HD PLA 3D

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Description

It is designed for printing in FFF/FDM technology and available in different colors, with our HD PLA you have many more options. You can use this material in two ways. Choose the one you like best. You can use it as a normal PLA and get prints characterized by a very good adhesion between the layers and high precision. You can also make your prints acquire similar properties to that of ABS – better impact resistance and high temperature resistance. All you need is an oven. Yes, an oven! By annealing our HD PLA in an oven, in accordance with the manual, you will avoid all the inconveniences of printing with ABS, such as unpleasant odour or hazardous fumes. But these are not all the advantages of HD PLA. For the production of this material we have chosen raw materials that are approved for food contact in compliance with the EU directive and FDA regulations. HD PLA is also certified by RoHS.

This material data has been provided by Advanced Manufacturing Technologies.

All metrics apply to room temperature unless otherwise stated. SI units used unless otherwise stated.
Equivalent standards are similar to one or more standards provided by the supplier. Some equivalent standards may be stricter whereas others may be outside the bounds of the original standard.

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Properties

General

PropertyTemperatureValueComment

Density

23.0 °C

1.24 - 1.25 g/cm³

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ISO 1183 (Maximum value is reached through annealing)

Dimension

PropertyValueComment

Diameter

1.75 - 2.85 mm

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Tolerance +/- 0.02 mm

Mechanical

PropertyTemperatureValueComment

Elastic modulus

23.0 °C

3.65 - 3.71 GPa

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ISO 527 (Maximum value is reached through annealing)

Elongation

23.0 °C

2.4 - 2.7 %

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ISO 178(Minimum value is reached through annealing)

Flexural modulus

23.0 °C

3.43 - 3.44 GPa

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ISO 178(Maximum value is reached through annealing)

Flexural strength

23.0 °C

90 - 93 MPa

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ISO 178(Maximum value is reached through annealing)

Impact strength, Charpy unnotched

23.0 °C

11 - 20 kJ/m²

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ISO 179-1 (Maximum value is reached through annealing)

Tensile strength

23.0 °C

45 - 51 MPa

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ISO 527 (Maximum value is reached through annealing)

Thermal

PropertyValueComment

Heat deflection temperature, 1.80 MPa

80 - 144 °C

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ISO 75, unannealed-annealed condition

Technological properties

Property
Application areas

TOYS OR THEIR ELEMENTS: human figures, animals, constructions, houses, vehicles, dice - GADGETS OR THEIR ELEMENTS: key rings, stands, phone cases - PROTOTYPES: tools, concept models - ELEMENTS OF JEWELLERY: earrings, bracelets, beads, necklaces - SPARE PARTS: elements of machines, equipment, vehicles, electronic equipment - TOOLS: complex elements requiring durability - HOUSE EQUIPMENT: bowls, trays, boxes

Processing methods

Print temperature: 200-230°C, Bed temperature: 50-70°C (when using plates or other means to increase the adhesion, the heating of the bed is not required) - heating of the print should be conducted in accordance with the manual provided by Fiberlogy