often, depending on the material we’re running. I’m considering using an M14 threaded connection between the aluminum... read more
P
R
4
86
Oct 22
Printed aluminum parts in pressure applications
Manufacturing
Hi! Questioning about prototyping a hydraulic valve housing (normally CNC’d in 6061) - considering aluminum 3D printing instead, mainly to speed up design iterations. The part would see ~150 bar during bench tests, with... read more
T
0
138
Sep 29

Edit topic