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#'''auto switch filaments to use waste or recycled plastic for infill and new plastic for outer shells''' | #'''auto switch filaments to use waste or recycled plastic for infill and new plastic for outer shells''' | ||
#reversable print bed for multiple materials | #reversable print bed for multiple materials | ||
[[User:Cjthormodson|Cjthormodson]] ([[User talk:Cjthormodson|talk]]) 07:04, 4 December 2018 (PST) | |||
#Purchase an all metal hot end to better control the temperature of the filament. | |||
#Create filament with a better tolerance | |||
#Be able to print at the micro scale for layer heights to enhance the surface finish and allow for better tolerances to be met on the prints | |||
#Redesign the 3D printed parts of the printer | |||
#Constant auto bed leveling if the bed is warped | |||
#Develop a better support method | |||
#Allow for more materials to be printed to enhance material properties | |||
#Control filament environment to reduce humidity and other things | |||
#Control printer environment to to prevent swings in temperature. | |||
#Build a bed that prevents peeling of parts | |||
#Smaller extruder nozzle to enhance quality | |||
#Larger drive motor for more consistent filament flow | |||
#'''Self cleaning hotend''' | |||
#Make a hotend that never plugs up | |||
#Improve cooling on small parts to prevent melting | |||
#Better stepper motors for more precise movements | |||
#Better frames to prevent Z wobble | |||
#'''Auto stop if failed print is detected''' | |||
#'''Remote monitoring of the printer so the user can watch it print from phone or tablet''' | |||
#Have the printer be controlled remotely | |||
#Multiple extruders with different diameter nozzles for more detailed printing | |||
#Multiple extruders for different materials | |||
#Faster cooling on the material after extruded. | |||
#Prevent shrinking until after the part in completed. | |||
#Different priced materials for different sections of a print. Ex. 1 for low quality and 1 for high quality | |||
[[User:JBailey|JBailey]] ([[User talk:JBailey|talk]]) 07:27, 4 December 2018 (PST) | |||
#'''nozzle temperature gradient per layer height so there are variations in print color (wood filament)''' | |||
#'''attachment to print head that could pre-loosen prints from bed''' | |||
#'''attachment to bed that forces flexion to easily remove print''' | |||
#attachment to print head to auto-clean print bed | |||
#enclosure with air filtering to remove any toxins released when printing | |||
#dual extruder so one filament can be high quality and the other can b low quality (infill) | |||
#create filament that cleans nozzle as it is used | |||
#add lens and laser to add etches/features in walls | |||
[[User:Houcke|Houcke]] ([[User talk:Houcke|talk]]) 10:11 3 December 2019 (EST) | |||
[[User:Rsimpson|Rsimpson]] ([[User talk:Rsimpson|talk]]) 10:11 3 December 2019 (EST) | |||
#Slow first layer speed to ensure adhesion | |||
#Longer print time | |||
#Dry your filament before use with a filament dryer | |||
#Autoleveling the print bed | |||
#Dual extruder (use different material on outside vs inside) | |||
#Self cleaning hot end/extruder | |||
#Adjust hot end temperature | |||
#Add heated bed | |||
#Adjust heated bed temperature | |||
#Use different type of filament | |||
#Use higher quality filament (spend more $) | |||
#Longer calibration procedure | |||
#Have less mobile limit switches | |||
#Auto-calibration procedures | |||
#Ensure even cooling rates | |||
#Create your own filament | |||
#Monitor thermal map of print in real time to ensure even cooling | |||
#Use a single use print bed for perfect adhesion | |||
#Use a skirt rather than a brim or raft on part | |||
#Limit post-processing procedures | |||
#Print in 0 gravity | |||
#Have print auto-clear off bed and restart if a failure is detected | |||
#Continuous printing with assembly line-like process | |||
#Laser leveling as the print is being produced | |||
#Laser leveling in general | |||
Daniel Donovan (talk) 15:18, 3 December 2019 (UTC) | |||
#Faster feeder motor | |||
#Increased reliable hot end effector | |||
#Clean out hot end | |||
#Automate nozzle clean out section | |||
#Preprocess plastic before entering printer (UV Light, pre heat, clean) | |||
#Create a vacumn for printing | |||
[[User:Existential-Crisis|Existential-Crisis]] ([[User talk:Existential-Crisis|talk]]) 10:26, 3 December 2019 (PST) | |||
[[User:Will Omberg|Will Omberg]] ([[User talk:Will Omberg|talk]]) | |||
#Recycling HDPE | |||
#Recycling PET | |||
#Nanobots that can re-purpose materials on an atomic level | |||
#Fission Chambers | |||
#Maintenance Nanobots | |||
#AI that can optimize the prints via machine learning | |||
#Hive mind of machines that cooperate | |||
#Printer with a variable print volume | |||
#Variable print bed geometry in 3D space to support prints | |||
#Having billions of nanobots to "assume" the shape of the print |
Revision as of 15:34, 3 December 2019
Azw (talk) 07:19, 1 December 2015 (PST) Djchopp (talk) 07:19, 1 December 2015 (PST)
- adjust print settings for specified areas of object for tighter tolerances
- increase variance on some print parameters (temperature) to allow some areas to be printed faster than others.
- use lower quality materials in don't care areas of parts
- change control parameter to pressure instead of temperature for different extrusion materials in different parts of object
- include only high quality parts where precision is important, else use crap quality
- map print bed to account for non uniformity in print surface.
- add guards around some mechanical areas of printer to prevent entanglement, leave others exposed to allow open movement.
- change frame material from high quality wood to low quality trash as it isn't mechanically important
- multiple print heads that are automatically changeable for quality where its needed
- use multiple print heads of varying quality in parallel
- alert user when printing difficult sections so it can be closely monitored
- use feedback to alter print speed based on head resistance
- control environment quality around print head but leave print enclosure at ambient
- allow for localization of thermal control for print bed to conserve energy and allow for better release
- include high precision components for bed leveling, cut costs in other locations
- change infill for unimportant areas of print to cut material usage
- cool filament before it enters extruder
- bigger, sharper teeth on drive gear to allow more filament force
- self cleaning drive gear
- control environment filament is stored in when it is in use
- flash cool filament after it is extruded
- add sacrificial edge to aid in print removal
- use subtractive manufacturing where tight tolerances needed.
- auto switch filaments to use waste or recycled plastic for infill and new plastic for outer shells
- reversable print bed for multiple materials
Cjthormodson (talk) 07:04, 4 December 2018 (PST)
- Purchase an all metal hot end to better control the temperature of the filament.
- Create filament with a better tolerance
- Be able to print at the micro scale for layer heights to enhance the surface finish and allow for better tolerances to be met on the prints
- Redesign the 3D printed parts of the printer
- Constant auto bed leveling if the bed is warped
- Develop a better support method
- Allow for more materials to be printed to enhance material properties
- Control filament environment to reduce humidity and other things
- Control printer environment to to prevent swings in temperature.
- Build a bed that prevents peeling of parts
- Smaller extruder nozzle to enhance quality
- Larger drive motor for more consistent filament flow
- Self cleaning hotend
- Make a hotend that never plugs up
- Improve cooling on small parts to prevent melting
- Better stepper motors for more precise movements
- Better frames to prevent Z wobble
- Auto stop if failed print is detected
- Remote monitoring of the printer so the user can watch it print from phone or tablet
- Have the printer be controlled remotely
- Multiple extruders with different diameter nozzles for more detailed printing
- Multiple extruders for different materials
- Faster cooling on the material after extruded.
- Prevent shrinking until after the part in completed.
- Different priced materials for different sections of a print. Ex. 1 for low quality and 1 for high quality
JBailey (talk) 07:27, 4 December 2018 (PST)
- nozzle temperature gradient per layer height so there are variations in print color (wood filament)
- attachment to print head that could pre-loosen prints from bed
- attachment to bed that forces flexion to easily remove print
- attachment to print head to auto-clean print bed
- enclosure with air filtering to remove any toxins released when printing
- dual extruder so one filament can be high quality and the other can b low quality (infill)
- create filament that cleans nozzle as it is used
- add lens and laser to add etches/features in walls
Houcke (talk) 10:11 3 December 2019 (EST) Rsimpson (talk) 10:11 3 December 2019 (EST)
- Slow first layer speed to ensure adhesion
- Longer print time
- Dry your filament before use with a filament dryer
- Autoleveling the print bed
- Dual extruder (use different material on outside vs inside)
- Self cleaning hot end/extruder
- Adjust hot end temperature
- Add heated bed
- Adjust heated bed temperature
- Use different type of filament
- Use higher quality filament (spend more $)
- Longer calibration procedure
- Have less mobile limit switches
- Auto-calibration procedures
- Ensure even cooling rates
- Create your own filament
- Monitor thermal map of print in real time to ensure even cooling
- Use a single use print bed for perfect adhesion
- Use a skirt rather than a brim or raft on part
- Limit post-processing procedures
- Print in 0 gravity
- Have print auto-clear off bed and restart if a failure is detected
- Continuous printing with assembly line-like process
- Laser leveling as the print is being produced
- Laser leveling in general
Daniel Donovan (talk) 15:18, 3 December 2019 (UTC)
- Faster feeder motor
- Increased reliable hot end effector
- Clean out hot end
- Automate nozzle clean out section
- Preprocess plastic before entering printer (UV Light, pre heat, clean)
- Create a vacumn for printing
Existential-Crisis (talk) 10:26, 3 December 2019 (PST) Will Omberg (talk)
- Recycling HDPE
- Recycling PET
- Nanobots that can re-purpose materials on an atomic level
- Fission Chambers
- Maintenance Nanobots
- AI that can optimize the prints via machine learning
- Hive mind of machines that cooperate
- Printer with a variable print volume
- Variable print bed geometry in 3D space to support prints
- Having billions of nanobots to "assume" the shape of the print