Ninja Log: Difference between revisions

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Realized Designs Steel Cut
Realized Designs Steel Cut
-Cut steel duct segment down from 24 inches to 18 inches  
#Cut steel duct segment down from 24 inches to 18 inches  
-8-inch diameter, eighth of an inch thick, open cylinder meaning the piece didn't close on itself
#8-inch diameter, eighth of an inch thick, open cylinder meaning the piece didn't close on itself
-taped each side of the piece to close the circle and then set it up for the chop saw.  
#Taped each side of the piece to close the circle and then set it up for the chop saw.  
-Moved the jaws of the chop saw back to fit the piece onto the workspace  
#Moved the jaws of the chop saw back to fit the piece onto the workspace  
-measured out cut with a little extra space to clean it up after
#Measured out cut with a little extra space to clean it up after
-Secured it as best as I could and stabilized the piece with my left hand
#Secured it as best as I could and stabilized the piece with my left hand
-cut about 2/3 of the way through before the workpiece prevented further depth
#Cut about 2/3 of the way through before the workpiece prevented further depth
-spun it around and cut through from the other side
#Spun it around and cut through from the other side
-marked out the exact size along the piece
#Marked out the exact size along the piece
-flattened it and cut to size with the shear cutter (way better than my initial idea of bench grinding it down)
#Flattened it and cut to size with the shear cutter (way better than my initial idea of bench grinding it down)
-Took a picture with the guy and was flushed with success
#Took a picture with the guy and was flushed with success
-Asked Dr. Schuler about it later and he informed me that the piece was actually aluminum
#Asked Dr. Schuler about it later and he informed me that the piece was actually aluminum
-shouldn't have cut it on the chop saw although it's not the end of the world
#Shouldn't have cut it on the chop saw although it's not the end of the world
-attempted to cut on the bandsaw but it was hard to get any bite with the hollow piece's tendency to deform
#Attempted to cut on the bandsaw but it was hard to get any bite with the hollow piece's tendency to deform
-will attempt to cut with the Sawsall moving forward  
#Will attempt to cut with the Sawsall moving forward  




Taz 1
Taz 1
-Print had finished but it was extremely stringy and deformed
#Print had finished but it was extremely stringy and deformed
-No obvious mechanical issues
#No obvious mechanical issues
-restarted the print and it ran perfectly smoothly
#Restarted the print and it ran perfectly smoothly
-my guess is that the brim was insufficient and some of the initial filament dump corrupted the workpiece
#My guess is that the brim was insufficient and some of the initial filament dump corrupted the workpiece


Taz 2
Taz 2
-Print had stopped extruding at a certain level  
#Print had stopped extruding at a certain level  
-Filament was broken off near the printhead
#Filament was broken off near the printhead
-Checked the spool and saw that the filament was tangled and prevented further extrusion
#Checked the spool and saw that the filament was tangled and prevented further extrusion
-unthreaded the spool and removed the spoiled filament
#Unthreaded the spool and removed the spoiled filament
-reloaded the filament, restarted the print, and all was good
#Reloaded the filament, restarted the print, and all was good


Ultimaker 2+ (2)
Ultimaker 2+ (2)
-Print had finished, ball of tangled filament on the buildplate, error message "Error Stopped / Z Switch Broken", caked nozzle
#Print had finished, ball of tangled filament on the buildplate, error message "Error Stopped / Z Switch Broken", caked nozzle
-The original piece had fallen underneath the buildplate so that, when the print finished and the plate returned to home, the piece prevented it from doing so
#The original piece had fallen underneath the buildplate so that, when the print finished and the plate returned to home, the piece prevented it from doing so
-attempted to raise the buildplate through the LCD screen but the buildplate needs to auto-home before doing so
#Attempted to raise the buildplate through the LCD screen but the buildplate needs to auto-home before doing so
-Used a hex wrench to wrangle out the piece from underneath without unduly disturbing the bed
#Used a hex wrench to wrangle out the piece from underneath without unduly disturbing the bed
-Moved the nozzle to the middle of the printer
#Moved the nozzle to the middle of the printer
-unscrewed the eight screws holding the two fans and secured the fans together with tape and out of the way
#Unscrewed the eight screws holding the two fans and secured the fans together with tape and out of the way
-unscrewed the four hex screws holding the nozzle body
#Unscrewed the four hex screws holding the nozzle body
-heated the nozzle to 215 to melt the filament  
#Heated the nozzle to 215 to melt the filament  
-removed the nozzle body once the filament melted a bit
#Removed the nozzle body once the filament melted a bit
-gently used a screwdriver to detach the caked filament from the nozzle, taking care to not affect the heating wires
#Gently used a screwdriver to detach the caked filament from the nozzle, taking care to not affect the heating wires
-used a wooden skewer to remove the filament from the nozzle and its surroundings
#Used a wooden skewer to remove the filament from the nozzle and its surroundings
-once clean, re-attached nozzle body and fans
#Once clean, re-attached nozzle body and fans
-extruded out the filament, snipped off the corrupted portion, loaded it back in
#Extruded out the filament, snipped off the corrupted portion, loaded it back in
-works like a charm
#Works like a charm


Ultimaker 2+ (1)  
Ultimaker 2+ (1)  
-Saw the belt of the x-axis stepper motor was rubbing against the wire that we had replaced yesterday. Most likely, this was the cause of the broken connection
#Saw the belt of the x-axis stepper motor was rubbing against the wire that we had replaced yesterday. Most likely, this was the cause of the broken connection
-Initially looked to raise the belt by inserting spacers
#Initially looked to raise the belt by inserting spacers
-Determined the problem was because of an upside-down belt thread on the stepper
#Determined the problem was because of an upside-down belt thread on the stepper
-used a hex wrench to loosen and correct the issue
#Used a hex wrench to loosen and correct the issue
-used a hot glue gun to secure the wires to the body of the Ultimaker
#Used a hot glue gun to secure the wires to the body of the Ultimaker
-re-attached the stepper motor and secured the belt firmly
#Re-attached the stepper motor and secured the belt firmly
-ran a print and saw that the belt was slipping
#Ran a print and saw that the belt was slipping
-re-secured the belt very firmly and fixed the slippage
#Re-secured the belt very firmly and fixed the slippage
-problem solved
#Problem solved


Taz 4
Taz 4
-The PEI material has been warped and even burned all the way through
#The PEI material has been warped and even burned all the way through
-removed the buildplate and dis-connected the heating wires
#Removed the buildplate and dis-connected the heating wires
-began the arduous process of removing the existing PEI that was adhered to the plate
#Began the arduous process of removing the existing PEI that was adhered to the plate
-got help and pulled with two hands as someone held the glass plate down firmly
#Got help from Dr. Walker and pulled with two hands as he held the glass plate down firmly
-was making some progress until the glass plate snapped  
#Was making some progress until the glass plate snapped  
-ordered a whole new buildplate and will install once it arrives
#Ordered a whole new buildplate and will install once it arrives


Ultimaker 2+ (2)
Ultimaker 2+ (2)
-didn't appear to be laying down properly, the brim forms billows and those corrupt the print
#Didn't appear to be laying down properly, the brim forms billows and those corrupt the print
-attempted to re-calibrate the buildplate
#Attempted to re-calibrate the buildplate
-cleaned the buildplate with rubbing alcohol
#Cleaned the buildplate with rubbing alcohol
-tried placing covers on machines so the ambient heat will have less affect
#Tried placing covers on machines so the ambient heat will have less affect
-the jury is still out on this one
#The jury is still out on this one
#Came back to this on 5/22/2017


5/19/2017
5/19/2017
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Taz 1
Taz 1
-24 hour Print finished completely but the filament had broked just at the end, exceptionally lucky
#24 hour Print finished completely but the filament had broked just at the end, exceptionally lucky
-filament was quite brittle, snapped when I tried to slightly bend it
#Filament was quite brittle, snapped when I tried to slightly bend it
-replaced the broken filament and loaded it up
#Replaced the broken filament and loaded it up
-worked like a charm
#Worked like a charm


Ultimaker 2+ (3)
Ultimaker 2+ (3)
-print had finished but was slightly caked
#Print had finished but was slightly caked
-I attribute the caking to a lack of brim which, when the edges of the pieces slightly deformed upwards, resulted in a lack of surface contact area
#I attribute the caking to a lack of brim which, when the edges of the pieces slightly deformed upwards, resulted in a lack of surface contact area
-heated the nozzle, removed the nozzle body without removing the fans
#Heated the nozzle, removed the nozzle body without removing the fans
-cleaned up the caked nozzle and surroundings
#Cleaned up the caked nozzle and surroundings
-loaded up another print and it worked great  
#Loaded up another print and it worked great  


Gave a tour for several high school teachers with the rep. from IDIYA
Gave a tour for several high school teachers with the rep. from IDIYA
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CNC (3 hours):
CNC (3 hours):
-raised the z-axis to its limit and then performed a restart
#Raised the z-axis to its limit and then performed a restart
-hit the E-stop, exited the program, shut off machine power
#Hit the E-stop, exited the program, shut off machine power
-re-started the machine power, booted up the program, hit the green power button
#Re-started the machine power, booted up the program, hit the green power button
-the reset button was flashing but when I hit the button, it read "Z-axis limit switch active"
#The reset button was flashing but when I hit the button, it read "Z-axis limit switch active"
-when I tried to move or reference any active, it would not allow me and showed the message "command cannot be executed unless machine is powered on and the control software is out of RESET condition"
#When I tried to move or reference any active, it would not allow me and showed the message "command cannot be executed unless machine is powered on and the control software is out of RESET condition"
-re-started it and the problem was corrected
#Re-started it and the problem was corrected
-reference z, then y, then x
#Reference z, then y, then x
-installed shear hog, tightened up coolant since I'm using HDPE  
#Installed shear hog, tightened up coolant since I'm using HDPE  
-2500 RPM, 12.8 in/min
#2500 RPM, 12.8 in/min
-started facing technique, dropped in twenty thou increments and uniform across the piece
#Started facing technique, dropped in twenty thou increments and uniform across the piece
-cut 3 passes to face it cleanly
#Cut 3 passes to face it cleanly
-flipped the piece and did same feeds and speeds but with a 25 thou stepdown
#Flipped the piece and did same feeds and speeds but with a 25 thou stepdown
-deeper chips, going to consult Ben on his thoughts between the two
#Deeper chips, going to consult Ben on his thoughts between the two
-first pass there were some plastic chips snagged in the superfly, adjusted the coolant to blow on the tool and fixed the problem
#First pass there were some plastic chips snagged in the superfly, adjusted the coolant to blow on the tool and fixed the problem
-30 thou stepdown was very smooth, produced similar chips
#30 thou stepdown was very smooth, produced similar chips
-put in heimer, zeroed to the bottom of  the bed, then measured the height to be 5.7221
#Put in heimer, zeroed to the bottom of  the bed, then measured the height to be 5.7221
-faced off down to 5.7 with the superfly
#Faced off down to 5.7 with the superfly
-put heimer back in and zeroed the x and y to the center of the workpiece
#Put heimer back in and zeroed the x and y to the center of the workpiece
-set up conversational to go from z=5.7 to z=5.5
#Set up conversational to go from z=5.7 to z=5.5
-twenty thou depth of cut, .9 stepover, zclear=5.9, RPM = 2500, tool=2, feedrate= 11,  
#Twenty thou depth of cut, .9 stepover, zclear=5.9, RPM = 2500, tool=2, feedrate= 11,  


-need to be at least 30 thou according to Ben so changed that up  
#Need to be at least 30 thou according to Ben so changed that up  
-forty thou depth of cut
#Forty thou depth of cut
-xstart=-2, xend=2, ystart=2, yend=-2  
#Xstart=-2, xend=2, ystart=2, yend=-2  
-posted to file and jogged through gcode to make sure it all was straight
#Posted to file and jogged through gcode to make sure it all was straight
-pressed cycle start and watched the magic happen
#Pressed cycle start and watched the magic happen
 
#Faced off other four sides to make a box of final dimensions 3"x3"x5"
-faced off other four sides to make a box of final dimensions 3"x3"x5"




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CNC (3 hours):
CNC (3 hours):
-Cut a piece of wood stock to 2" by 4" with the chop saw
#Cut a piece of wood stock to 2" by 4" with the chop saw
-Uploaded the chop saw training manual to the wiki page
#Uploaded the chop saw training manual to the wiki page
-loaded workpiece into CNC and used Heimer to center
#Loaded workpiece into CNC and used Heimer to center
-used conversational to set up a 1" diameter, .1" deep cut into the piece with the 3/8" 2 flute endmill
#Used conversational to set up a 1" diameter, .1" deep cut into the piece with the 3/8" 2 flute endmill
-xstart=0,ystart=0, diameter=1, zdoc=.1, zstart=0, zend=-.1, RPM=5000, feedrate=60, zfeedrate=30, zclear=0.2
#Xstart=0,ystart=0, diameter=1, zdoc=.1, zstart=0, zend=-.1, RPM=5000, feedrate=60, zfeedrate=30, zclear=0.2
-posted file, slid velocity to zero and hit cycle start
#Posted file, slid velocity to zero and hit cycle start
-coolant came on, spindle started spinning
#Coolant came on, spindle started spinning
-eased up velocity and spindle moved to zclear position
#Eased up velocity and spindle moved to zclear position
-made its passes and all went well
#Made its passes and all went well
-repeated similar cut but with xstart=-0.75, zstart=0, zend=-0.2
#Repeated similar cut but with xstart=-0.75, zstart=0, zend=-0.2
-changed to rectangular cut
#Changed to rectangular cut
-xstart=-1.5, xend=1.5, ystart=0.5, yend=-0.5, radius=0.2, zdoc=0.1, zstart=0, zend=0.1, RPM=5000, feedrate=60, zfeedrate=30, zclear=0.2
#Xstart=-1.5, xend=1.5, ystart=0.5, yend=-0.5, radius=0.2, zdoc=0.1, zstart=0, zend=0.1, RPM=5000, feedrate=60, zfeedrate=30, zclear=0.2
-repeated but with zstart=-0.1, zend=-0.2
#Repeated but with zstart=-0.1, zend=-0.2
-switched to tool 13 (1/8" four flute end mill)
#Switched to tool 13 (1/8" four flute end mill)
-engraved Nola into the bottom of the pocket
#Engraved Nola into the bottom of the pocket
-height=0.3, xbase=0, ybase=-1.5, zstart=-.2, zdoc=0.05, center
#Height=0.3, xbase=0, ybase=-1.5, zstart=-.2, zdoc=0.05, center
-didn't work because end mill did two passes which ruined the definition
#Didn't work because end mill did two passes which ruined the definition
-re-cut the pocket to -0.3" with tool 12
#Re-cut the pocket to -0.3" with tool 12
-changed engraving to height=0.5, ystart=-0.25, zstart=-0.3
#Changed engraving to height=0.5, ystart=-0.25, zstart=-0.3
-second cut worked out much better
#Second cut worked out much better
-repeated the procedure on the back side by cutting a rectangular pocket 0.2" deep and engraving
#Repeated the procedure on the back side by cutting a rectangular pocket 0.2" deep and engraving
-used the 3/32" end mill with same speeds and feeds, much better resolution
#Used the 3/32" end mill with same speeds and feeds, much better resolution
-next step is to use the 40 thou end mill for engraving
#Next step is to use the 40 thou end mill for engraving
 
Acryllic Rulers
#Set up the ruler design provided by Epilog
#Slightly enlarged the fonts and added intricate color mapping
#Laser #1 worked like a charm, saved the settings on Corel Draw for future use
 
5/22/2017
10:30-


Ultimaker 2+ (3)  
Ultimaker 2+ (3)  
-filament had broken so I tried to replace it
#Filament had broken so I tried to replace it
-had trouble inserting filament into the gear box, decided to take the whole thing apart
#Had trouble inserting filament into the gear box, decided to take the whole thing apart
-vacuumed out the interior and attempted to re-load the filament
#Vacuumed out the interior and attempted to re-load the filament
-didn't work out too well, the spring had too much tension on it
#Didn't work out too well, the spring had too much tension on it
-took it apart again and checked
#Took it apart again and checked
-appeared that the part of the plastic holding the tension screws was deformed.
#Appeared that the part of the plastic holding the tension screws was deformed.

Revision as of 18:14, 22 May 2017

Ultimakers are referred to as 1,2,3 in relation to their position from left to right

Tazs are referred to as 1,2,3,4 in relation to their position from left to right

5/17/2017 9:00-5:00

File:Image1.jpg

Error Message on the Ultimaker 2+ (1) Read: "X or Y switch broken"

  1. Pressed "Home Head" under advanced settings to determine the source of the problem.
  2. Stepper Motor ground as it tried to continue to move the printhead
  3. Turned off the machine, checked to see if the X and Y switches were being activated when the printhead reached "home"
  4. Once the switches were verified to be mechanically activated, the print-head was moved to the bottom right corner of the machine. Pressed "Home
  5. Head" and held each of the switches to determine if they halted the movement of the printhead.
  6. The x-axis movement ceased but the y-axis continued to jog.
  7. This indicated that the error was caused by the Y switch
  8. Disconnected the printer from power and un-screwed the Y switch
  9. Mechanically everything seemed to be in order so we grabbed a Multimeter to test the switch
  10. There was no distinction between when the switch was pressed and when it wasn't (OL both ways)
  11. Unsecured the two electrical connections and saw that one of the wires had broken off
  12. Grabbed the sautering gun and sautered it to its connection
  13. Checked the other connection and saw that it was in need of the same operation
  14. Checked the resistance across and saw that it was zero
  15. Resecured the left switch to the Ultimaker 2+
  16. Tested to see if "Home Head" worked
  17. Everything back in order


Laser Printer produced flames, indicating that the compressed air "Air Assist Feature" isn't properly working

  1. Check to see if PSI is around 30
  2. Disconnect hose and see if air is blowing through
  3. Saw that I had enabled color mapping and had disabled air assist
  4. Make sure to leave "Air Assist" box checked when color mapping

Ultimaker 2+ (3) print failed mid-way through:

  1. Appeared to be an extrusion problem
  2. Filament connection was still intact in the rear of the machine
  3. Reversed material, saw that the filament was grinding and had gotten stuck
  4. Cut off the spoiled filament and reloaded it into the machine
  5. Saw a small blockage in the printhead nozzle
  6. extruded a little extra of the filament from its chamber and forced it down to push through the blockage
  7. blockage cleared easily and I extruded another five or so rotations to make sure all was good.

Ultimaker 2+ (1) Print wasn't extruding

  1. After fixing the X and Y switch, a print was started that didn't extrude
  2. heated the nozzle and wasn't able to move the material
  3. checked in the back and saw that the filament had snapped because there wasn't much filament left in the spool
  4. attempted to reverse but there was no movement
  5. used pliers to remove the filament from its housing
  6. put in a new spool of filament and loaded it into the system
  7. prints like a charm

Taz Lulzbot Fix Up

  1. noticed that it was in its home position which is touching the buildplate. As a result, the printhead was crusted over and had to be popped off of the buildplate
  2. filament had broken near the spool, I heated it up to 215 and removed it.
  3. Loaded up some new filament and ran a calibration print
  4. Everything looked good from the calibration print
  5. Ran the calibration print with the other type of filament (red) and achieved the same results

Birch Plywood 1/8": Laser 1, 9 speed, 100 power cut all the way through a living hinge and some other intricate cuts

Chair fix up

  1. several chairs have been stuck in the down position and would drop once you sat in them
  2. took them apart to see what was occurring
  3. the lever that triggers the hydraulic press was being activated at all times.
  4. because of this, weight would always push it down
  5. took the cylinder (with the help of a mallet) out of the chair and attached some shims on either side
  6. put it back in, secured it, and they work like a charm

CNC (1 hour)

  1. started off running it at 6000 RPM because I forgot to check SPEEDS AND FEEDS
  2. hit the E-stop immediately
  3. rotated the E-stop button and pressed the green button to fire it back up
  4. cut at 2500 RPM, 20 thou cuts, 8% (11.2), from 4.00 inches to 3.60 inches.
  5. some very fine chips were created, almost like fluff. Probably from the backcut when moving in one direction

Recorded the statistics of the three Ultimakers: 1 Machine on for: 7085:24 ... printing: 2979:27 ... Material: 2310m 2 Machine on for: 4086:21 ... printing: 1564:18 ... Material: 1138m 3 Machine on for: 4415:42 ... printing: 2164:14 ... Material: 1694m


5/18/2017 10:00-6:00

Realized Designs Steel Cut

  1. Cut steel duct segment down from 24 inches to 18 inches
  2. 8-inch diameter, eighth of an inch thick, open cylinder meaning the piece didn't close on itself
  3. Taped each side of the piece to close the circle and then set it up for the chop saw.
  4. Moved the jaws of the chop saw back to fit the piece onto the workspace
  5. Measured out cut with a little extra space to clean it up after
  6. Secured it as best as I could and stabilized the piece with my left hand
  7. Cut about 2/3 of the way through before the workpiece prevented further depth
  8. Spun it around and cut through from the other side
  9. Marked out the exact size along the piece
  10. Flattened it and cut to size with the shear cutter (way better than my initial idea of bench grinding it down)
  11. Took a picture with the guy and was flushed with success
  12. Asked Dr. Schuler about it later and he informed me that the piece was actually aluminum
  13. Shouldn't have cut it on the chop saw although it's not the end of the world
  14. Attempted to cut on the bandsaw but it was hard to get any bite with the hollow piece's tendency to deform
  15. Will attempt to cut with the Sawsall moving forward


Taz 1

  1. Print had finished but it was extremely stringy and deformed
  2. No obvious mechanical issues
  3. Restarted the print and it ran perfectly smoothly
  4. My guess is that the brim was insufficient and some of the initial filament dump corrupted the workpiece

Taz 2

  1. Print had stopped extruding at a certain level
  2. Filament was broken off near the printhead
  3. Checked the spool and saw that the filament was tangled and prevented further extrusion
  4. Unthreaded the spool and removed the spoiled filament
  5. Reloaded the filament, restarted the print, and all was good

Ultimaker 2+ (2)

  1. Print had finished, ball of tangled filament on the buildplate, error message "Error Stopped / Z Switch Broken", caked nozzle
  2. The original piece had fallen underneath the buildplate so that, when the print finished and the plate returned to home, the piece prevented it from doing so
  3. Attempted to raise the buildplate through the LCD screen but the buildplate needs to auto-home before doing so
  4. Used a hex wrench to wrangle out the piece from underneath without unduly disturbing the bed
  5. Moved the nozzle to the middle of the printer
  6. Unscrewed the eight screws holding the two fans and secured the fans together with tape and out of the way
  7. Unscrewed the four hex screws holding the nozzle body
  8. Heated the nozzle to 215 to melt the filament
  9. Removed the nozzle body once the filament melted a bit
  10. Gently used a screwdriver to detach the caked filament from the nozzle, taking care to not affect the heating wires
  11. Used a wooden skewer to remove the filament from the nozzle and its surroundings
  12. Once clean, re-attached nozzle body and fans
  13. Extruded out the filament, snipped off the corrupted portion, loaded it back in
  14. Works like a charm

Ultimaker 2+ (1)

  1. Saw the belt of the x-axis stepper motor was rubbing against the wire that we had replaced yesterday. Most likely, this was the cause of the broken connection
  2. Initially looked to raise the belt by inserting spacers
  3. Determined the problem was because of an upside-down belt thread on the stepper
  4. Used a hex wrench to loosen and correct the issue
  5. Used a hot glue gun to secure the wires to the body of the Ultimaker
  6. Re-attached the stepper motor and secured the belt firmly
  7. Ran a print and saw that the belt was slipping
  8. Re-secured the belt very firmly and fixed the slippage
  9. Problem solved

Taz 4

  1. The PEI material has been warped and even burned all the way through
  2. Removed the buildplate and dis-connected the heating wires
  3. Began the arduous process of removing the existing PEI that was adhered to the plate
  4. Got help from Dr. Walker and pulled with two hands as he held the glass plate down firmly
  5. Was making some progress until the glass plate snapped
  6. Ordered a whole new buildplate and will install once it arrives

Ultimaker 2+ (2)

  1. Didn't appear to be laying down properly, the brim forms billows and those corrupt the print
  2. Attempted to re-calibrate the buildplate
  3. Cleaned the buildplate with rubbing alcohol
  4. Tried placing covers on machines so the ambient heat will have less affect
  5. The jury is still out on this one
  6. Came back to this on 5/22/2017

5/19/2017 10:00-6:00

Taz 1

  1. 24 hour Print finished completely but the filament had broked just at the end, exceptionally lucky
  2. Filament was quite brittle, snapped when I tried to slightly bend it
  3. Replaced the broken filament and loaded it up
  4. Worked like a charm

Ultimaker 2+ (3)

  1. Print had finished but was slightly caked
  2. I attribute the caking to a lack of brim which, when the edges of the pieces slightly deformed upwards, resulted in a lack of surface contact area
  3. Heated the nozzle, removed the nozzle body without removing the fans
  4. Cleaned up the caked nozzle and surroundings
  5. Loaded up another print and it worked great

Gave a tour for several high school teachers with the rep. from IDIYA Gave a tour to a prospective high school student

CNC (3 hours):

  1. Raised the z-axis to its limit and then performed a restart
  2. Hit the E-stop, exited the program, shut off machine power
  3. Re-started the machine power, booted up the program, hit the green power button
  4. The reset button was flashing but when I hit the button, it read "Z-axis limit switch active"
  5. When I tried to move or reference any active, it would not allow me and showed the message "command cannot be executed unless machine is powered on and the control software is out of RESET condition"
  6. Re-started it and the problem was corrected
  7. Reference z, then y, then x
  8. Installed shear hog, tightened up coolant since I'm using HDPE
  9. 2500 RPM, 12.8 in/min
  10. Started facing technique, dropped in twenty thou increments and uniform across the piece
  11. Cut 3 passes to face it cleanly
  12. Flipped the piece and did same feeds and speeds but with a 25 thou stepdown
  13. Deeper chips, going to consult Ben on his thoughts between the two
  14. First pass there were some plastic chips snagged in the superfly, adjusted the coolant to blow on the tool and fixed the problem
  15. 30 thou stepdown was very smooth, produced similar chips
  16. Put in heimer, zeroed to the bottom of the bed, then measured the height to be 5.7221
  17. Faced off down to 5.7 with the superfly
  18. Put heimer back in and zeroed the x and y to the center of the workpiece
  19. Set up conversational to go from z=5.7 to z=5.5
  20. Twenty thou depth of cut, .9 stepover, zclear=5.9, RPM = 2500, tool=2, feedrate= 11,
  1. Need to be at least 30 thou according to Ben so changed that up
  2. Forty thou depth of cut
  3. Xstart=-2, xend=2, ystart=2, yend=-2
  4. Posted to file and jogged through gcode to make sure it all was straight
  5. Pressed cycle start and watched the magic happen
  6. Faced off other four sides to make a box of final dimensions 3"x3"x5"


5/21/2017 2-6

CNC (3 hours):

  1. Cut a piece of wood stock to 2" by 4" with the chop saw
  2. Uploaded the chop saw training manual to the wiki page
  3. Loaded workpiece into CNC and used Heimer to center
  4. Used conversational to set up a 1" diameter, .1" deep cut into the piece with the 3/8" 2 flute endmill
  5. Xstart=0,ystart=0, diameter=1, zdoc=.1, zstart=0, zend=-.1, RPM=5000, feedrate=60, zfeedrate=30, zclear=0.2
  6. Posted file, slid velocity to zero and hit cycle start
  7. Coolant came on, spindle started spinning
  8. Eased up velocity and spindle moved to zclear position
  9. Made its passes and all went well
  10. Repeated similar cut but with xstart=-0.75, zstart=0, zend=-0.2
  11. Changed to rectangular cut
  12. Xstart=-1.5, xend=1.5, ystart=0.5, yend=-0.5, radius=0.2, zdoc=0.1, zstart=0, zend=0.1, RPM=5000, feedrate=60, zfeedrate=30, zclear=0.2
  13. Repeated but with zstart=-0.1, zend=-0.2
  14. Switched to tool 13 (1/8" four flute end mill)
  15. Engraved Nola into the bottom of the pocket
  16. Height=0.3, xbase=0, ybase=-1.5, zstart=-.2, zdoc=0.05, center
  17. Didn't work because end mill did two passes which ruined the definition
  18. Re-cut the pocket to -0.3" with tool 12
  19. Changed engraving to height=0.5, ystart=-0.25, zstart=-0.3
  20. Second cut worked out much better
  21. Repeated the procedure on the back side by cutting a rectangular pocket 0.2" deep and engraving
  22. Used the 3/32" end mill with same speeds and feeds, much better resolution
  23. Next step is to use the 40 thou end mill for engraving

Acryllic Rulers

  1. Set up the ruler design provided by Epilog
  2. Slightly enlarged the fonts and added intricate color mapping
  3. Laser #1 worked like a charm, saved the settings on Corel Draw for future use

5/22/2017 10:30-

Ultimaker 2+ (3)

  1. Filament had broken so I tried to replace it
  2. Had trouble inserting filament into the gear box, decided to take the whole thing apart
  3. Vacuumed out the interior and attempted to re-load the filament
  4. Didn't work out too well, the spring had too much tension on it
  5. Took it apart again and checked
  6. Appeared that the part of the plastic holding the tension screws was deformed.