Ready to Order 3d Prints?
Still have questions? Send us a message via chat.
How our 3d Printing Process Works
Our streamlined 3D printing workflow ensures fast, reliable, and high-quality production. From file submission to delivery, every step is designed to minimize delays and maximize precision.
Upload your Design
We begin by understanding your business goals and challenges. Our team listens carefully to your needs to ensure we create the best strategy for your digital journey.
Production
Our advanced 3D printers produce accurate, durable parts. We monitor quality at every stage.
Production
Our advanced 3D printers produce accurate, durable parts. We monitor quality at every stage.
Delivery & Support
Receive your parts quickly and safely. Our team provides support throughout to ensure complete satisfaction.
Aftercare & Scaling
We don’t stop at delivery. Our experts help you improve future designs, scale production, and ensure long-term success with continuous support.
Aftercare & Scaling
We don’t stop at delivery. Our experts help you improve future designs, scale production, and ensure long-term success with continuous support.
Upload your Design
Choose your Material
Get your Instant Quote
Receive your Prints
3d on Demand Print Service
Click here to upload or drag and drop your model to the canvas.
The model is too large and has been resized to fit in the printer's build tray. [Hide]
The model is too large to fit in the printer's build tray. [Hide]
The model is too large, a fitting printer is selected. [Hide]
The model is too small and has been upscaled. [Hide]
Warning: The selected printer can not print in full color [Hide]
Warning: obj models with multiple meshes are not yet supported [Hide]
Warning: Unsupported DXF entity [Hide]
Warning: could not arrange models [Hide]
X:
×
Y:
×
Z:
cm
Model Stats:
| Material Volume: |
cm3 |
| Support Material Volume: |
cm3 |
| Box Volume: | cm3 |
| Surface Area: | cm2 |
| Model Weight: |
g |
| Model Dimensions: |
x x
cm
|
| Number of Polygons: | |
| Number of Shapes: | |
| Total Path: |
cm |
Unit Price:
Frequently Asked Questions
Which Infill should I Choose?
In 3D printing, “infill” refers to the internal grid or pattern within an object that helps provide structure and strength without making it completely solid. This saves material and reduces print time while maintaining the necessary strength. The choice of infill depends on the intended use of the printed object:
Low Percentage (10-20%): Suitable for decorative objects that will not bear significant loads. Saves time and material.
Medium Percentage (20-50%): Offers a good balance between strength and material usage. Ideal for functional parts that need to withstand some load.
High Percentage (50-100%): For objects requiring maximum strength and durability. Consumes more material and extends print time but is necessary for parts under high stress.
Which Material should I Choose?
When choosing the right material, it is important to consider the purpose of the object.
PLA: Ideal for prototypes and decorative objects, easy to use, but limited in strength and heat resistance.
PLA Extra Strong: Offers more strength than standard PLA, suitable for objects requiring more load.
PLA Silk: For objects with a silky, glossy finish; aesthetically pleasing but similar in strength to standard PLA.
PETG: Strong, durable, and flexible, resists chemicals and heat, good for functional parts.
TPU: Highly flexible and elastic, ideal for parts that need to bend, like phone cases.
ASA: Similar to ABS but with better UV and weather resistance, suitable for outdoor use.
ABS: Strong and heat-resistant, perfect for functional parts that withstand loads, requires a heated print bed.
PA-CF (Nylon): Combines high temperature and chemical resistance with exceptional mechanical resilience and excellent dimensional stability. The nature of the fibers ensures that the parts remain very strong and extremely rigid.
The choice depends on the requirements of your project, such as strength, flexibility, finish, and exposure to environmental factors.
Want to know more about infill or material choices, check out our material selection guide.
Which Printer/Layer Height should I Choose?
In 3D printing, the “layer height” plays a crucial role in balancing print quality, speed, and material usage. Layer height refers to the thickness of each layer that makes up a 3D printed object. A smaller layer height results in higher resolution and surface smoothness but increases print time and thus costs. Below is an explanation of the effect of different layer heights:
Layer Height of 0.2 mm: This is a standard layer height for many 3D printing applications and offers an excellent balance between speed and quality. It is suitable for most everyday printing tasks, including larger objects or parts where the finish is important but not critical. With this setting, users can print faster and save material without significant compromises in structural strength and visual aesthetics. It is an excellent choice for general use.
Layer Height of 0.15 mm: This layer height offers a good balance between surface quality and print efficiency. It is often used for functional parts that require both a good finish and structural integrity, such as utensils, electronics enclosures, and non-load-bearing mechanical parts. It provides a significant improvement in print time compared to 0.1 mm, while still maintaining a good level of detail and surface smoothness.
Layer Height of 0.1 mm: This is a very fine layer height, ideal for objects where detail and surface finish are of utmost importance. It is perfect for small, intricate models such as jewelry, miniatures, or parts with fine details. However, this setting leads to longer print times and higher material usage, as more layers are needed to build the object.
Still Want a Manual Quote?
Whether you need one prototype or a full production series, we’ll take care of it.
