Complex Parts
Made Easy
From Design to Prototype to Production, Additive Manufacturing Solutions across Industries.
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Precision Additive Manufacturing |
Engineered for Performance
Atomic Additive is a high-precision Additive Manufacturing company based in Coimbatore, Tamil Nadu, delivering engineered components for mission-critical applications across Medical, Aerospace, Automotive, and General Engineering sectors. We combine advanced design engineering with industrial-grade additive manufacturing technologies to produce high-performance parts with superior dimensional accuracy, material integrity, and repeatability.
Our Services
High-Performance Industries
Medical Solutions
Precision Healthcare, Powered by Additive Manufacturing
We design and manufacture patient-specific medical solutions that improve surgical planning, accuracy, and outcomes. By converting medical imaging into high-precision physical products, we bridge the gap between diagnosis and execution.
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Aerospace Solutions
Engineered for Performance. Built for Precision.
We provide advanced additive manufacturing solutions for aerospace applications—enabling lightweight, high-strength components with complex geometries and uncompromising reliability.
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Automotive Solutions
High-Performance Parts, Built for Speed and Precision
We deliver advanced additive manufacturing solutions for the automotive industry—enabling rapid prototyping, lightweighting, and production of complex, high-performance components.
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General Engineering Solutions
Versatile Manufacturing for Complex Engineering Needs
We provide advanced additive manufacturing solutions for a wide range of engineering applications—enabling rapid development, functional performance, and production of complex components across industries.
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Consumer Goods
Design-Driven Products with Precision Manufacturing
Precision manufacturing for design-led consumer products, from rapid prototyping to end-use production with exceptional finish, detail, and customization.
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Jewellery Manufacturing
Intricate Jewellery, Powered by Precision Additive Manufacturing
High-precision additive manufacturing for intricate, design-driven jewellery, enabling unmatched detail, customization, and production flexibility.
View MoreMATERIALS
- PLA
- PLA-CF (Carbon Fiber Reinforced PLA)
- PETG
- PETG-CF
- ABS
- ASA
- PC (Polycarbonate)
- PC-CF
- PA (Nylon)
- PA-CF
- TPU (Flexible)
- PVA (Support Material)
- Bambu Support W
FDM materials are widely used for functional prototypes and engineering components. These thermoplastic polymers provide strong mechanical properties, durability and design flexibility.
- BioMed Clear
- BioMed Amber
- BioMed White
- BioMed Black
- Surgical Guide Resin
- Dental Model Resin
- Custom Tray Resin
- IBT Resin
- Tough 2000
- Tough 1500
- Durable
- Rigid 10K
- High Temp
- Grey Pro
- Elastic 50A
- Flexible 80A
SLA resins provide extremely high accuracy and smooth surface finish. These materials are ideal for medical models, dental applications and high precision prototypes.
- Ti6Al4V Grade 23 (Medical Grade)
- Ti6Al4V Grade 5
- 316L Stainless Steel
- 17-4PH Stainless Steel
- AlSi10Mg Aluminium
- Inconel 718
- Inconel 625
- CoCrMo (Medical/Dental Grade)
- Maraging Steel MS1
DMLS metal powders enable production of high performance metal components for aerospace, medical and industrial engineering applications.
What We Use
Technologies
Our Core Technologies
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FDM
Fused Deposition Modeling
A thermoplastic filament is heated and extruded layer-by-layer through a precision nozzle to build parts from the bottom up. FDM is widely used for rapid prototyping, functional testing, and low-cost manufacturing of complex geometries with a broad range of engineering-grade materials.
SLA
Stereolithography
A UV laser cures liquid photopolymer resin layer-by-layer in a resin tank, producing extremely high-detail, smooth surface finish parts. SLA excels in applications demanding tight tolerances, intricate features, and excellent optical clarity — ideal for medical, dental, and jewellery prototypes.
DMLS
Direct Metal Laser Sintering
A high-powered fiber laser selectively melts fine metal powder layer-by-layer in a controlled inert gas environment, creating fully dense, high-performance metal components. DMLS produces parts with mechanical properties comparable to wrought metal, enabling complex internal channels and lightweight structures.