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Review Creality Ender-5 S1 3D Printer 300°C High-Temperature 250 mm/s High-Speed Printing

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Details: Creality Ender-5 S1 3D Printer 300°C High-Temperature 250 mm/s High-Speed Printing

Brand: Creality

review Creality Ender-5 S1 3D Printer 300°C High-Temperature 250 mm/s High-Speed Printing

Creality Ender-5 S1 3D Printer:

check price Creality Ender-5 S1 3D Printer 300°C High-Temperature 250 mm/s High-Speed Printing

Advantages

  • Products can be returned
  • Make sure this fits by entering your model number.
  • 【250mm/s Printing Speed】:Creality Ender-5 S1 customized a 42-48 high-torque motor and steel transmission shaft at Y-axis, supports a 2000mm/s2 acceleration, which makes you reach a 250mm/s high-speed printing.
  • 【Smooth Direct Extrusion at 300℃】:”Sprite”direct extruder features bi-metal heatbreak and efficient heat dissipation, supports 1,000 hours of clog-free extrusion, wide compatible with multiple filaments, such as PLA, ABS, PVA, Wood, TPU, PETG, and PA.
  • 【Highly Stable Cube Frame】:Cube frame with Cartesian structure, enhanced by thick linear shafts,gussets, cantilevers and silicone bed mounts.
  • 【CR Touch Auto-leveling】:Equipped with CR Touch, the 16-point automatic leveling can complete quickly with compensation for points’ printing height on the heat bed, level it easily and precisely

Notice

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

review Creality Ender-5 S1 3D Printer 300°C High-Temperature 250 mm/s High-Speed Printing

review Creality Ender-5 S1 3D Printer 300°C High-Temperature 250 mm/s High-Speed Printing

Buyer Guide 3D Printers

 A 3D printer is a machine that allows you to create three-dimensional objects from a digital file or from a 3D model.

  • Price. The price ranges from $300 for an entry-level printer to $5,000 for an industrial printer.
  • Print Speed. The print speed is the amount of time it takes to print a 3D object. The print speed varies with the printer model, but the average is 0.2 to 0.4 seconds per layer.
  • Resolution. The resolution is the number of points per inch (PPI). The higher the resolution, the more detailed the 3D object will be. The higher the resolution, the more detailed the 3D object will be.
  • Nozzle size. The nozzle size indicates the size of the nozzle used. The nozzle size on entry-level printers is 0.4 mm and goes to 0.3 mm on professional printers.
  • Materials. There are many types of 3D prints. The most common is PLA, which is approved by the ABS standards.
  • Filament. The filament is the material that goes into the nozzle of the printer. The filament comes in various colors and is typically sold in 1.75-gallon spools.

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

 You probably already know that 3D printers are handy little devices. However, did you know that maintaining your 3D printer is just as important? You can have the best-quality printer on the market, but if you don’t take the time to maintain it, it won’t last long.

  • Clean the print bed regularly. The bed is the part of the printer that holds the object to be printed. If the bed isn’t properly cleaned, your print may not come out as clean as you would like. Make sure the print bed is cleaned at least once a week, and more frequently as needed. Also, make sure you clean the print bed with warm, soapy water.
  • Use a filament conditioner. Filament conditioners help clean the extruder and nozzle of the printer. They also help remove clogs from the extruder and help clean the filament when the print is done.
  • Use an ultrasonic cleaner. Ultrasonic cleaners can be used to clean the break and nozzle of the printer. Ultrasonic cleaners can also be used to clean printer accessories, including filaments.
  • Use a filament dryer. Filament dryers help remove moisture from the nozzle and print head, helping to prevent clogs.
  • Use an air compressor to blow out the filament. If your printer filament is stiff or thick, you may want to use a compressor to blow the filament out to remove moisture.
  • Use rubbing alcohol and cotton swabs to clean the print head. Sometimes, the filament can bend and clog your print head. To clean this area, mix 5% rubbing alcohol with cotton swabs, and gently clean the print head.