Comgrow T500, the only fast Klipper firmware 3D printer with a 500mm cube print volume, linear rails

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welcome back to Aurora Tech Channel

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today I will be reviewing a huge machine

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the Congo t500

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this is a final prototype from com girl

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and the retail version may have some

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minor changes but I will just base my

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review on my personal first-hand

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experience with the machine that I

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received

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many of you may not have heard of

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comgrow they are one of creality's

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resellers who have been selling

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thousands of creality printers on Amazon

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for many years

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previously I reviewed their laser

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engraver the Z1 and the mini desktop CNC

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the t500 is their first 3D printer and

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it's an interesting choice to start with

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something at this size but let's take a

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look at what you can get from the t500

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as the same suggests the printed volume

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of this large bed Slinger is a 500

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millimeter Cube which is bigger than

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anything I have reviewed before

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the total way of the machine is over 80

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pounds

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the motion system uses modular linear

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rails on the x dual Y and dual Z axes

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there are two brackets made of solid

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aluminum at the back to enhance the

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rigidity of the tall gantry

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the print surface is a spring steel

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sticker sheet and a meanwhile 600 watt

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PSU is used to heat up the huge bed

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the machine runs Clipper and it uses a 7

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inch touch pad that's pretty similar to

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a Sonic PAD as its touch screen

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the Linux OS and Clipper are actually

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installed on the pad

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the 32-bit motherboard is used to

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connect the stepper Motors limit

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switches and the print head while all

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the processing is handled by the 7-inch

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pad

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the hardware of the pad isn't specified

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on their product page but as it's from

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maker base I believe it's a megabase 7

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inch pad that runs on a quad core cortex

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a53 processor with one gigabyte RAM and

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8 gigabytes emmc which is pretty

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standard configuration for a Clipper pad

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there is a six and a half to one ratio

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dual gear direct extruder and although

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the heater block is a volcano style one

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it's using a non-volcano style nozzle

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it comes with three extra hardened steel

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nozzles sized at 0.4 0.6 and 0.8

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millimeters for other small details the

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belt tension can be adjusted using a hex

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wrench on every linear module and the

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filament roller is all metal with an

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adjustable screw to control the

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smoothness of the bearing inside

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with all these Hardware components this

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machine is priced at around 900 I would

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like to thank Conger for sending us this

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machine to review but before we get

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started I would also like to thank voxel

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pla for sponsoring today's video

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voxel pla is a brand created by a print

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Farm in Southern California where they

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exclusively use their own filament with

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over 150 3D printers that are operated

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24 7 non-stop this extensive testing

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leads to high quality and reliability in

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their filaments

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voxel pla Pro is a modified version of

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pla that provides higher impact strength

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and supports high-speed printing of up

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to 500 millimeters per second while

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maintaining a flow rate of up to 25

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millimeters Cube per second at a regular

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printing temperature of 210 degrees

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Celsius

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voxel pla Pro is also affordable at just

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16.99 for a one kilogram roll ordering

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three rolls comes with free shipping and

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bulk discounts are available starting

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from six rolls

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they have recently launched new filament

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colors as well as the vision enclosure

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kit that includes all the necessary

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parts to fully enclose your bamboo lab

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p1p for more information please visit

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voxelpla.com

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the machine comes with a large box that

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weighs almost 90 pounds

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all the parts are well protected by

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laser cut foam and even though the

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machine is huge the components are

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pretty simple

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it's a typical bed Slinger but

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everything is just bigger

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we have a fully assembled base with dual

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y-axis modular linear rails the Gantry

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with the Dual z-axis the x-axis and the

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print head

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there are also two brackets to reinforce

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the Gantry a 7 inch Clipper pad the

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screen Mount filament holder power cord

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a tool box user manual and a roll of

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sample filament

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like all other bad singers you just put

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the Gantry on the base

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the good thing is the screws were

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tightened from the top so you don't have

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to flip this heavy printer and tighten

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them from the bottom

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put the brackets at the back to

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reinforce the Gantry Mount the spool

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holder on top and not the screen bracket

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on the right side

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when I compare the screen to a regular

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4.3 inch touchscreen it looks huge but

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it doesn't seem all that big on this

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t500

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there's also ribbon cable with a cable

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chain so we just need to put it on top

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of the Gantry and connect some cables

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including the print head x-axis motor

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and limit switch the Dual C access

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Motors and two cables for the screen

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finally flip to your local voltage with

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the power supply at the back

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let's turn on the machine

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I'm happy to see this standard Clipper

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screen personally I prefer this more

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than any self-developed UI by different

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manufacturers

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I will start with auto home to make sure

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the stepper Motors limit switches and

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the inductive bet Leveling Sensor all

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working

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then go to the leveling menu Z calibrate

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means the offset and Clipper Z tilt

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means Gantry leveling and bed mesh Means

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Auto leveling

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I will start by setting the Z offset

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with a paper test

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as there is no leveling knob underneath

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the bed and we don't have to adjust the

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bed corners

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next I will let it level the gantry

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finally I will do a round of Auto bed

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leveling it's going to probe 49 points

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on the bed

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okay the setup is now done

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let's start with a simple benchy the USB

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drive comes with a skin Cura I would

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just add the Congo t500 and there are

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two of them I'm not sure which is which

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so I will just randomly pick one

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let's take a look at the print profile

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the default layer height is 0.2

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millimeters the print speed is set to

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180 millimeters per second the walls are

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being printed from 140 to 160

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millimeters per second the top and

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bottom are 100 the first layer is 40 and

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the acceleration is set to 3000 and 1000

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for the first layer

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let's take a look at the extruder the

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retraction distance is 0.5 and the speed

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is 40 millimeters per second

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so everything seems pretty reasonable

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let's slice a benchy the estimated time

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is 33 minutes I think there's no way

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that printing at 180 milbers per second

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will finish a bench in 33 minutes but

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let's connect the Moonraker plug-in and

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send the print job to the machine

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type in the machine's IP address check

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the ultimaker format thumbnail and we

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can upload it to the printer and start

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the print

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thank you

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let's do a sound test I place the meter

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a few inches away from the machine it

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stays in the low 60s in decibels and

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occasionally jumps to the mid 60s

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I will let it finish and then see the

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time and print quality

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the print finishes in 43 minutes which

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is 10 minutes longer than the estimated

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time and is more in line with my

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expectations from a 180 print speed

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the quality is pretty decent for a fast

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machine with good Cooling and just a bit

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of stringing

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however I had issues with removing the

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print from the bed and accidentally

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damaged it

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I talked to Congo about this and I will

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discuss this more later

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but for now I would just apply some glue

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to the bed to work as a release agent to

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continue my testing

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I will then print a number slider to

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test the clearance as you can see I've

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applied some glue to the bed to avoid

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causing further damage to the print

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surface

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[Music]

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foreign

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[Music]

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the print finishes in 3 hours and 17

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minutes which is almost an hour over the

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estimated time there is some stringing

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and using this clear color for the

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number slider the numbers are hard to

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see however the clearance is good so the

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slider is very smooth

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then I will test the retraction of the

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extruder by printing my honeycomb box

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which is Tiny patterns on all sides

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foreign

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[Music]

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[Music]

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than I would prefer but all of the

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patterns were printed successfully

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let's do a comparison to other New

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Generation machines it's not the best or

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the worst I would say it's a pretty

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average print compared to all other

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machines

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next I will print the robot alpaca from

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perusa and compare its print quality

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with other machines

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[Music]

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foreign

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[Music]

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[Music]

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it took 5 hours and 48 minutes which is

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way longer than the estimated time from

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the slicer let's do a comparison to

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other New Generation machines

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When comparing it to the ender3v3se

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which also printed this model at 180

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millimeters per second the print speeds

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are pretty much the same but the print

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quality on this t500 is better

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compared to the fastest machine that has

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printed this model so far which is that

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any cubic Cobra 2 the Cobra 2 offers

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better quality and print speed in

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comparison to the creality K1 the print

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quality is similar but the K1 is faster

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in comparison to the bamboo lab p1p the

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p1p provides better print quality and

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faster speed

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lastly when compared to the Anchor make

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m5c the print quality of the anchor make

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is slightly better but the t500 is

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faster

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I will then switch to a 0.8 millimeter

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nozzle to print a large lampshade

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the height of the lampshade reaches the

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machine's maximum at 500 millimeters

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since the maximum flow rate of this hot

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end is approximately 30 millimeters Cube

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per second when converted to a 0.8

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millimeter nozzle it reaches about 58

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and a half millimeters per second

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so I will set the print speed to 50

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millimeters per second and the first

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layer is now printing at 25 millimeters

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per second

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the print starts at 25 millimeters per

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second for the first layer and it has no

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issues

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once it starts to print the wall it

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speeds up to 50 millimeters per second

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which also looks fine

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however I can see some overhanging at

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the lower half of these squares having a

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minor cooling issue

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the top half of these squares print

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better than the lower half

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I will try to slow it down to 50 of the

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speed at 25 millimeters per second and

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see if there is any difference

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the clarity of the filament does look

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better when printing slower but it seems

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the top half is still better than the

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lower half and slowing it down doesn't

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make a huge difference

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anyways I do like the clarity when

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printing at a slower speed and it would

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also be better as a lampshade

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so I will just print at a slower speed

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and let it finish

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okay it appears that both the extruder

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and hot end can maintain a 50

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milliliters per second speed as I didn't

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see any under Extrusion issues on a

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print speed of either 25 or 50 movements

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per second

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but the bottom half of the squares still

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shows some minor cooling issues on the

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overhanging part

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the print took 12 and a half hours to

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finish which is way longer than the

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estimated time since I slowed it down to

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25 millimeters per second

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despite some cooling issues on the

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bottom half of the squares the lampshade

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still looks cool and I'm quite happy

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with this print

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then I will print a kitchen towel hanger

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using petg since the maximum temperature

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of this machine only reaches up to 80

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degrees Celsius

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[Music]

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[Music]

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okay

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[Music]

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people

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[Music]

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the print finished in one hour and 35

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minutes displaying typical petg

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characteristics with minimal stringing

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it is fully functional and I have no

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complaints

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next I will print a TPU wallet I will

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set the print speed to 50 millimeters

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per second for everything including the

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first layer and walls

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foreign

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[Music]

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[Music]

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[Music]

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this six and a half to one dual gear

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direct extruder also handled it very

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well and the Extrusion was perfect

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finally I will print with some nylon

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carbon fiber I had stored a few rolls of

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nylon and nylon combination filaments in

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the new sunloo S4 filament dryer in

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storage mode before using them I also

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heated them at 70 degrees Celsius for

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another hour to ensure that the pacf was

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in good condition

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[Music]

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thank you

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[Music]

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the result is very nice the layers look

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good and the print is fully functional

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so for nylon carbon fiber if the

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filament is dry enough you really don't

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need anything fancy

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any machine with a hardened steel nozzle

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at 260 to 270 degrees Celsius works just

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fine

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let's talk about the pros and cons of

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this printer starting with the pros

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one the motion system is excellent it

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uses module linear rails on the X do a y

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and dual Z axis making it almost as good

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as a 3000 snapmaker Artisan in terms of

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the motion system

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two the frame is super rigid there are

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no issues even with this huge 500 by 500

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print bed swinging back and forth and

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the 500 millimeter tall guarantee is

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also sturdy

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three the z-axis is supported by dual Z

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modules with two independent stepper

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drivers so Clipper can use the inductive

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fat Leveling Sensor to level the gantry

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there are two manual knobs at the top

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when the machine is off you can still

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manually move the Gantry up and down for

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nozzle changing or other maintenance

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4. the print speed is fairly Fast

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Printing at 180 millimeters per second

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with a 3 000 millimeters per second

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squared acceleration at a 0.2 millimeter

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layer height

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printing a standard quality 0.2

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millimeter layer height Banshee in 43

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minutes is reasonable considering this

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large bed Slinger can't move as fast as

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a small printer

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five the print quality is decent it

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passes all the tests including clearance

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and retraction

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for decorative prints like the robo

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alpaca the result is in line with other

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latest generation machines

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six

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the firmware uses open source Clipper

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and the screen is a standard Clipper

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screen

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you can have SSH and root access using

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the default makerbase Pi login and

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password

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for the web interface it also uses

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standard fluid

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this decision is actually smarter than

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what some other manufacturers choose by

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trying to modify Clipper firmware or

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create their own touchscreen UI and

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framing it as their own self-developed

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system this often ends up with buggy

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firmware a bad UI and it overall ruins

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the user experience

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7. the print bed is big but it can still

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heat up within a reasonable time frame

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the machine comes with a 600 watt

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meanwhile power supply

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heating from room temperature of about

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25 degrees Celsius to 50 degrees Celsius

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requires around four and a half minutes

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heating to 60 degrees Celsius requires 7

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Minutes 70 degrees Celsius requires 10

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minutes and 80 degrees Celsius requires

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16 minutes

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the temperature difference from the

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center to the edges is around 7 to 13

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degrees which is acceptable for a bed of

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this size

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8. the filament holder has a bearing and

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a screw for adjusting smoothness it can

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feed the filament smoothly without

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causing it to roll back and create

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filament tangles

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now for the cons one the main issue I've

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encountered with this printer is related

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to the print surface it sticks too well

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to PLA and the adhesive used to attach

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the print surface of the steel sheet is

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pretty weak as a result the print

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surface attaches from the steel sheet

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and tears or peels off when a print is

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being removed however after glue is

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applied the printer works perfectly fine

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two the nozzle's maximum temperature is

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300 degrees Celsius but the maximum bed

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temperature is 80 degrees Celsius you

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won't be able to print ABS ASA or

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polycarbonate as these materials

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typically require a heated by

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temperature of 100 degrees Celsius or

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higher

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three the cooling is sufficient when

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printing with a 0.4 millimeter nozzle

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but when using a 0.8 millimeter nozzle

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the extruder is pushing out much more

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filament

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printing at 50 Motors per second with a

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0.88 millimeter line width and a 0.64

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millimeter layer height results in a

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flow rate of close to the hot end limit

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of 30 millimeters Q per second both the

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hotend and extruder can keep up but the

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overhanging on the bottom half of the

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square is not as good as the top half

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this is mainly due to insufficient

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Cooling and this was confirmed when I

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slowed down the print to 50 of the

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original speed and still saw no

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improvement

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4. the location of the filament sensor

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could be improved it would be better if

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it were integrated into the print head

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currently it's positioned one to two

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inches above the print head which can be

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kind of obstructive when feeding in

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filament

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5. the input shaper was pre-calibrated

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in the factory and I didn't recalibrate

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it as my FL Sun V 400 machine has also

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been using pre-calibrated values for a

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year and hasn't encountered any issues

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it seems that this t500 is a similar

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case but when you need to attach an

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accelerometer you still need to use

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screws and attach it to the print head

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using can bus with one single cable and

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integrating the accelerometer into print

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head like many other New Generation

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machines would be a better option

20:52

six

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since the machine I received is still a

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prototype there are some quality control

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issues for example two of the screw

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threads were defective and the heat

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cartridge cable was disconnected when

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the machine arrived so at first the

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nozzle couldn't heat up

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when I open the printhead cover for

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inspection I found that the heat

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cartridge cable had come loose even

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though hot glue had been applied

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this issue was mainly caused by the

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cable being too short and the zip tie

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being too tight causing it to pull on

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the cable and detach the connector

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in conclusion the harbor of this printer

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is solid it uses modular linear rails on

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all axes and it's very uncommon to see

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this kind of motion system on a 3D

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printer

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I've only encountered a similar motion

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system on another three thousand dollar

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Machinery reviewed the snapmaker Artisan

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while the small details on the snapmaker

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are better the actual cost of living

21:44

your modules for both machines are

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similar

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considering that the t500 is priced at

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around 900 with this motion system seven

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inch Clipper pad and 600 watt meanwhile

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power supply the hardware itself is well

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worth the price the print speed and

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print quality are satisfactory and the

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print volume is enormous so I would say

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this machine has a lot of potential and

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the overall value is also pretty good

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quality issues I saw were reported to

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comgrow and they assured me that they

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have addressed them and will conduct

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detailed inspections during large scale

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production regarding the print surface

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they explained that the one on my

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testing machine was manually glued and

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attached but for large scale production

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all of them will be processed by

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machines producing more consistent

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results

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as I haven't had the chance to evaluate

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a final large batch production version

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of the t500 I can't confidently place

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this machine on my recommendation list

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just yet

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currently only seven out of 100 machines

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I've tested have made it to my list of

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recommendations on auroratechannel.com

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if I find that their large batch

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production has addressed all the quality

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issues I will definitely consider adding

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it to my list in any case I've put a

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link to the Concord t500 in the video

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description

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that's it for today's video if you found

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it useful please hit the like button and

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consider subscribing to our Channel

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thank you for watching and I will see

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you next time