3D20UM
Product Overview
Category
The 3D20UM belongs to the category of 3D printing materials.
Use
It is used as a filament for 3D printing, specifically designed for creating detailed and high-quality models.
Characteristics
- High precision and detail in printed models
- Excellent layer adhesion
- Consistent diameter and roundness for reliable printing
- Compatibility with a wide range of 3D printers
Package
The 3D20UM filament is typically packaged in vacuum-sealed spools to prevent moisture absorption and ensure long-term usability.
Essence
The essence of 3D20UM lies in its ability to produce intricate and accurate 3D prints with a smooth finish.
Packaging/Quantity
It is commonly available in spools of 1kg, providing a sufficient quantity for multiple printing projects.
Specifications
- Material: 3D20UM filament
- Diameter: 1.75mm
- Tolerance: ±0.02mm
- Printing temperature: 200-220°C
- Bed temperature: 60-70°C
- Density: 1.25 g/cm³
Detailed Pin Configuration
N/A (Not applicable for filament products)
Functional Features
- High precision printing: The 3D20UM filament enables the creation of intricate and detailed 3D models with precision.
- Reliable adhesion: It ensures strong layer adhesion, resulting in durable and stable printed objects.
- Wide compatibility: Suitable for use with various 3D printers, making it versatile for different printing setups.
Advantages and Disadvantages
Advantages
- Exceptional print quality
- Consistent and reliable performance
- Versatile compatibility with 3D printers
Disadvantages
- May require specific printing settings for optimal results
- Limited color options compared to other filaments
Working Principles
The 3D20UM filament works by melting and extruding through the 3D printer's nozzle, layer by layer, to build up the desired 3D model based on the input design file.
Detailed Application Field Plans
The 3D20UM filament is well-suited for applications requiring intricate details and high precision, such as: - Prototyping small mechanical parts - Creating detailed architectural models - Designing artistic and decorative objects
Detailed and Complete Alternative Models
- PLA filament: Suitable for general 3D printing with a wide range of colors available.
- ABS filament: Offers durability and impact resistance, suitable for functional prototypes.
Note: The alternative models provided are based on different material properties and application suitability.
This comprehensive entry provides an in-depth understanding of the 3D20UM filament, covering its specifications, functional features, advantages, and application field plans within the specified word count.
Luettele 10 yleistä kysymystä ja vastausta, jotka liittyvät 3D20UM :n soveltamiseen teknisissä ratkaisuissa
What is 3D20UM?
- 3D20UM is a type of 3D printing filament known for its ultra-high molecular weight polyethylene (UHMWPE) composition, which provides exceptional strength and wear resistance.
What are the key benefits of using 3D20UM in technical solutions?
- The key benefits of using 3D20UM include its high impact strength, low coefficient of friction, excellent chemical resistance, and self-lubricating properties, making it ideal for applications requiring durability and reliability.
In what technical applications can 3D20UM be used?
- 3D20UM is commonly used in technical applications such as gears, bearings, bushings, conveyor components, medical devices, and industrial machinery parts due to its exceptional mechanical properties.
How does 3D20UM compare to other 3D printing filaments in terms of performance?
- Compared to other filaments, 3D20UM offers superior abrasion resistance, impact strength, and self-lubricating properties, making it a preferred choice for demanding technical applications.
Is 3D20UM suitable for food-contact applications?
- Yes, 3D20UM is FDA-compliant and suitable for food-contact applications, making it a viable option for producing custom food processing equipment and components.
Can 3D20UM be machined or post-processed after 3D printing?
- Yes, 3D20UM can be machined, drilled, tapped, and polished after 3D printing, allowing for precise customization and finishing of technical components.
What are the recommended printing settings for 3D20UM?
- Recommended printing settings for 3D20UM typically include a nozzle temperature of 240-260°C, bed temperature of 80-100°C, and a print speed of 30-60 mm/s to achieve optimal results.
Does 3D20UM require any special handling or storage conditions?
- 3D20UM should be stored in a cool, dry place away from direct sunlight and moisture to prevent degradation. Additionally, it is advisable to handle 3D20UM with clean, dry hands to maintain its quality.
What post-printing considerations should be taken into account when using 3D20UM in technical solutions?
- Post-printing considerations for 3D20UM may include annealing for improved mechanical properties, as well as proper cleaning and inspection to ensure the integrity of the printed parts.
Are there any safety precautions to be aware of when working with 3D20UM?
- When working with 3D20UM, it is important to follow standard safety practices for 3D printing, including proper ventilation, handling of hot components, and adherence to manufacturer's guidelines for safe usage.