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xPRO9400-FR resin Nexa 3D

Ref.: RS-NEXA-XPRO9400FR-1000

250.00 €

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Approximate delivery date: Friday 26 September - Wednesday 1 October

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The xPRO1100 Black resin from the Nexa3D portfolio of engineering resins is meticulously designed to meet the rigorous demands of industrial applications, offering unparalleled performance and reliability. With its versatile applications spanning across automotive components, aerospace prototypes, engineering parts, and consumer products, this resin sets a new standard in additive manufacturing.

The xPRO9400-FR resin is a groundbreaking product developed through a collaboration between Nexa3D and BASF ForwardAM, poised to redefine the landscape of flame retardant 3D printing materials. This resin sets a new standard with its high-throughput flame retardant properties, making it an ideal choice for applications where safety is paramount. Designed with a UL 94 V-0 rating and a halogen-free composition, it ensures unparalleled protection in flame-prone environments while aligning with modern sustainability goals.

Part 3D printed with the xPRO9400-FR resin

Image 1: Part 3D printed with the xPRO9400-FR resin. Source: Nexa3D.

Distinguishing itself with a remarkable heat deflection temperature (HDT) exceeding 250°C, the xPRO9400-FR stands as a pinnacle of thermal stability. Its rigid composition makes it an ideal choice for a myriad of applications, particularly in the automotive and aerospace sectors, where durability and reliability are paramount. Whether crafting intricate electronics or robust jigs and fixtures, this resin excels in high-temperature environments, offering unmatched performance and peace of mind.

But the xPRO9400-FR doesn't stop there. Its low viscosity facilitates seamless handling and processing, streamlining production processes and reducing downtime. With its exceptional temperature resistance, it ensures reliability even in the most demanding conditions. From automotive and aerospace parts to jigs and fixtures for electronics handling and assembly, the xPRO9400-FR resin is the ultimate solution for high-performance 3D printing applications.

General information
Manufacturer	Nexa 3D
Material	Photopolymer
Format	1 kg
Technology	LED / LCD
Wavelength	- nm
Viscosity	(ASTM D7867) (@ 25 ºC) 830 cP / (@ 30 ºC) 490 cP
Density (solid)	(ASTM D792) 1.32 g/cm³
Density (liquid)	(ASTM D4052-18a) 1.21 g/cm³

Printing properties
Layer height	- µm
Layer exposure time	-
Layer off time	-
Lifting height	- mm
Bottom layer exposure	-
Bottom layer count	-

Mechanical properties
Izod impact strength	- KJ/m²
Charpy impact strength	(ISO179-1) 0.9 KJ/m²
Elongation at break	(ASTM D638) 3.1 %
Tensile strength	(ASTM D638) 71 MPa
Tensile modulus	(ASTM D638) 3470 MPa
Flexural strength	(ASTM D790) 115 MPa
Flexural modulus	(ASTM D790) 3400 MPa
Surface hardness	(ASTM D2240) Shore 88 D

Electrical properties
Volumetric resistivity	(DIN EN 62631-3-1) 2.20E+16 Ω·cm
Surface electrical resistivity	(DIN EN 62631-3-2) 4.50E+16 Ω
Comparative tracking index	(DIN EN 60112) 600 V
Electrical resistivity	(DIN EN 60243-1) 31 kV/mm

Thermal properties
Softening temperature	174 ºC
Flammability classification	(UL94) 2 mm: V0; 1.5 mm: V1 / (DIN EN 45545-2) R22 H1 (2 mm, 2.5 mm); R23/24 HL2 (2 mm, 2.5 mm)
Glass transition temperature	(ASTM D4065) 175 ºC
Heat deflexion temperature	(ASTM D648) @ 0.45 MPa: >174 ºC; @ 1.82 MPa: 69 ºC
Thermal expansion coefficient	(ASTM E831) (-40 ºC - 0 ºC) 49 µm/(m·K) / (0 ºC - 50 ºC) 81 µm/(m·K) / (50 ºC - 100 ºC) 137 µm/(m·K) / (100 ºC - 150 ºC) 111 µm/(m·K)

Specific properties
Maximum water absorption	(ASTM D570) (24hr) 0.65 % / (>1500hrs) >5%

Curing, washing, and sintering properties
Washing time	-
Curing time	-
Curing temperature	- ºC

Other
HS Code	2916.1
Lifetime (since manufacturing)	- M

To prevent crystallization and solidification over extended storage, particularly in colder environments, it's necessary to preheat the Nexa3D xPRO9400-FR resin prior to printing for 5 hours at 40 ºC. Parts 3D printed with the Nexa 3D xPRO9400-FR resin will achieve their specific properties only after being subjected to post-processing by washing and curing. If applicable, the support structures must be removed from the part before curing and the part must be washed. Nexa3D recommends using xClean (max. 2 minutes) followed by IPA alcohol (max. 5 minutes).

Once washed, the parts 3D printed with the xPRO9400-FR resin must be dried and then cured either with the help of an LED or wide spectrum lamp, or in the Nexa 3D Wash+Cure station developed especially for the washing and curing of parts 3D printed on the XiP 3D printer. The recommended washing, drying and curing times can be consulted on the manufacturer's website for each Nexa 3D resin. After the post-curing, parts 3D printed with the xPRO9400-FR resin can be subjected to an additional thermal treatment. The instructions can be found in the product's Technical Datasheet in the Downloads section.

Certain precautions must be taken when working with 3D printing resins. The user must ensure that the working space is adequately ventilated, and that protective goggles, gloves and garments are worn at all times. The xPRO9400-FR resin should be stored in a tightly closed container/resin vat to avoid resin deterioration due to UV exposure. The container/vat should be kept in a cool, well ventilated area away from heat, sparks and open flame.

More information on how to print and post-process the Nexa 3D resins can be found here.