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Taulman 645 Nylon 3D Printer Filament - 2.85mm / 1LB

Taulman 645 Nylon 3D Printer Filament - 2.85mm / 1LB

$49.95
Features of taulman 645 3D Printing material
  • Very High Strength - Expected Tensile Strength, Yield = 16,533 psi
  • Extreme Durability - Expected Elongation at Break =120 %
  • Excellent Bridging performance
  • Advanced Chemical Resistance
  • 1:1 nozzle dia to layer height capability at design strength
  • Superior Surface Texture
  • Color by dyes
  • Visual Non destructive evaluation
  • Designed to be clear and optically correct
645 Nylon Co-Polymer consists of the purest form of a delta transition of Nylon 6/9, Nylon 6 and Nylon 6T with a crystallinity optimization process in addition to post processing for maximum bonding during a thermal transition (3D Printing). Optically Correct for a cylindrical extruded thread - cylindrical threads have zero DOF (Depth-of-field) and will disperse light rays in all directions with a point source light (Laser).
  • NOTE: Current 645 measures 1.76mm to 1.83mm dia in a slightly oval shape due to the draw and cooling process.  The line cross-section is constant, however users should make a slight adjustment to their "Material Dia" (1.78mm - 1.80mm) settings to accommodate this slight variance.
  • Layer Height = Any
  • Speed - 645 has a slightly higher viscosity than other printing materials.  As the layer height exceeds 50% of the nozzle dia, printing speed should be adjusted downward ~10% - 20%
  • Retraction - again, due to a slightly higher viscosity, the retraction distance may need to be lengthened.
  • Excessive bubbles in the printed thread are an indication of a higher than required print temperature.
  • Reducing Print temperature below 238 will result in less thread opacity due to recombination with the atmosphere, however this will also reduce bonding in layers exceeding 25% of nozzle dia.
  • Shrinkage is equal to ABS and can be controlled using garolite (LE) as a print table cover/plate
  • Heated beds help just as they do for printing with ABS
  • Printing a larger amount of material for the first layer of a print on garolite will make the printed part extremely difficult to remove.
  • While printing with a higher infill percentage will make a stronger part, it is probably not required.  When we exceed 50% fill, it no longer provides any noticeable benefits other than optical.
Construction = From granule form through nylon extruding systems to a 12 station extrusion to draw, 4 chiller loops with 2 post processing stations to a final draw of 3mm or 1.75mm round line.

645 Nylon 3D Printer Filament
We provided Ben Malouf an early spool of taulman 645 for artistic evaluation - Very Cool!!
  • Processing base purity = maximum available with current base chemistry.
  • Processing additives = none
  • Color additives = none
  • UV inhibitor additives = none _ reduced susceptibility based on optical clarity/reflection.
  • Flame Retardant additives = none
  • Expected Tensile Strength, Yield = 16,533 psi
  • Expected Elongation at Break =120 %
  • Melt temperature = 194C
  • Print Temperature = 230C _ 265C
  • Pyrolysis Temperature = 330C
  • Color = none
  • Crystallinity optimization = maximum allowable to a 50% tear/ 50% break (when printed)
  • Expected Optical Properties = true reflective, true absorption, optically correct for cylindrical thread/line.
  • Expected Opacity = <5% - currently unmeasured

Physical Properties        Metric                        English                    Comments
Density                            ********                       *********                    ISO 1183-A
Water Absorption                  *******           *************                      ISO METHOD 62
 
Mechanical Properties    Metric                       English                   Comments
Tensile Strength, Yield     ***********               ***********               ISO METHOD 527
Elongation at Break          ***********               ***********             ISO METHOD 527
Flexural Modulus                 **********           *********                    ISO METHOD 178
Flexural Yield Strength     ***********              ***********                ISO METHOD 178
Izod Impact, Notched        *************             ************           ISO METHOD 180
 
Thermal Properties        Metric                        English                    Comments
Melting Point                        194 C                      381 F                     ISO METHOD 3146C
Glass Transition Temp     ******C.
Heat Deflection Temp at **** psi               ************         F      D648
 
Processing Properties    Metric                     
Print Temperature               230 - 265 C     -    Part and printer dependent.
Pyrolysis                            330 - 360 C
UV                                      There are no UV Inhibitors within 645 as they reduce bonding

Safety                                 645 meets the EU's "REACH" requirements as defined by the ECHA European Chemicals                                                     Agency.  There are NO additives or chemicals in 645 that are listed in the REACH Directive.

645 Contains NO toxic chemicals. 
As with all 3D Printing using heated polymers, Caution should be used so as NOT to come into
 contact with the molten 645 (194C+) as it will adhere to ALL cellulose surfaces, including skin.

         Again, just hit "Print"!

We have received confirmation emails from individual "users" that the following printers have had no issue printing 618 with only adding garolite, tape or wood to the print table:

  • Makerbot Replicator I
  • Makerbot Replicator II
  • Makerbot Replicator I Dual Ext
  • Makerbot Replicator II Dual Ext
  • PrintrBot
  • PrintrBot Plus
  • Ultimaker
  • TOM
  • Cupcake
  • CB Printer
  • MakeMendel
  • Rostock SeeMeCNC
  • 2BEIGH3
  • BukoBot
  • 3D Touch Dual Head
  • Mendel
  • Lulzbot
  • inDimension3
  • Mendel Max
  • Makergear
  • RepRap
  • RepRap Pro
  • Rostock
  • Cerberus
  • UP
  • Bits from Bites
  • Afinia
  • Robot Factory
  • PowerWasp
  • RoboBot

3D Printing Filament MSDS Sheets

Maker Geeks Manufacturing, Inc. is located in beautiful Springfield, MO and is one of the first and only large scale producers of 3D printer filament in the USA ....we want to make sure you have all the data you need to safely use our products. A lot of time and love go into each spool that our tradesmen make here at our plant and we hope you enjoy  and make something really cool with your new Maker Filament!!

 
   

Maker Series ABS 3D Printer Filament - MSDS (click here for PDF)

   

Maker Series PLA 3D Printer Filament - MSDS (click here for PDF)

   

Maker Series PETG 3D Printer Filament - MSDS (click here for PDF)

   

Crystal Series PLA 3D Printer Filament - MSDS (click here for PDF)

   

Crystal Series PETG 3D Printer Filament - MSDS (click here for PDF)

 


3D Printer Filament Made in the USAArtfully Crafted 3D Printer Filament Made in Beautiful Springfield, MO USA - We Have Made & Sold Over 1 Million Pounds of 3D Printer Filament & Counting! Get your share, support the movement and 3D Print American today! (click the US Flag to learn more!)

Printing taulman3D Materials:

NOTE: With the exception of our In-PLA brand PLA material, users should turn "OFF" any fans that blow on the printed part
unless it's a very small part of less than 10mm sqr. This holds especially true for any units that use a MakerB ot style of extruder and hot-end, like the MK series. Also, a major issue we see with this type of extruder is that far too much of the Extruder cooling Fan Air is blowing on the Aluminum Heater Block. We strongly urge users to ensure the Heater Block is isolated from moving air by blocking a portion of the fan, or taping off the heater block with several full wraps of Kapton Tape.

Alloy 910

  • Print temp = 245C - 250C
  • Nozzle = any size
  • Print speed = equivalent to ABS
  • Retraction = 1mm/.1mm nozzle or fop a .5mm nozzle = 5mm
  • Print bed = Hot = Glass heated to 45C with coat of PVA
  • Cold = BuildTak with coat of PVA

t-glase - all colors

  • Print temp = 238C - 245C
  • Nozzle = any size
  • Print speed = ABS speeds
  • Retraction = .5mm/.1mm nozzle or fop a .5mm nozzle = 2.5mm
  • Print bed = Hot = Glass heated to 45C with coat of PVA

Nylon 645

  • Print temp = 245C - 255C
  • Nozzle = any size
  • Print speed = 80% of ABS speeds
  • Retraction = 1mm/.1mm nozzle or fop a .5mm nozzle = 5mm
  • Print bed = Hot = Glass heated to 45C with coat of PVA

BluPrint

  • Print temp = 265C - 270C
  • Nozzle = any size
  • Print speed = ABS speeds = 50%
  • Retraction = .5mm/.1mm nozzle or fop a .5mm nozzle = 2.5mm
  • Print bed = Hot = Glass heated to 95C
  • Cold = Clean BuildTak or PEI

Nylon 618

  • Print temp = 245C - 260C
  • Nozzle = any size
  • Print speed = 80% of ABS speeds
  • Retraction = 1mm/.1mm nozzle or fop a .5mm nozzle = 5mm
  • Print bed = Hot = Glass heated to 55C with coat of 100% PVA
  • Cold = Garolite Board

Nylon Bridge

  • Print temp = 245C - 265C
  • Nozzle = any size
  • Print speed = 80% of ABS speeds
  • Retraction = 1mm/.1mm nozzle or fop a .5mm nozzle = 5mm
  • Print bed = Hot = Glass heated to 45C with coat of PVA

Nylon 230

  • Print temp = 225C - 235C
  • Nozzle = any size
  • Print speed = 80% of ABS speeds
  • Retraction = 1mm/.1mm nozzle or fop a .5mm nozzle = 5mm
  • Print bed = Hot = Glass heated to 45C with coat of PVA
  • Cold = BuildTak with coat of PVA

In-PLA brand PLA

  • Print temp = 207C - 212C
  • Nozzle = any size
  • Print speed = ABS speeds
  • Retraction = .5mm/.1mm nozzle or fop a .5mm nozzle = 2.5mm
  • Print bed = Hot = Glass heated to 70C

PCTPE

  • Print temp = 230C - 238C
  • Nozzle = any size
  • Print speed = 80% of ABS speeds
  • Retraction = 1mm/.1mm nozzle or fop a .5mm nozzle = 5mm
  • Print bed = Hot = Glass heated to 40C with coat of PVA
  • Cold = BuildTak with coat of PVA

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