Spessore delle pareti
In 3D Printing, wall thickness refers to the distance between one surface of your model and the opposite sheer surface. For Aluminum, the minimum wall thickness you can use is 1 mm. The applicable minimum wall thickness might vary as it depends, amongst other factors, on the part’s geometry and size. There is no maximum wall thickness as such but keep in mind that thicker areas may increase stresses in your part, which could cause deformations and might lead to unstable build processes.
Dimensione del dettaglio
Very fine details (as small as 0.5 mm) are possible when you print in Aluminum, using Metal 3D Printing (M3DP). Detail sizes refer to the distance between the surface of your model and the surface of your detail. Letters are also considered as details but their specifications vary depending on whether they are engraved or embossed. For engraved text or surface details, we recommend letters with a minimum line thickness of 0.4 mm, a minimum overall height of 0.4 mm, and a minimum depth of 0.15 mm. For embossed text or surface details, we recommend letters to have a line thickness of at least 0.4 mm, an overall height of at least 0.4 mm, and a depth of at least 0.15 mm.
Qualità della superficie e orientamento
The buildup direction of a part has a large impact on the surface quality as it defines the orientation of the part’s surfaces with respect to the horizontal plane or build plate. Angles (β) measuring less than 45° with reference to the build plate tend to lead to poorer surface quality, while steep angles of more than 45° are likely to have better, smoother surfaces. An overhanging structure (e.g. the underside of a table) is likely to have poor surface quality.
Thermally Induced Stresses
Your model in Aluminum is 3D-printed using M3DP which is basically a layer-wise welding process. The layer-wise powder melting and its solidification leads to thermally induced stresses upon the cooling down of the melted powder. A design that is not suitable for M3DP can lead to build failures and/or part deformations due to large thermally induced stresses. It is therefore essential to consider the process-specific restriction while designing the part. We advise you to round off or fillet the edges in your design with a minimum radius of 3 mm. Also, avoid sharp edges for the same reason. Try to avoid large material accumulations and, in general, favor organic shapes over edged designs.
Dimensional accuracy doesn’t relate to the detail of your model but to its deviation from the nominal measurement. The general accuracy for 3D-printed Aluminum is ± 0.2% (with a lower limit on ± 0.2 mm). Note that form deviations might also occur due to designs that do not conform to M3DP and high thermally induced stresses.
M3DP is a layer-wise manufacturing process. The part is built up layer by layer according to a digital file. Depending on the part surface’s orientation, support structures might become necessary which also have to be printed in the manufacturing process. The support structures keep your model rigidly connected to the build platform during the printing process and absorb internal stress, while also preventing part deformations. Walls or overhangs with angles measuring below 45° with reference to the build platform typically need to be supported as they would otherwise lead to building errors. After the part is successfully built, the support is removed and the part is sandblasted. Some evidence of the removed support structures may still be visible.
Rimozione della polvere
When making a hollow model, it is important to include at least one hole in your design so that the unused powder trapped inside the cavity can be removed. Try to use a minimum wall thickness of 1 mm and keep at least one opening with a minimum diameter of 3 mm. This opening will serve as an exit for the unused powder trapped inside the printed part. Larger and complex cavities need multiple holes with larger diameters, preferably 7 mm. Holes in the center of your model are usually the best as they allow most of the powder to be removed. Powder traps in hollow part sections must be avoided in order to allow for complete removal of the powder inside the hollow section.
Although the printing process itself allows us to produce air- or water-tight items, we do not guarantee the air- or water-tightness of the printed parts.
The minimum recommended diameter for a hole is 2 mm. This is the minimum diameter needed to remove internal powder; if the hole is smaller the powder will get stuck inside the geometry. Complex and irregularly shaped holes or interior spaces are impossible for us to inspect or remove the powder completely.
The longer and more complex you make the internal channels, the larger the minimum diameter you have to maintain. A print result according to the CAD geometries therefore cannot always be guaranteed in such cases. We strongly recommend that you avoid designing long internal channels in M3DP unless you are in contact with a Materialise project manager who can review your files.
For bores with high demands on tolerances, we recommend providing offsets or closing the holes completely for printing. The part can later be post-machined to ensure bores according to the part-specific requirements.
Requisiti dei file per OnSite
Accettiamo i seguenti formati di file: STL, 3DS, 3DM, OBJ, WRL, MATPART, STP, SKP, SLDPRT, STEP, CATPART, IGES, MODEL, MXP e MGX.
Oltre ai formati di file abbiamo anche vincoli relativi al contenuto dei file. Per fornire la migliore qualità possibile e garantire la tracciabilità consentiamo un solo modello per file.
|Precisione standard||± 0,2% (con limite inferiore pari a ± 0,2 mm)|
|Spessore strati||0,03 – 0,1 mm|
|Spessore minimo delle pareti||0,5 mm|
|Dettaglio minimo||0,5 mm|
|Dimensioni massime della parte||
500 x 280 x 315 mm (ordini effettuati offline)
|Interlocking or enclosed parts?||No|
|Struttura della superficie||Le parti non sottoposte a finitura hanno in genere una superficie grezza ma è possibile ottenere superfici levigate mediante vari livelli di finitura|