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Review GratKit Upgraded ABS-Like 3D Printer Resin, High Toughness 405nm UV Curing Resin, Scratch Resistant and Compatible with SLA, LCD and DLP Printers for Industrial Parts Printing – 1000g, Gray

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Details: GratKit Upgraded ABS-Like 3D Printer Resin, High Toughness 405nm UV Curing Resin, Scratch Resistant and Compatible with SLA, LCD and DLP Printers for Industrial Parts Printing – 1000g, Gray

Brand: GratKit

review GratKit Upgraded ABS-Like 3D Printer Resin, High Toughness 405nm UV Curing Resin, Scratch Resistant and Compatible with SLA, LCD and DLP Printers for Industrial Parts Printing - 1000g, Gray

Tech Specs: Liquid Resin: Type: ABS-Like 3D printing resin Viscosity: 350~650mPa·s (NDJ-8S viscosity meter (25℃ )) Density: 1.05~1.25g/cm3 (Density meter (25℃)) Curing Wave Length: 385~410nm (405nm Recommend) Net weight: 1kg Suggested Printing Settings: Bottom Exposure Time: 25~30s Exposure Time: 2.5~3.5s Bottom Lifting Distance: 6mm Lifting Distance: 6mm Bottom Lifting Speed: 60mm/min Lifting Speed: 80mm/min Retracting Speed: 150mm/min Tech Specs for Printed ASTM Sample: Sample Printing Temperature: 23±2℃ Sample Printing Humidity: 50%RH±5%RH Sample Standard: ASTM Sample Post Curing: Putting sample in water and post cure under 200mw/㎠ 405nm UV light for 1 minute each side. Printed Sample Tech Specs Maximum Force (KGF): 162.76±10% Tensile Strength: 38.36MPa±10% Deformation of the Maximum Force Point: 6.80mm±10% Yield-Point Elongation Rate: 7.22% Elongation-at-Break: 35.44% Maximum Bending Strength: 44.15MPa±10% Curved Elastic Modulus: 979.24MPa±10% Shore Hardness: 80-88D Impact Strength: 454.37J/m±10% Tensile Modulus: 447.12MPa±10%

check price GratKit Upgraded ABS-Like 3D Printer Resin, High Toughness 405nm UV Curing Resin, Scratch Resistant and Compatible with SLA, LCD and DLP Printers for Industrial Parts Printing - 1000g, Gray

Advantages

  • Products can be returned
  • Make sure this fits by entering your model number.
  • 【High Rigidness and Non-Brittle】GratKit Upgraded ABS-like 3D printer resin is ideal for industrial parts printing. With its high rigidness, long durability and non-brittle factors, it is ideal for Industrial 3D Printing for Production Parts;
  • 【Strong Impact Resistance and Scratch Resistant】GratKit 3D printing resin is Suitable for Mechanical industrial Parts due to its strong Impact Resistance and Scratch Resistant Properties;
  • 【High Precision and Sharp Details】GratKit high precision resin is designed to compatible with 8K resin 3D printers for sharp details at high precision. It is great for printing rich detailed desktop models.
  • 【Upgraded Bottle Design】GratKit 3D Printer Resin is packed in Impact resistant bottles with leak-proof AL foil, self-designed seal breaker on Lid and anti-slip design on Bottle.

Notice

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

review GratKit Upgraded ABS-Like 3D Printer Resin, High Toughness 405nm UV Curing Resin, Scratch Resistant and Compatible with SLA, LCD and DLP Printers for Industrial Parts Printing - 1000g, Gray

review GratKit Upgraded ABS-Like 3D Printer Resin, High Toughness 405nm UV Curing Resin, Scratch Resistant and Compatible with SLA, LCD and DLP Printers for Industrial Parts Printing - 1000g, Gray

Buyer Guide 3D Printers

If you’re looking to buy a 3D Printer, read on. The following buying guide gives all the information you need to make a sound choice.

  • The 3 main printer types are desktop 3D printers, industrial 3D printers, and fused deposition modeling (FDM) printers.
  • Desktop 3D printers are cheap, easy to use, and quite affordable. They work well for small projects and are a great choice for home use.
  • Industrial 3D printers are versatile, reliable, and can handle larger heavier materials. They’re also the most expensive 3D printers.
  • FDM printers are the least expensive 3D printers. They’re best suited for hobbyists, students, and classrooms.
  • Most 3D printers are 3D scanners. You can use these devices to scan your ideas, objects, or designs, and then print them.
  • Printers have four main parts: the print bed, the extruder, the nozzle, and the motor.
  • Printers come in two main types: fused filament fabrication (FFF) and fused deposition modeling (FDM). FFF 3D printers use spools of filaments (plastic), while FDM 3D printers use thermoplastic (plastic) powder.

How to choose 3D Printers

 Although 3D printers may be new to you, they’re actually already very commonplace.

  • 3D Printers can take many forms. The most commonly used types of 3D printers are desktop printers, which are relatively small, and Industrial printers, which are larger and more powerful. Desktop 3D printers are less expensive and easier to use, but Industrial printers are generally sturdier and can take on larger jobs.
  • 3D Printers use a variety of materials to print. The most common type of 3D printer uses plastic filament, which can be molded into a variety of shapes. Filament comes in a variety of colors and can be used to make a variety of objects, including smartphone cases, laptop cases, and toys.
  •  3D Printers can be used for any purpose. Whether you want to make sculptures, furniture, or parts for your own do-it-yourself projects, 3D printers can help you create any 3D object you have in mind.
  •  3D Printers are not a magic bullet. As with any new technology, 3D printers have pros and cons. While 3D printers are less expensive and easier to use than traditional manufacturing, they require special CAD software, which can cost thousands of dollars. 3D printers also don’t offer the same range of materials, and can’t create as many complex shapes as traditional manufacturing.
  •  3D printers have advantages. If you’re short on time or money, 3D printers can be a great solution, especially for small projects or limited budgets. 3D printing is also useful for prototyping and can help you quickly create and sell your own products.

 

How to maintain 3D Printers

3D printing is a remarkable way to create complex, functional objects. However, 3D printing is also incredibly time-consuming, complicated, and expensive.

Because of this, many 3D printers require regular maintenance. For instance, most 3D printers have a nozzle, which can get clogged with debris over time.

These clogs can slow down your prints, cause jams and errors, and ruin the quality of your 3D creations.

There are countless tutorials and guides on how to unclog a 3D printer’s nozzle. However, many of these guides require expensive replacement parts or professional equipment.

Luckily, there are several ways to clean your 3D printer’s nozzle without purchasing expensive replacement parts. Some of the most common ways to clean a 3D printer’s nozzle are:

  • Cleaning the nozzle with alcohol.
  • Cleaning the nozzle with dish soap.
  • Installing a UV lamp.
  • Cleaning the nozzle with a toothbrush.
  • Using a rotating brush.
  • Using compressed air to blow away debris.