Tonight I tried a new milling strategy for the final contour cut of my aluminum plate.
Instead of cutting the entire plate with .2mm depth cuts, I cut first 2mm at .2mm depth cuts, and then switched the depth cuts to .25mm
The cutting feed speed was set to 330mm/minute, but I suspect that GRBL is gating the feed speed.
Sunday, October 23, 2016
Sunday, October 16, 2016
Third successful aluminum run
This run was the first aluminum run with the X-Controller.
Monday, October 3, 2016
Upgrading to X-controller, GRBL values dump
$0=10 (step pulse, usec)
$1=25 (step idle delay, msec)
$2=0 (step port invert mask:00000000)
$3=3 (dir port invert mask:00000011)
$4=0 (step enable invert, bool)
$5=0 (limit pins invert, bool)
$6=0 (probe pin invert, bool)
$10=3 (status report mask:00000011)
$11=0.010 (junction deviation, mm)
$12=0.002 (arc tolerance, mm)
$13=0 (report inches, bool)
$20=0 (soft limits, bool)
$21=0 (hard limits, bool)
$22=0 (homing cycle, bool)
$23=0 (homing dir invert mask:00000000)
$24=25.000 (homing feed, mm/min)
$25=500.000 (homing seek, mm/min)
$26=250 (homing debounce, msec)
$27=1.000 (homing pull-off, mm)
$100=40.000 (x, step/mm)
$101=40.000 (y, step/mm)
$102=320.000 (z, step/mm)
$110=2000.000 (x max rate, mm/min)
$111=1000.000 (y max rate, mm/min)
$112=500.000 (z max rate, mm/min)
$120=10.000 (x accel, mm/sec^2)
$121=10.000 (y accel, mm/sec^2)
$122=10.000 (z accel, mm/sec^2)
$130=200.000 (x max travel, mm)
$131=200.000 (y max travel, mm)
$132=200.000 (z max travel, mm)
The jumper for the Z-axis is set to 2x microstepping.
You'd think I'd know by now to dump the values before switching to the X-controller, instead of looking them up after figuring out what my Z movement was wrong.
Nope.
You'd think I'd know by now to dump the values before switching to the X-controller, instead of looking them up after figuring out what my Z movement was wrong.
Nope.
Tuesday, May 31, 2016
Computing the delta for the Y-axis plates
Tip to tip, maker slide is, per this diagram, 43.9358mm.
The openrail distance is a little harder to find, because the image on the openbuild.net site is a raster image that's unreadable, but a PDF can be found here. The openrail adds 2.9679mm*2 to the 100mm 80/20 extrusion I'm using, for a total of 105.9358mm. This is a delta of 62mm.
The distance between the center of top and bottom holes for the deletion wheels mounted on maker slide is 64.60mm, or 20.6642mm to accommodate the wheels. The distance, center to center, for my plate will need to be 64.60mm + 62mm = 126.6mm
The openrail distance is a little harder to find, because the image on the openbuild.net site is a raster image that's unreadable, but a PDF can be found here. The openrail adds 2.9679mm*2 to the 100mm 80/20 extrusion I'm using, for a total of 105.9358mm. This is a delta of 62mm.
The distance between the center of top and bottom holes for the deletion wheels mounted on maker slide is 64.60mm, or 20.6642mm to accommodate the wheels. The distance, center to center, for my plate will need to be 64.60mm + 62mm = 126.6mm
Sunday, May 29, 2016
Successful second plate milled
I've milled the companion plate for the first X-axis plate. Along the way I tried changing the depth of cut to .24mm. This did not work, so I tried adding WD-40. This didn't help --- the machine would still skip steps.
Then I realized that after the last mill run I'd taken off one of the eccentric nuts to test the fit. I loosened that nut, and changed the depth of cut to .20mm.
Everything worked.
Then I realized that after the last mill run I'd taken off one of the eccentric nuts to test the fit. I loosened that nut, and changed the depth of cut to .20mm.
Everything worked.
Sunday, May 22, 2016
Good news, ok news
The good news: the Y-axis plate checks out fine. All 8 holes line up with the 80/20 50mm by 100mm extrusion, the holes for the motor mounts look aligned, the holes for the eccentric nuts fit exactly, and when the wheels are attached they are correctly spaced for the marker slide.
When the 11 year old was screwing in the screws for the 80/20 extrusion we both noticed that some of the screws were loose.
That's the ok news. The screws were loose because I tapped the axis with an M5 tap, and I should have used an M6 tap. Fortunately, a problem that is easily fixed.
When the 11 year old was screwing in the screws for the 80/20 extrusion we both noticed that some of the screws were loose.
That's the ok news. The screws were loose because I tapped the axis with an M5 tap, and I should have used an M6 tap. Fortunately, a problem that is easily fixed.
Sunday, May 15, 2016
Successful 5052 .25" aluminum milling run
Settings:
Feed rate: 300mm/minute
RPM: 30,000 RPM
Plunge rate: 60mm/minute
Depth of cut: .2mm
Lubrication: I used some WD40 at first, but it just seemed to make the aluminum flakes bunch up around the bit, so I stopped. I did run the ShopVac constantly.
Bit: Niagara Cutter N61442 Carbide Square Nose End Mill, Inch, TiCN Finish, Finishing Cut, 45 Degree Helix, 2 Flutes, 1.5" Overall Length, 0.125" Cutting Diameter, 0.125" Shank Diameter
I had to do a second pass where I went from -6.3 to -6.55.
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