INDUSTRIALTHERMAL CORE
Production-grade FDM manufacturing using high-performance thermoplastics. From rapid tooling to end-use flight parts. Heat. Extrude. Solidify.
Available Filaments
ABS-ESD7
IDX_01Static dissipative thermoplastic for electronics assembly.
ULTEM 9085
IDX_02Aerospace-grade PEI. Flame, smoke, and toxicity certified.
NYLON 12 CF
IDX_03Carbon fiber filled nylon. Highest stiffness-to-weight ratio.
ASA
IDX_04UV stable weatherable material for outdoor infrastructure.
PC-ISO
IDX_05Biocompatible polycarbonate for medical/food applications.
ANTERO 800NA
IDX_06PEKK-based material with high chemical resistance.
FDM 3D Printing — FAQ
Common questions about industrial FDM printing
What is FDM 3D printing and how does it work?+
Fused Deposition Modelling (FDM) builds parts layer-by-layer by melting and extruding thermoplastic filament through a heated nozzle. It's the most widely used industrial 3D printing method for large structural parts, jigs, fixtures, and functional prototypes.
What materials can Autoabode FDM printers handle?+
Duper series printers support PLA, PETG, ABS, ASA, Nylon (PA6/PA12), CF-Nylon, GF-Nylon, PEEK, PEKK, ULTEM 9085, TPU, and composite filaments. Nozzle temperatures up to 500°C cover all engineering-grade polymers.
What is the largest build volume available?+
Duper XL-600 offers 600×600×600mm. The Giga 3D Printer goes up to 1000×1000×1000mm — India's largest — capable of printing full UAV airframes in one piece.
Are Autoabode FDM printers used by defence and aerospace clients?+
Yes. DRDO, Indian Army R&D units, ISRO, and aerospace firms actively use Autoabode FDM printers to produce structural UAV frames, tooling jigs, and field-deployable spare parts in PEEK and carbon-fibre composites.