Flexible

Flexible

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  • TPE 85A Flexible Thermoplastic Elastomer - 1.75mm 3D Printer Filament Material

    *TPE - 85A - 1.75mm 3D Printer Filament

    SPOOL3D

    $26.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) We suggest BuildTak Bond for Polypropylene for bed adhesion (instructions for application and temperature must be used). Print it right with Spool3D flexible TPE 3D...
    $26.00
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    $26.00
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  • TPU - 92A - 1.75mm 3D Printer Filament - 1kg

    *TPU - 92A - 1kg Black - 1.75mm 3D Printer Filament

    SPOOL3D

    $49.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Print it right with Spool3D flexible TPU 3D printer filament.  Our flexible TPU filament is manufactured with tight tolerances from premium grade material.  Our...
    $49.00
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    $49.00
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  • TPU - 92A - 1.75mm 3D Printer Filament

    *TPU - 92A - 500g - 1.75mm 3D Printer Filament

    SPOOL3D

    $26.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Print it right with Spool3D flexible TPU 3D printer filament.  Our flexible TPU filament is manufactured with tight tolerances from premium grade material.  Our...
    $26.00
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    $26.00
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  • 1.75mm 3D Printer Cleaning Filament - 3D Printing Filament

    1.75mm 3D Printer Cleaning Filament

    SPOOL3D

    $9.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Recommended for use between printing different filament types or after printing filled filament types.  Easily clean up residues left behind in the nozzle. This...
    $9.00
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    $9.00
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  • Spool3D Flexible Soft PLA Filament Pantone Colours - 1.75mm PLA 3D Printer Filament

    Flexible PLA - 1.75mm 3D Printer Filament

    SPOOL3D

    $40.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) 1.75mm Flexible PLA 3D Printer Filament Material from Spool3D. Pantone colour coded filament from Spool3D. Flexible PLA filament in shades of black, blue, grey, red, and...
    $40.00
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    $40.00
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  • Out of stock
    TPE - 85A - 1.75mm 3D Printer Filament- Sample

    TPE - 85A - 1.75mm 3D Printer Filament- Sample

    SPOOL3D

    $3.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) We suggest BuildTak Bond for Polypropylene for bed adhesion (instructions for application and temperature must be used). Print it right with Spool3D flexible...
    $3.00
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    $3.00
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  • Out of stock
    TPU - 60A - 1.75mm 3D Printer Filament

    TPU - 60A - ULTRA Flexible 1.75mm 3D Printer Filament

    SPOOL3D

    $5.00 - $39.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) This filament is for advanced users only.  This requires a direct drive extruder. We have successfully printed using a Flexion or a "Proper Extruder" which can be...
    $5.00 - $39.00
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    $5.00 - $39.00
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  • Out of stock
    TPU - 92A - 1.75mm 3D Printer Filament - Sample

    TPU - 92A - 1.75mm 3D Printer Filament - Sample

    SPOOL3D

    $3.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Print it right with Spool3D flexible TPU 3D printer filament.  Our flexible TPU filament is manufactured with tight tolerances from premium grade material.  Our...
    $3.00
    Qty in Cart: 0
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    $3.00
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TPU (Thermoplastic Polyurethane) 1.75mm 3D Printer Filament:

  • Characteristics: Flexible, rubber-like, and impact-resistant. It can be tricky to print with due to its flexibility.
  • Applications: Used for items needing flexibility like phone cases, gaskets, or wearable items.

TPU is a flexible, rubber-like 3D printing filament known for its durability and elasticity. It is widely used for applications that require flexibility and impact resistance. Here’s an in-depth look at TPU filament:

Properties and Characteristics

  • Composition: TPU is a type of thermoplastic elastomer, combining the properties of rubber and plastic. This makes it flexible and elastic while maintaining strength and durability.
  • Flexibility: TPU is highly flexible and can stretch without breaking. This elasticity makes it ideal for parts that need to bend or compress, such as phone cases, gaskets, and wearables.
  • Impact Resistance: TPU is known for its high impact resistance. It can absorb shocks and withstand mechanical stress, making it suitable for functional parts that require resilience.
  • Durability: TPU is resistant to abrasion, tearing, and general wear and tear. This durability makes it a good choice for parts that experience friction or rough use.

Applications

  • Wearables: TPU is commonly used for making flexible wearables, such as wristbands, custom-fit shoe soles, and protective gear.
  • Gaskets and Seals: Its flexibility and elasticity make TPU suitable for creating gaskets, seals, and other components that need to form tight, flexible seals.
  • Phone Cases: TPU is a popular material for phone cases due to its shock-absorbing properties and ability to conform to various shapes.
  • Custom Parts: TPU is also used for custom parts that require a combination of strength and flexibility, such as vibration dampeners and cushioning elements.

Printing Considerations

  • Print Temperature: TPU typically prints at temperatures between 210-250°C. The exact temperature can vary based on the filament's brand and specific formulation.
  • Print Speed: Printing with TPU often requires slower print speeds to manage its flexible nature and reduce issues like stringing and oozing. Speeds between 20-40 mm/s are commonly used.
  • Bed Temperature: A heated bed is generally not required for TPU, but setting it between 30-60°C can help with adhesion. TPU adheres well to various surfaces, including glass and BuildTak.
  • Cooling: Using a cooling fan can improve the print quality by reducing stringing and improving layer adhesion. However, excessive cooling can cause issues, so it’s best to use cooling sparingly.
  • Extruder Considerations: A direct drive extruder is often preferred for TPU due to its flexible nature. Bowden setups can work but might require adjustments to avoid issues with filament feeding.

Storage and Maintenance

  • Moisture Sensitivity: TPU is relatively less sensitive to moisture compared to some other filaments, but it is still a good practice to store it in a dry, airtight container to prevent degradation.
  • Shelf Life: TPU has a good shelf life when stored properly. Keep it in a cool, dry place away from sunlight to maintain its quality.

Environmental Impact

  • Recyclability: TPU is recyclable, but it is not biodegradable. Like many plastics, it should be disposed of or recycled according to local regulations to minimize environmental impact.

TPU filament offers a unique combination of flexibility, durability, and impact resistance, making it an excellent choice for a wide range of applications that require rubber-like properties. While it presents some challenges in printing due to its flexible nature, with the right setup and settings, TPU can produce high-quality, functional parts that withstand stress and strain.

TPE (Thermoplastic Elastomer) 1.75mm 3D Printer Filament

TPE is a versatile filament known for its flexibility, elasticity, and durability. It combines the properties of rubber and plastic, making it suitable for various applications requiring soft and stretchable materials. Here’s a detailed look at TPE filament:

Characteristics

  • Flexibility and Elasticity: TPE is highly flexible and elastic, similar to rubber. It can stretch and return to its original shape, making it ideal for applications requiring soft, compressible, or bendable parts.
  • Softness: TPE has a soft, rubbery texture, which provides a cushioning effect and makes it comfortable to handle and use in certain applications.
  • Impact Resistance: TPE is durable and impact-resistant, absorbing shocks and reducing wear and tear. This property makes it suitable for parts subjected to frequent stress or mechanical impact.
  • Temperature Resistance: While not as heat-resistant as some other materials, TPE can tolerate moderate temperatures. It is suitable for applications where high heat resistance is not critical.

Applications

  • Wearable Devices: TPE is used in the manufacturing of flexible wearable devices, such as wristbands, fitness trackers, and medical devices, due to its softness and flexibility.
  • Gaskets and Seals: Its compressibility and elasticity make TPE ideal for producing gaskets, seals, and other components that need to form flexible and reliable seals.
  • Phone Cases and Accessories: TPE’s flexibility and shock-absorbing properties make it popular for phone cases, grips, and other protective accessories that need to cushion impacts.
  • Custom Soft Parts: TPE is used for custom parts that require a combination of softness and durability, such as soft-touch grips, vibration dampeners, and cushioning elements.
  • Toys and Functional Parts: TPE is suitable for manufacturing toys or parts that need to be flexible and durable, offering a safe, soft touch and shock absorption.

Printing Considerations

  • Print Temperature: TPE typically prints at temperatures between 210-230°C. The specific temperature can vary depending on the filament’s brand and formulation.
  • Print Speed: Printing with TPE often requires slower speeds to accommodate its flexible nature. Recommended speeds are usually between 20-40 mm/s to ensure consistent extrusion and avoid issues like stringing.
  • Bed Temperature: A heated bed is not always necessary for TPE, but setting it to around 30-60°C can help with adhesion. TPE generally adheres well to various surfaces, including glass and BuildTak.
  • Cooling: Minimal cooling is recommended to avoid issues like stringing and layer separation. However, some cooling can improve print quality without affecting flexibility.
  • Extruder Type: A direct drive extruder is typically preferred for TPE due to its flexibility. Bowden extruders can work but may require careful adjustment to avoid feeding issues.

Storage and Maintenance

  • Moisture Sensitivity: TPE is relatively resistant to moisture, but storing it in a dry, airtight container can help maintain its quality and printing performance.
  • Shelf Life: TPE has a good shelf life when stored properly. Keep it in a cool, dry place away from direct sunlight to prevent degradation.

Environmental Impact

  • Recyclability: TPE is recyclable, but like many thermoplastics, it is not biodegradable. Proper disposal or recycling according to local regulations is important to minimize environmental impact.

TPE filament offers a unique combination of flexibility, durability, and softness, making it suitable for a wide range of applications requiring rubber-like properties. With the right printing setup and considerations, TPE can produce high-quality, functional parts that require a soft touch and resilience.

Flexible PLA (Polylactic Acid) 1.75mm 3D Printer Filament

Flexible PLA is a variant of traditional PLA filament designed to combine the ease of printing of PLA with the added flexibility of elastomers. It is engineered to offer properties that make it suitable for applications requiring both the characteristics of conventional PLA and the flexibility of rubber-like materials. Here’s a detailed overview of Flexible PLA filament:

Characteristics

  • Flexibility: Flexible PLA offers greater elasticity and bendability compared to standard PLA, allowing it to stretch and compress. However, it is not as flexible as filaments like TPU or TPE.
  • Printability: It retains the user-friendly nature of standard PLA, making it relatively easy to print with compared to other flexible materials. It generally has a lower tendency to cause issues such as clogging or warping.
  • Strength and Durability: While it provides increased flexibility, Flexible PLA still maintains good strength and durability. It’s less prone to breaking under stress compared to standard PLA but not as impact-resistant as materials like ABS or TPU.
  • Surface Finish: Flexible PLA usually offers a smooth, glossy finish, similar to traditional PLA. It can be printed in various colors and finishes, making it versatile for different applications.

Applications

  • Wearables: Flexible PLA is used in producing wearable items that require a degree of flexibility, such as wristbands or custom-fit accessories, where some stretch is beneficial.
  • Protective Covers: It is suitable for items that need to provide a bit of cushioning or protection, like phone cases, bumpers, and other protective accessories.
  • Custom Parts: Flexible PLA can be used for creating parts that require some degree of bending or compression, such as custom grips, handles, or ergonomic components.
  • Prototyping: It’s useful for prototyping parts that need both strength and flexibility, allowing designers to test functional aspects of their designs before moving to more specialized materials.

Printing Considerations

  • Print Temperature: Flexible PLA typically prints at temperatures between 190-220°C. The exact temperature can vary depending on the filament brand and specific formulation.
  • Print Speed: Slower print speeds are recommended to handle the filament’s flexibility and ensure consistent extrusion. Speeds between 20-40 mm/s are commonly used to avoid issues such as stringing or under-extrusion.
  • Bed Temperature: A heated bed is not always necessary, but setting it between 50-60°C can help with adhesion. Flexible PLA generally adheres well to various surfaces, including glass, PEI, and BuildTak.
  • Cooling: A cooling fan can help improve print quality, but excessive cooling can lead to issues with layer adhesion. Moderate cooling is usually beneficial.
  • Extruder Type: A direct drive extruder is often preferred for Flexible PLA due to its flexibility. Bowden extruders can work but might require adjustments to prevent feeding issues.

Storage and Maintenance

  • Moisture Sensitivity: Flexible PLA is relatively less sensitive to moisture compared to some other flexible filaments, but it is still best stored in a dry, airtight container to maintain quality and printability.
  • Shelf Life: Flexible PLA has a good shelf life when stored properly. Keep it in a cool, dry place away from direct sunlight to prevent degradation.

Environmental Impact

  • Recyclability: Like standard PLA, Flexible PLA is made from renewable resources and is recyclable. However, it is not biodegradable under typical conditions and should be recycled responsibly.

Flexible PLA filament provides a useful middle ground between the rigidity of traditional PLA and the flexibility of elastomers. Its ease of use, combined with its unique properties, makes it a versatile option for a variety of applications requiring a blend of strength and flexibility. With proper printing settings and considerations, Flexible PLA can produce high-quality, functional parts that offer a rubber-like touch and performance.