MATERIAL NET WEIGHT: 1KG
Custom sizes may be available, contact us for details.
PRINT SETTINGS: SEE BELOW.
Print settings listed in the product description below.
DATA SHEETS & COFC: AVAILABLE UPON REQUEST.
Contact us to inquire about documentation availability.
PCTPE stands for "Plasticized Copolyamide TPE" or a chemical co-polymer of highly flexible nylon and TPE (thermoplastic elastomer).
PCTPE has several unique features that allow any user to print a highly flexible part with the added durability of our nylon polymers. This combination of polymers was developed specifically to allow anyone using current FFF 3D Printers to print parts from durable prosthesis to complete cosplay wearable outfits, cell phone enclosures as well as highly flexible utility/industrial parts.
The flexibility of PCTPE means that the end parts will have the smooth lustrous texture of nylon, the added flexibility offered by a rubber like TPE, yet maintain the high durability and non-delaminating benefits of all taulman3D Printing materials.
The list of features includes:
- Proven performance = Tested worldwide by the 3D Printing community - summer of 2014.
- Prints on bowdens or direct drive extruder. = From 1.75mm SeeMECNC "MAX" bowden to LULZBOT "TAZ" direct drive.
- Print temperature = 235C - 242C
- Low shrinkage = prints on glass with a 50% water/PVA glaze heated to 40C
- Super Layer to layer bonding that allows for single perimeter walls to be folded along thread axis.
- Takes on any acid based color dye (RITT) very fast = 5 min @ 140F
- Takes on acid based antimicrobial coatings for footwear and prosthetic.
- Tensile PSI = 5,043
- Modulus PSI = 10,954
- Elongation @ Break = 497%+
As some users have experienced difficulties with 1.75mm flexible materials, we have worked with our manufacturer to perform an added "draw" process. A process that actually stretches the material during the final mfg stage. This is a similar process used to make large nylon rope for cruise ship docking maintenance.
This added stretch increases the tensile properties of the raw 1.75mm and 2.85mm line such that the tendency to fold or buckle is eliminated.
Some of our testers remarked that the raw line was actually stiffer than printed parts!
This additional process allowed us to increase the percentage of TPE resulting in a material that gives the user a wide range of design flexibility based mostly on the nozzle size, number of perimeters and percentage of internal fill used during slicing.
From thin parts that wad up like thin paper to thicker shoe soles with just the right flexibility, PCTPE is an easy-to-print material meeting a long list of requirements from users.
Super layer to layer Bonding
PCTPE ensures that you do not need to use an enclosure just to get excellent layer bonding of parts from 100mm to 1,000mm+.
With PCTPE the layer bonding will allow you to print single perimeter walls and bend or fold along the printed axis without delamination or separation.
As nylon is known to be a comfortable material to the touch, we made sure that the 3D Printed texture of PCTPE was just as smooth to the touch as any wearable nylon. This lustrous texture is key to making new wearable objects that flow with body movements. In addition to the lustrous texture, the flexibility of PCTPE is more accommodating for complex wearable designs.
|235°C - 242°C
- Nozzle = any size
Print bed = Best adherence to platform is achieved by coating clean glass with PVA at 45-50°C
- Can be printed without a heated bed on a sheet of BuildTak with a coat of PVA.
- For ALL Nylon based materials, users should turn "OFF" any fans that blow on the printed part unless it's a very small part of less than 10mm sqr. = Alloy 910, 618, 645, Bridge, PCTPE, 680 and 230