Web Analytics

Review Superflex has Balanced Softness with Strength(Shore 80A) Simulating Rubber for Flexible Prototypes, Made in Korea by 3DMaterials (5000g)

Page Contents

Details: Superflex has Balanced Softness with Strength(Shore 80A) Simulating Rubber for Flexible Prototypes, Made in Korea by 3DMaterials (5000g)

Brand: 3DMaterials

review Superflex has Balanced Softness with Strength(Shore 80A) Simulating Rubber for Flexible Prototypes, Made in Korea by 3DMaterials (5000g)

[Fast Printing] Unique photosensitization technology developed by 3DMaterials allow for curing 50um layer in 1.7 sec with monochrome LCD (compatible for Anycubic Mono, Mono X) and in 4.5 sec with Regular LCD (compatible for Phrozen, ELEGOO, LONGER, Voxelab). [Balanced Softness & Strength] SuperFlex has balanced softness with strength to simulate rubber or TPU for hard flexible prototypes. [80A Shore Hardness] SuperFlex has 80A Shore durometer and 150% elongation at break well-suited for cushioning, damping and shock absorption. [Bio-Compatibility] Post-processed and cured SuperFlex has passed Cytotoxicity test ISO 10993-5:2009 (Biological evaluation of medical devices). Good cleaning and proper post-curing is very important to achieve bio-compatibility (see the details below). [Low Viscosity for Precision 8K Printing] SuperFlex is optimized for 4K & 8K LCD system. Its’ very low viscosity allow for extremely high-resolution 3D printing of objects at high speed with 22um resolution. [Compatible to All LCD Printers] Unique photosensitization technology make SuperFlex compatible for all printers from ANYCUBIC, Creality, Phrozen, Pruda, QIDI, ELEGOO, LONGER, NOVA, Voxelab and all kind of regular and mono LCD 3D printers. [Environmentally Friendly] All 3DMaterials Standard Resins are certified and compliant with most of environmental safety rules and compliance worldwide including RoHS, EPA Method 610, California Proposition 65 – Phthalates Content. [Low Shrinkage] SuperFlex is formulated for 3D printer using LCD panel with low shrinkage oligomers synthesized in-house and monomers enhancing dimensional stability after post-curing. [Super Series] SuperPP (Tough and Durable Like PP), SuperPCS (Tough and Durable with Precision), SuperFlex (Flexible Like TPU), SuperRigid (Glass Filled 6.0GPa Modulus), SuperElastic (Flexible Like Silicone)

check price Superflex has Balanced Softness with Strength(Shore 80A) Simulating Rubber for Flexible Prototypes, Made in Korea by 3DMaterials (5000g)

Advantages

  • Products can be returned
  • Make sure this fits by entering your model number.
  • 【Fast Printing】 Anycubic Mono, Mono X and Phrozen print 50um layer in 1.7 second.
  • 【Balanced Softness & Strength】 SuperFlex has balanced softness with strength to simulate rubber or TPU for hard flexible prototypes.
  • 【Bio-Compatible】 Post-processed and cured SuperFlex print passed ISO-10993-5 Cytotoxicity test
  • 【8K Precision】 Extremely low viscosity allow for high-resolution 8K 3D printing of objects at high speed with 22um resolution.

Notice

  • Is an online purchase
  • Delivery may be delayed in some areas.

review Superflex has Balanced Softness with Strength(Shore 80A) Simulating Rubber for Flexible Prototypes, Made in Korea by 3DMaterials (5000g)

review Superflex has Balanced Softness with Strength(Shore 80A) Simulating Rubber for Flexible Prototypes, Made in Korea by 3DMaterials (5000g)

Buyer Guide 3D Printing Supplies

 Before purchasing your 3D printer, it’s important to know what to look for.

  • Consider your intended use. Will you be using a 3D printer for prototyping, making jigs, or making toys?
  • Consider your skill level. The printer you buy should be easy enough to operate.
  • Consider your printing requirements. Are you working with a CAD file that needs support or has overhangs?
  • Consider the material. Will your printer be able to print in ABS, PLA, nylon, or glass-filled nylon?
  • Consider the build volume. Will your printer be able to print in larger parts or in thinner layers?
  • Check the warranty.

How to choose 3D Printing Supplies

 When shopping for 3D printing supplies, it’s important to keep in mind a few key factors:

  • What kind of plastic do you want? Deciding what kind of plastic you want your plastic to be printed with can have a huge impact on the price of the product.
  • What type of print do you want? The number of layers, speed, and other features offered on your printer will likely influence what kind of plastic you choose.
  • How big is the print? The size of the print will also impact the price of the product since larger prints require more materials.
  • What type of printer do you have? When shopping online for 3D printing supplies, you will need to consider the type of printer you have.
  •  What type of material do you need? The type of material you choose will also play a major role in determining how much your printing will cost.

How to maintain 3D Printing Supplies

 3D printing is a new technology that is changing the way people create and engineer new products.

  • To clean the filament, use soap and water to wet your filament, then wipe it dry with a paper towel.
  • To clean the nozzles, wipe them with a damp rag.
  • To clean the build plate, wipe it with a clean, lint-free cloth.
  • To clean the extruder, use compressed air.
  • To clean the build plate, first, remove any building material or part from the plate. Then, use a paper towel or paper towel moistened with rubbing alcohol to wipe off the build plate.
  • To clean the extruder, first, unplug the extruder from the 3D printer. Then, moisten a paper towel or paper towel with rubbing alcohol and wipe down the extruder.
  • To clean the 3D printer, use compressed air to blow loose dust out of the printer.
  • To clean the filament, use compressed air to blow loose dust out of the filament.
  • To clean the nozzle, use compressed air to blow loose dust out of the nozzle.
  • To clean the build plate, use compressed air to blow loose dust out of the build plate.
  • To clean the extruder, use compressed air to blow loose dust out of the extruder.
  • To clean the filament, unplug the extruder from the 3D printer and use compressed air to blow loose dust out of the filament.
  • To clean the nozzle, unplug the nozzle from the 3D printer and use compressed air to blow loose dust out of the nozzle.