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Accessories & Materials

(72 produkte)
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  • CNC BITS (5 BITS) CNC BITS (5 BITS)
    Bis zu €4,00 Rabatt

    CNC-Bits (5 Bits)

    €15,99 EUR €19,99
    Auf Lager
    Alle Einzelheiten
  • PLA FILAMENT (1KG) PLA FILAMENT (1KG)
    Bis zu €5,80 Rabatt

    PLA-Filament (1 kg)

    €23,19 EUR €28,99
    Auf Lager
    Alle Einzelheiten
  • HOT END FOR DUAL EXTRUSION MODULE HOT END FOR DUAL EXTRUSION MODULE
    Bis zu €12,40 Rabatt

    Heißes Ende für Doppelextrusionsmodul

    Von €45,59 EUR €56,99
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  • Extruder Hot End Kit for Snapmaker 2.0 Extruder Hot End Kit for Snapmaker 2.0
    Bis zu €4,00 Rabatt

    Extruder-Hot-End-Kit für Snapmaker 2.0

    Von €9,59 EUR €11,99
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  • PRINT SHEET WITH DOUBLE SIDED PRINTING STICKERS FOR SNAPMAKER 2.0 PRINT SHEET WITH DOUBLE SIDED PRINTING STICKERS FOR SNAPMAKER 2.0
    Bis zu €8,00 Rabatt

    Druckplatte mit beidseitig bedruckbaren Stickern für den Snapmaker 2.0

    Von €23,19 EUR €28,99
    Auf Lager
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  • Snapmaker 2.0 Schnellwechsel Kit

    €169,00 EUR
    Auf Lager
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  • PETG FILAMENT (1KG) PETG FILAMENT (1KG)
    Bis zu €5,80 Rabatt

    PETG-Filament (1 kg)

    €23,19 EUR €28,99
    Auf Lager
    Alle Einzelheiten
  • STRAIGHT GROOVE V-BITS FOR SNAPMAKER (3 BITS) STRAIGHT GROOVE V-BITS FOR SNAPMAKER (3 BITS)
    Bis zu €3,40 Rabatt

    V-Bits mit gerader Nut für Snapmaker (3 Bits)

    €13,59 EUR €16,99
    Alle Einzelheiten
  • Ersatzsatz für Doppelextrusionsmodul

    €39,00 EUR
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  • FROSTED ACRYLIC SHEET (5-PACK) Acrylglasplatte mattiert (5er-Pack)
    Bis zu €11,50 Rabatt

    Acrylglasplatte mattiert (5er-Pack)

    Von €11,49 EUR €22,99
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  • Basswood Sheet for Snapmaker 2.0 (5-Pack) Basswood Sheet for Snapmaker 2.0 (5-Pack)
    Bis zu €6,00 Rabatt

    1,5 mm dicke Linde (5er-Pack)

    Von €5,99 EUR €11,99
    Auf Lager
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  • PVA FILAMENT (500G) PVA FILAMENT (500G)
    Bis zu €8,00 Rabatt

    PVA-Filament (500g)

    €31,99 EUR €39,99
    Auf Lager
    Alle Einzelheiten
  • TPU FILAMENT (1KG) TPU-Filament (1kg)
    Bis zu €8,00 Rabatt

    TPU-Filament (1kg)

    €31,99 EUR €39,99
    Auf Lager
    Alle Einzelheiten
  • CNC Platform (MDF Wasteboard) for Snapmaker 2.0 CNC Platform (MDF Wasteboard) for Snapmaker 2.0
    Bis zu €5,80 Rabatt

    CNC-Plattform (MDF-Abfallbrett) für Snapmaker 2.0

    Von €18,39 EUR €22,99
    Auf Lager
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  • Extension Cord for Rotary Module Extension Cord for Rotary Module
    Bis zu €1,80 Rabatt

    Verlängerungskabel für Drehmodul (1,5m)

    €7,19 EUR €8,99
    Alle Einzelheiten

What materials can be used in 3D printing, and what are the pros and cons of each material type?

Below are some of the most common materials used in 3D printing, along with their pros and cons:

1. PLA (Polylactic Acid)
  - Pros: PLA is a biodegradable thermoplastic derived from renewable resources. It is easy to print with, has a low melting point, and produces minimal warping. PLA is available in a wide range of colors and finishes and is suitable for a variety of applications, including prototyping, educational, and decorative projects.
  - Cons: PLA has a lower strength and durability compared to some other materials and can become brittle over time. It is not suitable for high-temperature applications or parts that require high impact resistance.

2. ABS (Acrylonitrile Butadiene Styrene)
  - Pros: ABS is a strong, durable, and flexible thermoplastic that can withstand higher temperatures than PLA. It is commonly used for functional parts, automotive components, and consumer products.
  - Cons: ABS can emit unpleasant fumes during printing and requires a heated print bed to prevent warping. It may not be suitable for beginners due to its higher printing temperatures and potential adhesion issues.

3. PETG (Polyethylene Terephthalate Glycol)
  - Pros: PETG combines the ease of printing of PLA with the strength and durability of ABS. It is a chemically resistant and food-safe material, making it suitable for containers and packaging applications. PETG has good layer adhesion and is less prone to warping compared to ABS.
  - Cons: PETG can be more prone to stringing and oozing than PLA or ABS, which may require fine-tuning of print settings. It can also be more sensitive to moisture, requiring proper storage conditions.

4. TPU/TPE (Thermoplastic Polyurethane/Thermoplastic Elastomer)
  - Pros: TPU and TPE are flexible and rubber-like materials that can be used for a wide range of applications, such as gaskets, seals, and wearable items. They have excellent abrasion resistance and can withstand repeated bending and stretching.
  - Cons: Printing with flexible materials can be challenging, as they may require slower print speeds and specialized extruders to prevent jamming or clogging.

5. Nylon (Polyamide)
  - Pros: Nylon is a strong, durable, and lightweight material that offers excellent resistance to impact, chemicals, and wear. It is suitable for functional parts, gears, and mechanical components that require high strength and durability.
  - Cons: Nylon is sensitive to moisture and requires proper storage and drying before use. It may also require higher printing temperatures and a heated print bed to prevent warping.

6. Resins
  - Pros: Resins are used in SLA, DLP, and other resin-based 3D printing processes. They offer high resolution and smooth surface finishes, making them ideal for detailed models, jewelry, and dental applications.
  - Cons: Resin printing can be more expensive than FDM printing, and the post-processing can be messy and time-consuming. Resins may also have a shorter shelf life and require proper handling and storage due to their sensitivity to light and temperature.

What are the different types of printing consumables available for 3D printers, such as PLA,PETG,ABS, and how do they differ in terms of material properties and printing characteristics?

1. PLA (Polylactic Acid)
  - Material Properties: PLA is a biodegradable thermoplastic derived from renewable resources like cornstarch or sugarcane. It has a relatively low melting temperature and exhibits minimal warping, making it easy to print with. PLA is available in a wide range of colors and finishes.
  - Printing Characteristics: PLA is often the material of choice for beginners due to its ease of printing. It does not require a heated bed, and it adheres well to most print surfaces. PLA prints at lower temperatures (180-220°C) and has good layer adhesion. However, it has lower strength and durability compared to some other materials, making it suitable mainly for decorative, prototyping, or educational purposes.

2. PETG (Polyethylene Terephthalate Glycol)
  - Material Properties: PETG is a strong, durable, and chemically resistant material that combines the ease of printing of PLA with the strength and heat resistance of ABS. PETG is food-safe, making it suitable for containers and packaging applications.
  - Printing Characteristics: PETG prints at slightly higher temperatures than PLA (230-250°C) and generally requires a heated bed. It has good layer adhesion and is less prone to warping than ABS. PETG can be more prone to stringing and oozing, which may require fine-tuning of print settings. Proper storage is essential, as PETG can be sensitive to moisture.

3. ABS (Acrylonitrile Butadiene Styrene)
  - Material Properties: ABS is a strong, durable, and flexible thermoplastic that can withstand higher temperatures than PLA. It is commonly used for functional parts, automotive components, and consumer products. ABS can be easily sanded and post-processed, allowing for a smooth finish.
  - Printing Characteristics: ABS requires higher printing temperatures (220-250°C) and a heated bed to prevent warping. It can emit unpleasant fumes during printing, necessitating proper ventilation. ABS may be more challenging for beginners due to its higher printing temperatures and potential adhesion issues.

How do you choose the right consumables for your printing project, such as considering factors like strength, flexibility, color, or cost?

Here are some guidelines to help you make an informed decision, considering factors like strength, flexibility, color, etc:

1. Strength: Consider the strength and durability requirements of the final printed object. If you need a strong and durable part, materials like ABS, PETG, or Nylon may be more suitable than PLA. For decorative or prototyping purposes, PLA might be sufficient.

2. Heat resistance: For projects that require higher heat resistance, ABS or PETG is a better option than PLA. Resins formulated for high-temperature resistance can also be considered if you are using an SLA or DLP printer.

3. Chemical resistance: If your object needs to withstand exposure to chemicals or moisture, PETG, ABS, or Nylon might be more suitable due to their better chemical resistance properties compared to PLA.

4. Color and finish: Consider the color and finish you desire for your project. PLA is available in a wide range of colors and finishes, including matte, glossy, metallic, and even color-changing options. ABS and PETG also come in various colors, though the selection may be less extensive.

5. Ease of printing: For beginners or those looking for an easy-to-print material, PLA is often the best choice due to its low melting temperature and minimal warping. ABS and PETG may require more fine-tuning of print settings and proper bed adhesion techniques.

6. Cost: The cost of consumables can vary depending on the material type and quality. PLA is generally the most affordable, followed by ABS and PETG. Specialty materials like TPU, TPE, or Nylon may be more expensive. Consider the cost of the material in relation to your budget and the requirements of your project.

7. Printer compatibility: Ensure that the material you choose is compatible with your 3D printer. Some printers may have specific temperature, speed, or extruder requirements that may limit the range of materials that can be used.

How can you store and handle printing materials properly to maintain their quality and prevent contamination or degradation?

Here are some tips on how to store and handle printing materials correctly:

1. Store in a cool, dry place: Keep your printing materials in a cool and dry environment, away from direct sunlight, heat sources, or high humidity. High temperatures can cause filament to soften or degrade, while excessive humidity can lead to moisture absorption, which can affect print quality.

2. Use airtight containers: To prevent moisture absorption, store your filaments in airtight containers or resealable plastic bags. Adding desiccant packs, such as silica gel, to the container can help maintain low humidity levels and absorb any residual moisture.

3. Keep materials on spools: Store filament materials on their original spools or use a spool holder to keep the filament organized and prevent tangling. Ensure the filament end is secured to prevent unraveling.

4. Label materials: Clearly label your materials with the type of filament, color, and any specific printing settings or temperature requirements. This will help you quickly identify the correct material for your project and prevent confusion or mistakes when loading the filament.

5. Keep materials clean: Make sure your hands are clean when handling filaments to avoid transferring oils, dirt, or other contaminants that may affect print quality. Similarly, ensure that the printer's extruder and print bed are clean before starting a print.

6. Inspect materials before use: Check the filament for any signs of damage, such as cracks, kinks, or inconsistencies in diameter, which may affect print quality. If you notice any issues, it may be necessary to discard the affected portion of the filament or replace it entirely.

7. Monitor shelf life: Some materials, particularly specialty or experimental filaments, may have a limited shelf life. Be aware of any expiration dates or recommended storage durations for your materials and use them accordingly.

How do you optimize your printing settings for different types of consumables, such as adjusting the temperature, speed, or layer height?

1. Temperature:
  - Nozzle temperature: Each filament type has a specific temperature range for optimal printing. Consult the manufacturer's recommendations and start with the suggested temperature. Adjust the temperature in small increments (usually 5°C) if you encounter issues like poor layer adhesion or stringing.
  - Bed temperature: Some materials, such as ABS and PETG, require a heated bed to ensure proper adhesion and prevent warping. Refer to the manufacturer's guidelines for the recommended bed temperature, and adjust as needed to achieve optimal adhesion.

2. Printing speed:
  - Different materials may require different printing speeds to achieve the best results. In general, slower speeds (30-50 mm/s) are recommended for materials like ABS or flexible filaments, while PLA and PETG can typically be printed at higher speeds (50-80 mm/s).
  - Slowing down the printing speed for the first few layers can help improve bed adhesion and reduce the risk of warping.
  - Adjust the speed in increments of 5-10 mm/s to find the optimal setting for your material, balancing print quality and printing time.

3. Layer height:
  - The layer height determines the resolution and print time of your project. Smaller layer heights (e.g., 0.1 mm) result in higher resolution prints but take longer to complete, while larger layer heights (e.g., 0.3 mm) print faster but may have a rougher surface finish.
  - Choose a layer height based on your project's requirements and the capabilities of your 3D printer. In general, a layer height between 0.1 and 0.3 mm is suitable for most materials and applications.

4. Additional settings:
  - Retraction: Adjusting retraction settings can help reduce stringing or oozing when using materials like PETG or flexible filaments. Experiment with retraction distance and speed to minimize these issues.
  - Cooling: PLA usually benefits from active cooling using a part cooling fan, which helps solidify the material quickly and improves print quality. ABS and other high-temperature materials may require less cooling or even no cooling at all to prevent warping and ensure proper layer adhesion.
  - Infill and shell settings: For stronger prints, increase the infill percentage and the number of shells (perimeter layers). This will result in denser and sturdier parts, particularly when using materials like ABS or Nylon.

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