3D Printing using FDM/FFF technology
3D Printing from a single unit!
3D printing allows for the creation of three-dimensional, physical objects based on a 3D computer model created using specialized software. We have state-of-the-art equipment that ensures the highest quality prints. Objects printed using 3D technology are used in many fields. We work with ready-made 3D files or request the submission of a scanned element at our headquarters. The working area of each printer is up to 230x230x270 mm. We produce from a single unit! We offer the most advantageous price on the market and provide fully scalable production. We invite you to check out our other services at XD3D in Poland ( Gdańsk ).
Printers: Prusa Mini+, Prusa I3 MK3S+, Bambu Lab X1, Elegoo Neptune 3 Max.
Main advantages of FDM technology
- high impact resistance, mechanical and thermal strength of the built parts,
- elastic properties close to the target materials used in plastics processing,
- the ability to build parts with high porosity,
- soluble support material,
- fast building speed for individual parts and low material waste,
- high-strength materials resistant to high temperatures.
3D Printing using technology SLA / Resin
3D Printing from a single unit!
The main advantages of SLA, DLP and UV LCD technology
The distinguishing feature of light-curable resin processing techniques is the high level of precision in creating three-dimensional objects with very complex spatial structures. This accuracy, significantly surpassing FDM technology in this field, enables the use of 3D printers based on SLA, DLP, and UV LCD technologies to produce prototypes in industries such as medicine and jewelry, as well as in figurines. It is not without reason that these methods are gradually being applied for these purposes. It can be inferred that methods based on light treatment of resin fluid allow for printing of elements characterized by both a high level of detail and small size. A wide selection of materials is available, from rigid to flexible, such as:
- Elastic resin
- Casting
- High-temperature
- Medical
- ABS-like
- PP-like
The working surface of each printer is up to 300x300x160 mm. 6,480 x 3,600 px / 7K
Printers: Anycubic Photon M3 Max 7K, Elegoo Saturn 4K.
Ready-made 3D prints are always sent by insured courier shipment from InPost. Each model is carefully packed and environmentally protected.
3D printing in SLM/DMLS technology
No limits!
DMLS (Direct Metal Laser Sintering) and SLM (Selective Laser Melting) technologies belong to the same group of 3D printing technologies, known as powder bed technologies. Both methods allow for 3D printing in metal, using the most popular metal alloys available on the market. The differences between these technologies lie primarily in the patented technical solutions employed by the manufacturers.
The manufacturing process in 3D printing is similar to SLS technology. In the case of DMLS and SLM, the starting material is a powder made from the chosen metal alloy. In metal 3D printing, it is necessary to use support structures that connect the printed model to the machine platform and maintain the desired geometry of the printed part. The support structure serves to stabilize the built element and helps in effective heat dissipation. The typical layer thickness used in metal 3D printing ranges from 30 to 60 µm.
Key advantages of SLM/DMLS technology
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Precision: DMLS and SLM technologies enable high precision and accuracy in printed metal parts, allowing for the creation of complex geometries and high-quality details.
2. Speed: 3D printing in DMLS and SLM technologies is relatively fast, enabling efficient production of prototypes and small-batch manufacturing. This eliminates the need for traditional manufacturing processes, which can be time-consuming and costly.
3. Complex shape capabilities: DMLS and SLM enable the creation of intricate geometric shapes and structures that are difficult or impossible to achieve with traditional metal machining methods. This opens up possibilities for innovative designs and unique aesthetics.
4. Optimal material utilization: DMLS and SLM technologies minimize material waste as they only use the necessary amount of metal powder for printing. This allows for efficient resource management and reduces production costs.
5. High strength: 3D printed metal parts produced using DMLS and SLM exhibit high strength and durability. They can be used in applications that require heavy mechanical loads or extreme environmental conditions.
6. Customizability: 3D printing in DMLS and SLM technologies enables easy personalization and customization of products to individual needs. Unique parts and components can be created, tailored to specific customer requirements.
7. Reduced time to market: 3D printing in DMLS and SLM technologies accelerates the design and production process, resulting in shorter time to market. This provides a competitive advantage and allows for quick response to changing market demands.
All these benefits make DMLS and SLM technologies widely used in industries such as manufacturing, medicine, aerospace, and many other fields where precision, strength, and production flexibility are crucial.
Wide range of materials:
- Aluminium alloys: ALSi10Mg and AlSi7Mg0.6
- Tool steels: Maraging Steel MS, ToolSteel 1.270, ToolSteel H13
- High-alloy steels: 316L, PH1, 17-4PH
- Nickel alloys: IN718, IN625, IN939
- Titanium alloys: Ti64, TiCP
- Maraging steel, Ti, Co, Co-Cr
3D Metal Printers: EOS M400, EOS M290
3D printing in SLS technology
SLS technology stands out as one of the most promising manufacturing methods among 3D printing technologies. 3D printing in SLS technology has many advantages, with one of the most significant being the absence of the need for support structures, which is a significant advantage of this method. Our SLS system, which we use, has a unique solution in the form of open parameters. This allows us to optimize the technological parameters, specifically tailored to your individual application.
Key advantages of SLS technology
- Durable technical materials (approximately 80-90% of the strength of injection-molded PA12, nylon 12, PA2200)
- Bio-compatibility certification and suitability for food contact for PA2200 material
- Aviation certification (non-flammable PA12 PA2241FR) ensuring non-flammability
- PA11 (PA1100) which is more flexible than PA12
- PrimeCast 1010 material allows for almost 100% removal of the model from the mold during the casting process
- Excellent design freedom due to the absence of the need for support structures
- Easy cleaning of parts from un-sintered powder
- Used in short-run production
- Applied in the power industry, medicine, aviation, foundry, automotive, and design fields
3D Printers: EOS P396
3D printing in MJF technology
Multi Jet Fusion (MJF) technology belongs to the group of Powder Bed 3D printing technologies. Among professional companies offering custom 3D printing, MJF stands out with one of the highest production potentials among additive manufacturing technologies.
Similar to SLS technology, in MJF, models are built layer by layer. However, the method of delivering thermal energy has been innovatively solved through selective light absorption. This process involves applying black dye to the powder layer, increasing energy absorption, and then fusing the marked cross-sections using an energy emitter – a lamp. The darkened cross-sections absorb more energy, allowing for solidification of the layer in conjunction with the previous ones. As a result, MJF technology enables the printing of both prototypes and functional parts.
The resulting models made in MJF technology have a light gray color, but there is the possibility of coloring them in black or other dark colors. This versatile technology allows for the creation of high-quality components and is used in both prototyping and production.
Materials:
- PA21 Polyamide 12, Nylon 12,
- TPU 90A-01.
Key advantages of MJF technology
- High printing speed and fast production cycle
- Precise printing, fine details
- Low cost of personal printing
- Design freedom as no support is required
- Minimal distortion in the final print
- Reduced waste through powder recycling
- Ability to produce colored parts
- High-quality surface finish
- Consistent mechanical properties
- High chemical resistance
- HP’s distinctive polypropylene
HP printers: HP 5210
Large-scale 3D Printing
This is an advanced specialized process related to large-scale 3D printing technology. We have extensive experience in executing projects of impressive and unconventional sizes. By leveraging the latest technological advancements, we are capable of creating vast, three-dimensional structures with unparalleled precision and attention to detail.
Large-scale 3D printing opens doors to limitless possibilities in the realm of creation. Regardless of the specifics of your industry, our technology will enable you to surpass the boundaries of imagination and accomplish even the most ambitious projects.