By Eryone QC Andy Wen,
In the actual market, customers need some filaments that can print special effects, such as imitation marble grains and carved stone figures. Marble PLA is very suitable for customers who want to create prints with stone effect and imitation marble grains, because the printing surface of the marble PLA print has a fine and smooth texture with marble grain.
Marble PLA filaments are developed based on standard PLA material (Polylactic Acid) that has its own physical properties. The physical property of Marble PLA decides the performances of Marble PLA prints, including toughness, shrink rate, water absorbency, printing temperature and so on.
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Marble PLA Parameters |
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physical properties: |
Typical Value: |
Method: |
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Peak melt Temperature: |
155℃±5℃ |
ISO 11357 |
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Glass Transition Temperature: |
60℃ |
ISO 11357 |
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MFR[g/10min](1):210℃ / 2.16KG |
6g/10 min |
ISO 1133 |
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Specific Gravity[g/cm3]: |
1.24 g/cm³ |
ISO 1183 |
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moisture absorption 24hr[%](2) : |
≤380 ppm |
/ |
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Heat Deflection Temperature(0,45MPa): |
60℃ |
ISO 75 |
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Tensile Yield Strength Filament[MPa]: |
65 Mpa |
ISO 527-1 |
The parameters in the above table are measured by professional testing instruments.
Diameter and Tolerance
Diameter and tolerance are the very basic parameters that we must know before our test.
And high precision of filament can make a constant diameter and make filament hardly get clogged. After testing via a micrometer, we know the diameter of Marble filament is 1.75mm with a tolerance ±0.03.
In the production, the diameter of the filament can be set on the precise equipment. However, the equipment with different precision can produce filaments with different diameters. To remove this hassle, we apply the equipment with 1.75±0.03mm high precision. Next, we use micrometer to do a spot check of the precision of produced filaments.
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Test Object |
Marble PLA |
Test Contents |
Diameter and Tolerance |
Time |
2020 |
Testing Tool |
Micrometer |
Test Method |
A test point for every 30cm. There are 12 testing points. |
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Color |
Data 1 |
Data 2 |
Data 3 |
Data 4 |
Data 5 |
Data 6 |
Data 7 |
Data 8 |
Data 9 |
Data 10 |
Data 11 |
Data 12 |
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Grey(mm) |
1.75 |
1.74 |
1.76 |
1.75 |
1.74 |
1.77 |
1.74 |
1.73 |
1.75 |
1.76 |
1.75 |
1.75 |
From the testing data in the table, there are 12 test points for filaments in each color. There is a 30cm distance between the two test points. As is the micrometer shown, the 12 date indicate that the filaments in different colors has reached the high precision 1.75±0.03mm. So Marble filament meets the standards of the diameter.
Temperature Property
As we know, PLA filament is user-friendly for our beginners because it’s easy to use.
Marble PLA filament, as it’s developed based on standard PLA material, also can be very user-friendly. To get a wonderful print, we must make sure that we know the printing temperature well. The printing temperature directly influences the constant diameter and the liquidity of the output filament. For printing temperature, we set the temperature as some points within 190-220℃.
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Test Object |
Marble PLA |
Time |
2020 |
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Test Method |
Print at some different temperature points. |
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Color |
195℃ |
205℃ |
220℃ |
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Grey |
 |
 |
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As shown in the table above, the printing temperature points of the Marble filament 196℃, 205℃ and 220℃, under which the output filament has a constant diameter, smooth fluidity and little string. Therefore, when the temperature ranges 190-220℃, the Marble PLA filament can reach a high-quality printing effect.
Matching Rate of Speed and Temperature
The matching rate of speed and temperature is also an factor that affects the printing effect. Also, it reflects how customers get familiar with the slicing of this matte filament.
We choose 3 temperature points to test. At a certain temperature, we set different printing speed as the print gets higher. In this way, we can find the optimal match of temperature and speed.
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Test Object |
Marble PLA |
Time |
2020 |
Test Method |
In accordance with constant temperature and inconstant speed, we choose 3 temperature points to find that in which speed the prints get the best printing effects. |
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Pinter Type |
Ender 3 |
prusa i3 |
CR-10 |
Thinker SE |
ER-20 |
mega-s |
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The temperature matches the speed |
195℃:≤40mm/s; |
195℃:≤50mm/s; |
195℃:≤40mm/s; |
195℃:≤40mm/s; |
195℃:≤40mm/s; |
195℃:≤35mm/s; |
The table above shows the optimum matching rate of speed and temperature on mainstream printers. We can refer to the table above to slice.
For Marble PLA, the printing temperature can be higher, the speed should be lower. In this way, the prints will have smoother surface but less string.
The Adhesivity of the Heated Bed
Marble PLA is similar to other PLA filaments in that they have lower temperature requirements for heated beds. The following are the temperature requirements for common heated beds.
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Test Object |
Marble PLA |
Time |
2020 |
Test Method |
Print on the different type of bed to test the sticking temperature |
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Bed Type |
PEI Flexible Bed Adhesive |
Glass Bed |
Microporous Coated Glass Bed |
PEI Bed Adhesive |
Ink-coated Glass Bed |
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Sticking Temperature |
55-65℃ |
65-70℃ |
60-65℃ |
55-65℃ |
60-65℃ |
We can know from the table that Marble PLA has a high compatibility with the mainstream bed.
Compatibility of 3D Printers
Without a printer, the filament can not produce a print. The compatibility of the printer should also be taken into concern.
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Test Object |
Marble PLA |
Time |
2020年 |
Test Method |
Print via mainstream printers |
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Test Color |
Grey |
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Test Type |
Thinker SE、CR-10、Ender 3、Mega-s、ER-20、Prusa i3 |
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Result |
Within 190-220℃, the above printers can print normally and for the specific recommended parameters, you can refer to the specification. |
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From the above test process, Marble PLA filament applies to most FDM printers in the market. When you use different printers, the slicing parameters should be different. The retracting length set for Bowden and direct drive printers should be different. That will be given in the product specification and you can refer it.
Retracting and String
Generally speaking, proper retracting value can decrease string rate. After a few times of testing, we get the following data. With an inconstant printer, we test to find that the optimum retracting value for a certain temperature rang. The marble print in the picture has little strings.
After comprehensive testing of the above projects, we give you reference of parameters—Bowden extruder printer: printing temperature 200-215℃, retracting length 4-6mm, retracting speed 50-70mm/s; direct-drive extruder printer: printing temperature 200-220℃, retracting speed 0.8-1mm, retracting speed 35-40mm/s.
205℃
In conclusion, the printing surface of Marble PLA print has a fine and smooth texture with marble grain. In terms of printing habits and usage, the Marble PLA has no different from the standard PLA and it also can be user-friendly.
