USA & Canada
USA & Canada
a graphic of a 3 dimensional polygon shape
Blog

FDM Antero™ 800NA & New Opportunities for Chemical Resistant 3D Printed Parts

Stratasys Direct
Stratasys Direct February 06, 2019
February 06, 2019
Antero 800NA is strong with excellent temperature, wear and chemical resistance.

FDM Antero™ 800NA & New Opportunities for Chemical Resistant 3D Printed Parts

The latest in Fused Deposition Modeling (FDM) materials offers expanded opportunities for plastic 3D printed production parts in a key area – chemical resistance. Most thermoplastics fail when in contact with fuel, hydraulic fluids or other chemicals. FDM Antero™ 800NA, a Stratasys PEKK proprietary blend, solves those challenges with excellent mechanical properties and the highest chemical resistance available.

Standard PEKK is somewhat limited due to stock shapes and sizes in CNC machining, leading to limited design options and lengthy production times. Now, designers and engineers can take advantage of the advanced properties of PEKK with the design freedom and fast production times of 3D printing.

 

FDM Antero 800NA Key Characteristics

FDM Antero 800NA is ideal for customized parts needed at low volumes. The material is perfect for quick delivery of parts to market, especially when there is uncertainty of demand, product lifespan, or when the design is in the early stages, and changes are needed. 

Antero 800NA is strong with excellent temperature, wear and chemical resistance. The material has ultra-low outgassing properties with TML (total mass loss) of 0.27% and a CVCM (collected volatile condensable materials) of 0.01%. This data exceeds the NASA specifications for selecting spacecraft materials with low outgassing properties. 

The additive PEKK material has the highest chemical resistance available with FDM technology, expanding its use in aircrafts and oil and gas applications that other materials can’t fulfill. Antero 800NA passes 14CFR/FAR 25.853 in (horizontal 15 sec, vertical 12 & 60 sec, 45° ignition and heat release), and it passes the NBS smoke density both flame and non-flame per 4814/E662. Antero 800NA has passed MIL-STD-810G-504.1, the military standard that tests the limits to the conditions that the part will experience in service life, specifically the contamination by fluids. 

3D printing with the PEKK blend provides new design freedom than standard PEKK which would be CNC machined. The material and stock shapes tend to be expensive, and so much of the material is milled away and discarded. 3D printing only utilizes the material needed for the geometry. Moreover, an engineer or development team only has to maintain digital inventories with the ability to quickly 3D print their components as needed. 

FDM Antero 800NA produces extremely accurate parts even in large sizes, with a standard offered tolerance of +/-0.010” or +/-0.0015 per inch, whichever is greater. When there are critical, tighter dimensions that are needed, Stratasys Direct's engineering staff and quality departments can review projects and give confidence to the customer prior to ordering.  

 

Antero 800NA vs ULTEM™ Resin Materials

 

ULTEM™ 1010 Resin ULTEM™ 9085 Resin Antero™ 800NA

Mechanical - XZ

 

Tensile Strength

9.3 KSI 10.0 KSI 13.5 KSI

Tensile Modulus

402 KSI 312 KSI 449 KSI

Elongation (Break)

3.3% 5.8% 6.4%

Mechanical - ZX

 

Tensile Strength

5.9 KSI 6.1 KSI 6.6 KSI

Tensile Modulus

322 KSI 329 KSI 505 KSI

Elongation (Break)

2% 2.2% 1.2%

Thermal

 

HDT (266 psi)

213°C 153°C 147°C

Melting Point

N/A N/A 310°C

Glass Transition

215°C 186°C 149°C

Outgassing

 

Total Mass Loss (TML)

0.07% 0.41% 0.27%

Collected Volatile Condensable Materials (CVCM)

0.01% 0.01% 0.01%

Water Vapor Recovered (WVR)

0.06% 0.37% 0.15%

 

Ideal Antero 800NA Applications 

Due to Antero 800NA’s enhanced mechanical properties, the material can withstand exposure to cleaning chemicals, fuels, hydraulic fluids and high temperatures experienced in aerospace environments. The material can be used in aerospace applications such as clips, brackets, ducting, tooling, space vehicle components, ground support equipment, and test and flight operations. 

Further applications include components in high-end manufacturing that may be exposed to chemicals and high temperatures, custom tooling, jigs, fixtures, custom housings for oil and gas components, under-hood and fuel components, and any parts exposed to hydrocarbons. 

 
Fdm

9085, 1010 and ULTEM™ trademarks are used under license from SABIC, its affiliate or subsidiary.

Discover the possibilities with FDM Antero™ 800NA

Get a Quote

Related Content

ultem9085

ULTEM™ Resin Takes 3D Part Strength to Another Level

ULTEM™ 9085 resin is a high-performance thermoplastic suited for parts that need superior durability.

View more
pc iso

PC-ISO Combines Strength and Safety for FDM Medical Applications

Additive manufacturing processes like Fused Deposition Modeling (FDM) have the materials to meet medical safety requirements.

View more
fdm sparse fill 3

Sparse Fill vs. Solid FDM Parts

Learn the top benefits of sparse fill vs. solid FDM 3D printed parts.

View more
ultem9085

ULTEM™ 9085 resin is a high-performance thermoplastic suited for parts that need superior durability.

pc iso

Additive manufacturing processes like Fused Deposition Modeling (FDM) have the materials to meet medical safety requirements.

fdm sparse fill 3

Learn the top benefits of sparse fill vs. solid FDM 3D printed parts.