YAMAHA TW 200 - 125 MINIRACK REAR LUGGAGE RACK

Luggage rack for Yamaha TW - STL Archive

Looking for a sturdy and functional luggage rack for your Yamaha TW? We have just what you need! Introducing our exclusive STL file for 3D printing a luggage rack designed specifically for the Yamaha TW.

Features:

Customized Design: perfectly matched to Yamaha TW specifications, ensuring a precise and secure fit.


High Strength: Structure designed to withstand heavy loads, ideal for long rides and off-road adventures.


Easy Installation: Detailed instructions included for quick and easy installation. Compatible with original Yamaha TW mounting points.


Optimized for 3D Printing: STL file is ready to be printed on any 3D printer, using durable materials such as PLA, ABS or PETG.


Versatility: Perfect for carrying luggage, tools or any additional accessories you need on your outings.


Economy and Convenience: By printing your own luggage carrier, you save money and get a customized product without long lead times.

Why choose our luggage rack?

Proven and reliable design: every detail has been considered to offer maximum functionality and durability.


 community: Access to a  group where you can share your experiences and get advice on printing and assembly.


Free Updates: With the purchase of the STL file, you will receive future design updates at no additional cost.

What will you receive?

STL file of the luggage rack for Yamaha TW.


Detailed printing and assembly instructions.


Access to technical  and updates.

Note:

Make sure you have a 3D printer and basic 3D printing skills to be able to use this file.


We recommend using high quality materials to ensure the durability of the carrier.

Get your STL file today and equip your Yamaha TW for the next adventure!

Sure! Here's a detailed guide on how to print the luggage rack for Yamaha TW using an FDM printer:

Guide to Printing the Luggage Rack for Yamaha TW using an FDM Printer.

Materials Needed:

FDM 3D printer: make sure the printer has an adequate print volume for the size of the luggage rack.


High Strength Filament: PLA, ABS or PETG are recommended choices. PETG is ideal for its balance of strength and flexibility.


Slicer software: Cura, PrusaSlicer or Simplify3D, among others.


Carrier STL file: Make sure you have the file ed and ready to be imported into the slicing software.

Steps for Printing:

Model Preparation:


    Import: Open your slicing software (Slicer) and load the STL file of the luggage rack.


    Orientation: Make sure the model is oriented correctly to minimize the use of s and optimize adhesion to the print bed.


    Scale:  that the size of the model is correct. Resizing should not be necessary, but make sure it fits in the print volume of your printer.





Cutting Software Setup:


    Material: Select the type of filament to be used (PLA, ABS or PETG) in the cutting software.


    Layer Resolution: Set the layer height. A height of 0.2 mm is a good balance between quality and print time.


    Infill: A 30% to 50% infill provides good structural strength. You can use a grid or triangle infill pattern for stability.


    Print Speed: Adjust the speed according to the specifications of your filament and printer. Generally, a speed of 50-60 mm/s is adequate.


    s: Activate s if there are protrusions or parts of the model that require them. s should be easy to remove and leave a good surface.


    Adhesion to the Bed: Use a raft or edge if you have adhesion problems. This will help hold the model in place during printing.





Printing:


    Printer Preparation: Make sure the print bed is clean and level. If you use a heated bed, adjust the temperature according to the filament (60°C for PLA, 80-100°C for ABS, 70-75°C for PETG).


    Extruder: calibrate the extruder temperature according to the filament (200-220°C for PLA, 230-250°C for ABS, 230-250°C for PETG).


    Print Start: Start printing and monitor the first few minutes to ensure that the model adheres correctly to the bed.


    Monitoring: Monitor the print periodically to ensure that there are no problems such as warping or model peeling off.





Post-Processing:


    Removing s: After printing is complete, allow the model to cool completely before removing it from the bed. Carefully remove the s with tweezers or a cutting tool.


    Sanding and Finishing: Sand the areas where the s were removed to smooth the surfaces. You can apply a sealer or paint if you want an aesthetic finish.


    Mounting: Follow the included instructions to mount the luggage rack to your Yamaha TW.

Additional Tips:

Fit Tests: Before final printing, consider printing a scaled-down version to  fit and functionality.


Alternative Materials: If you are looking for greater durability, you may consider printing with composite materials such as carbon fiber reinforced nylon, although they require a printer capable of handling more abrasive materials.

Now you're ready to print and assemble your custom luggage rack for the Yamaha TW!

I hope this guide will be helpful and will allow you to make a successful print.