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Review YTHEE Positioning Targets for 3D Scaner 2000 Points Laser Handheld 3D Scanner with high Reflective Marking Points, 3mm Inside and 6mm Outside for DIY Home and School Printing

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Details: YTHEE Positioning Targets for 3D Scaner 2000 Points Laser Handheld 3D Scanner with high Reflective Marking Points, 3mm Inside and 6mm Outside for DIY Home and School Printing

Brand: YTHEE

review YTHEE Positioning Targets for 3D Scaner 2000 Points Laser Handheld 3D Scanner with high Reflective Marking Points, 3mm Inside and 6mm Outside for DIY Home and School Printing

Features:Markers for 3D scanningHighly reflective markers made specifically for 3D scanning.It helps our scanners locate even the smoothest spots to ensure everything is scanned in place.Marker is very helpful when you want to scan a smooth object, like a cup, a car, or anything with a smooth surface.This is used to increase the Discriminating ability of 3d scannersSpecification:2000 ponits/ bag

check price YTHEE Positioning Targets for 3D Scaner 2000 Points Laser Handheld 3D Scanner with high Reflective Marking Points, 3mm Inside and 6mm Outside for DIY Home and School Printing

Advantages

  • Products can be returned
  • Make sure this fits by entering your model number.
  • Marker is beneficial when you want to scan a smooth object, like a cup, a car, or anything with a smooth surface.
  • The inner diameter is 3.0 mm, the outer diameter is 6.0 mm, with 50 single point markers on each sheet.
  • Round, on the adhesive foil as a tear-off pad, easy to use.
  • Attaching markers to the object and giving the software a “constant feature” to track and ensures the highest Accuracy.

Notice

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

review YTHEE Positioning Targets for 3D Scaner 2000 Points Laser Handheld 3D Scanner with high Reflective Marking Points, 3mm Inside and 6mm Outside for DIY Home and School Printing

review YTHEE Positioning Targets for 3D Scaner 2000 Points Laser Handheld 3D Scanner with high Reflective Marking Points, 3mm Inside and 6mm Outside for DIY Home and School Printing

Buyer Guide 3D Scanners

3D scanners are an important tool for creating a digital copy of an object to use as a template. They come in all shapes and sizes, from handheld scanners that can copy small objects, to larger scanners that scan large objects, such as standard-sized cars.

  • Consider the object to be scanned (size, shape, material).
  • Consider the purpose of the scan. You may scan an object for personal use, or for a group project, in which case you’ll want to look for scanners that work well for both small and large objects, and that work with different materials.
  • Consider the scanner’s features.
  • Consider your intended environment. For example, if you’re scanning small objects, a handheld scanner may be all you need. But if you’re scanning something large or hard to scan, consider a large scanning device.
  • Consider your budget. Scanners can be pricey, so you’ll want to consider your starting budget when deciding which scanner is right for you.
  • Consider your level of expertise. If you’re just starting out, you may want to invest in a handheld scanner. That’s cheaper than a large scanning device and requires no prior knowledge.
  • Consider support. Some scanners have built-in support, while others don’t. You may want to consider support options if you’re new to 3D scanning.

How to choose 3D Scanners

 If you work in an engineering group, choosing a 3D scanner can be tricky. There are a variety of different types of 3D scanners available, and choosing one requires a bit of research and consideration.

  • Magnetic or laser scanning? Magnetic scanning uses a focused magnetic field to create a 3D scan of the object. Laser scanning uses light or other electromagnetic radiation to create a point cloud of the object’s surface.
  • What type of data is scanned? Most scanners offer at least one type of data — a two-dimensional (2D) height map, a texture map, a point cloud, or a mesh model. When scanning an object with a 3D scanner, you should decide which type of data is the most important to you and your project.
  • Do you need to texture your scan? If you’re scanning an object with a rough, rough texture, you might not need to create a mesh model. However, if you’re scanning an intricate object, such as an intricate piece of jewelry, you might need to create a mesh model of the object.
  • How much money can you afford to spend? 3D scanners can cost anywhere from $300 to over $10,000. How much are you willing to spend?
  • Do you need to scan an object with a non-planar surface? If the surface of an object is curved, your scanner should be able to scan the object. Most scanners won’t scan an object with curved surfaces. Some scanners have a curved surface option so that an object can be scanned in a curved manner.

 

How to maintain 3D Scanners

Maintaining 3D scanners is a lot like taking care of any other complex machinery. There are two main parts: the scanning head and the software/controller.
When it comes to the scanning head, there are a few key areas that you’ll want to keep track of:

  • Time: Just like any machine, your 3D scanner has a specific lifespan. Depending on usage, you may be able to get anywhere from 5,000 to 100,000 scans out of it before it starts to break down.
  • Temperature: Just like the average computer, your 3D scanner needs to stay between 65 to 85?F.
  • Dust: Similar to a laptop or desktop computer, dust can build up over time. If it builds up around the scanning head, it can create blurry images or lead to other malfunctions.
  • Compressed Air: Compressed air can be used to clean dust and other gunk out of the scanning head.
  • The Software/Controller: When it comes to a scanner’s software, it’s important to keep it updated. Software updates improve functionality and fix bugs.