Maximize your workshop efficiency with our 150mm x 50mm Pegboard Attachment, thoughtfully designed to securely hold and organize up to four spatulas. This versatile tool holder ensures quick access and easy reach for your spatula collection, keeping your workspace clean and organized. Get your tools in order and elevate your workspace with this space-saving and practical accessory

Optimize your 3D print settings for superior mechanical strength and weight-bearing capabilities by choosing robust materials like PETG, ABS, ASA, or other durable options. To achieve this, consider the following technical parameters:

Material Selection: Choose PETG, ABS, ASA, or other high-strength, impact-resistant filaments renowned for their mechanical durability.

Nozzle Temperature: Set your nozzle temperature within the range specified by the material manufacturer (e.g., 240-260°C for PETG, 230-260°C for ABS) for optimal layer adhesion.

Bed Temperature: Maintain a heated bed temperature (e.g., 80-100°C for PETG, 90-110°C for ABS) to promote adhesion and reduce warping.

Layer Height: Use a smaller layer height (e.g., 0.2mm or lower) for finer resolution and improved strength.

Wall Thickness: Increase the number of perimeters or shells to reinforce the part's structural integrity (e.g., 3-4 shells).

Infill Density: Select a higher infill percentage (e.g., 40-60%) to enhance weight-bearing capacity.

Print Speed: Reduce the print speed (e.g., 30-50mm/s) for better layer bonding and part strength.

Cooling: Limit cooling to prevent warping and delamination while maintaining suitable print quality.

Print Orientation: Opt for an orientation that aligns with load-bearing directions, enhancing overall mechanical strength.

By adhering to these technical parameters and material choices, you can create parts that exhibit outstanding mechanical durability and can withstand significant weight-bearing requirements.