IEMAI 3D Printing Filaments IEMAI 3D Printing Materials allows you to have an excellent printing experience; with our guidance in pre/pro-processing, you will obtain a detailed and good-surface finished print prototype. Our 3D Printing Materials are independently developed and using our IEMAI 3D Printers, the filament will be able to outperform well and provide you with an amazing experience and performance for your parts or prototypes. Polylactic Acid (PLA) is a plastic extract from starch (commonly from corn) which is low environmental impact. It is a derivative of starch, green and renewable, a biodegradable material (degrade by itself in the soil), which is environmentally friendly. It is commonly used for decoration and aesthetic purposes. This material is easy to print thus it is the most suitable filament for beginners to use for their very first 3D printers.
PLA Technical Data Sheet(TDS)
Polylactic Acid (PLA) is a plastic extract from starch (commonly from corn) which is
low environmental impact. It is a derivative of starch, green and renewable, a
biodegradable material (degrade by itself in the soil), which is environmentally friendly.
IEMAI 3D high performance PLA filament is based on FFF/FDM technology, with a
commonly used diameter of 1.75 mm, 190-220ºC printing temperature,50ºC bed
temperature (May not necessary), having excellent interlayer adhesion which greatly
improve the strength and shock resistance of the prototype.
PLA can print large models without a heating platform and warping will not happen
easily. It has a low shrinkage rate and performs well even when printing large-size
models. PLA is widely used in education, home, machinery, electronic appliances,
instrumentation, and other fields
Physical Condition
- Test Method Typical Value
Density ASTM D1505 1.24 g/𝑐𝑚3
- Mechanical Condition Test Method Typical Value
Tensile Strength MD ASTM D882 110,3 MPa
TD ASTM D882 144,7 MPa
Tensile Modulus MD ASTM D882 3309 MPa
TD ASTM D882 3861 MPa
Elongation at Break MD ASTM D882 160%
TD ASTM D882 100%
Elmendorf Tear MD ASTM D1922 15g/mil
TD ASTM D1922 13g/mil
- IMPACT Condition Test Method Typical Value
Spence Impact 2.5 J
- Thermal Condition Test Method Typical Value
Melting Point ASTM 3418 145-160 ºC
- Transmission Rates Condition Test Method Typical Value
Oxygen D1434 675 cc-mil/ m2-24hr-atm
Carbon Dioxide Internal 2.850 cc-mil/ m2-24hr-atm
Water Vapor ASTM F1249 375 g-mil/m2-24
- Optical 1.50 mm HB
3D printing solutions for high performance materials
Haze ASTM D1003 2.10%
Gloss 20ºC ASTM D1003 90
- Print Recommendation
Nozzle Temperature 190 -220 ºC
Bed Temperature 0-50 ºC
Print Speed 30-70 mm/s
Chamber Temperature 0-40 °C
Cooling Fan 0-100