BASF Ultracur3D RG 3280

The Ultracur3D RG 3280 resin is a ceramic-filled resin from the BASF family of Rigid resins and the first composite material in that product line. RG 3280 stands out due to its exceptionally high stiffness (10000 MPa) and resistance to high temperatures (HDT of above 280 ºC @ 0.45 MPa).

In spite of the high ceramic particle content (around 65 wt%), the RG 3280 resin has fairly low viscosity (230 mPas) and high suspension stability, which makes it easy to handle and 3D print and leads to low settling in the vat. Parts 3D printed with the BASF RG 3280 resin have a white ceramic-like color and feel.

Video 1: The properties of the RG 3280 resin. Source: BASF.

RG 3280 can be printed on any open source LCD/DLP printer that utilized the 355-405 nm, such as the Nexa XiP 3D printer or the Phrozen Mini 4K printer. Detailed printer compatibility and recommended settings can be consulted in the Downloads section.

Image 1: A part 3D printed with the RG 3280 resin. Source: BASF.

Compared to other materials in the BASF Rigid product line, the RG 3280 resin demonstrates significantly higher heat resistance than Ultracur3D RG 35 and Ultracur RG 1100 at a comparable tensile strength. Ultracur RG 3280 also offers higher temperature resistance and tensile strength than other similar resins on the market while having considerably lower viscosity. 

Image 2: A comparison between the RG 3280 resin and the other BASF RG resins. Source: BASF.

As far as chemical resistance, samples 3D printed with the Ultracur RG 3280 resin were submitted to testing to determine their resistance to various hydrocarbons and cleaning chemicals (cooling fluid, multipurpose fat, engine oil, hydraulic oil, brake fluid, transmission oil, acetone, isopropanol). The weight and mechanical properties (E modulus, tensile strength and elongation at break) of the samples were tested after 30 minutes and after 7 days. Overall, the most prominent changes were observed in elongation at break, whereas other mechanical properties have shown to be relatively stable. The detailed results can be consulted in the Downloads section.

Image 3: A mold 3D printed with the BASF RG 3280 resin. Source: BASF.

It should be kept in mind that the BASF RG 3280 resin is not meant to be burn out to create a 100 % ceramic part. RG 3280 is meant to be used in the form of plastic with a simulated ceramic look and feel. Nevertheless, performing an additional thermal cure (3 h at 150 °C) after the UV postcure can enhance the HDT properties of the parts, as well as reduce the yellowing often caused by the UV curing.

Thanks to the RG 3280 resin's stiffness and resistance to heat, parts printed with this resin can be used in applications such as high stiffness tooling, high detail molds for high temperature applications or wind-tunnel test with scaled models.