Pricing Strategy

Optimized Value Per Layer

Transparent industrial pricing for the Dubai market. We focus on cost-efficient manufacturing without compromising on ISO-certified quality.

FDM Printing

Ideal for functional prototypes, jigs, and fixtures.

Quote-Based*Customized based on geometry
  • PLA, ABS, PETG
  • Fast Turnaround
  • Large Scale Available
Configure Part

SLA / Resin

Best for high-detail visual models and miniatures.

Quote-Based*Customized based on geometry
  • Smooth Surface
  • 0.025mm Precision
  • Clear & Flexible options
Configure Part

SLS / HP MJF

Industrial grade for end-use functional parts.

Quote-Based*Customized based on geometry
  • No Supports Needed
  • Isotropic Strength
  • Nylon PA12 Material
Configure Part

Metal DMLS

Aerospace and Medical grade titanium/steel parts.

Quote-Based*Customized based on geometry
  • Fully Dense Metal
  • Extreme Durability
  • Certificated Materials
Configure Part

Comprehensive Industrial Ecosystem

We provide more than just 3D prints. Our facility offers a complete workflow from engineering design to specialized manufacturing.

Additive Manufacturing

Product Development

Mechatronics Engineering

Paint & Post-Processing

3D Design & Scanning

Display Model

Styrofoam, GRP and FRP

What Determines Your 3D Printing Cost?

Unlike traditional machining, additive manufacturing pricing is largely tied to material volume and machine run-time. Understanding these variables helps you optimize your part for lower costs.

Material Choice

Specialized resins and metal powders cost significantly more than standard PLA filaments.

Part Volume

The amount of raw material used is the primary driver of cost in additive manufacturing.

Geometry Complexity

Internal channels or lattices may require more support material and cleaning time.

Post-Processing

Bead blasting, vapor smoothing, or painting adds labor time and professional finish.

16h

Fast Average Turnaround

92% of orders shipped within 24 hours.

98%

First Print Success

Proprietary DfAM analysis reduces waste.

"Our pricing reflects our commitment to industrial reliability. We don't just print; we engineer for cost-effective production."

Estimated Service Comparison

Benchmark your project against our core industrial technologies.

TechnologyCost ProfileBest Usage
FDM (Thermoplastics)EconomicalDraft Prototypes, Large Housings
SLA (Photo-Polymer)Mid-RangeSmooth Detail, Casting Patterns
MJF (Nylon PA12)Production GradeEnd-use Production, Mechanical parts
DMLS (Metal)Industrial / PremiumFunctional Metal, Aerospace Inserts
The Ultimate Guide

3D Printing & Additive Manufacturing

Everything you need to know about the technology that is reshaping the future of production.

Introduction to Additive Technology

3D printing is an additive technology used to manufacture parts. It is ‘additive’ in that it doesn’t require a block of material or a mold to manufacture physical objects; it simply stacks and fuses layers of material.

It’s typically fast, with low fixed setup costs, and can create more complex geometries than ‘traditional’ technologies, with an ever-expanding list of materials.

3D Printing
Additive Tech

🛠️ 3D Printing

Commonly associated with maker culture, hobbyists, and amateurs. Focuses on democratization through affordable desktop machines like FDM using ABS and PLA.

🏭 Additive Manufacturing

Associated with commercial and industrial applications. High-end systems (SLS, MJF, DMLS) used for end-use production and complex industrial components.

The Evolution of 3D Printing

1981

The First Patent

Hideo Kodama (Japan) designs a device using UV light to cure photopolymers for rapid prototyping.

1984

Birth of SLA

Chuck Hull files a patent for 'Apparatus for Production of Three-Dimensional Objects by Stereolithography' (SLA).

1987

STL File & 3D Systems

Chuck Hull invents the STL file format and founds 3D Systems, the industry giant.

1989

FDM & SLS Emergence

S. Scott Crump patents Fused Deposition Modeling (FDM) and founds Stratasys. Carl Deckard patents SLS.

2005

RepRap Project

Launch of open-source project to create self-replicating 3D printers, sparking mass interest.

2009

Democratization

Key FDM patents expire. MakerBot launches the 'Cupcake CNC', making 3D printing affordable.

2014-Today

Industrial Maturity

SLS patents expire. 3D printing enters its mature phase as a viable manufacturing solution.

Additive vs Traditional Manufacturing

Additive

Builds up 3D objects by depositing and fusing 2D layers of material. Near zero startup time or costs. Ideal for prototyping and complex geometries.

Subtractive

Milling/Turning. Creates objects by removing material from a solid block. Incredibly accurate with high repeatability. Best for medium volumes.

🏗️

Formative

Injection molding/Stamping. Creates objects by forming material into shape via heat and pressure. Very high setup costs but lowest unit cost for mass production.

📊 Decision Rule of Thumb

Additive: Low volumes, complex designs.

Subtractive: Medium volumes, tight tolerances.

Formative: High-volume production.

3D Printing vs CNC Machining

3D printing shines in low volume (1-100 parts), while CNC takes over as volumes increase and precision requirements tighten.

The 7 Official Types of 3D Printers

Vat Polymerization

Liquid photopolymer is cured by UV light (SLA, DLP).

Material Extrusion

Molten thermoplastic deposited through a nozzle (FDM).

Powder Bed Fusion

Laser fuses powder particles layer by layer (SLS, MJF).

Material Jetting

Droplets of liquid curing agent deposited (PolyJet).

Binder Jetting

Binding agent deposited on granulated material.

Direct Energy Deposition

Melting powder as it is deposited (Metal).

Sheet Lamination

Laminating thin sheets of material.

3D Printing Material Guide

From common plastics like PLA and ABS to high-performance metals like Titanium and Inconel.

Functional Polymers

Nylon PA12 (MJF), Tough Resin (SLA), and PETG (FDM) are the industry standards for daily prototypes and end-use parts.

Industrial Metals

Stainless Steel, Aluminum, and Titanium are used for aerospace components and medical implants with Metrology-grade accuracy.

Finishing & Post-Processing

Sanding
Vapour Smoothing
Painting
Heat Treatment
Electroplating
Inserts

Software & Design Rules

Modelling Types

SolidWorks and Fusion 360 for mechanical. Rhino and Blender for organic.

Key Rules

  • Wall Thickness
  • Overhangs
  • Escape Holes
  • Min Details

Industry Applications

Aerospace

Custom parts and localized manufacturing for mission-critical sectors.

Automotive

Custom parts and localized manufacturing for mission-critical sectors.

Medical

Custom parts and localized manufacturing for mission-critical sectors.

Industrial

Custom parts and localized manufacturing for mission-critical sectors.

Consumer

Custom parts and localized manufacturing for mission-critical sectors.

Jewelry

Custom parts and localized manufacturing for mission-critical sectors.

Ready to start?

Get an industrial quote in minutes.

Get Instant Quote

Get Your Precise Price in 60 Seconds

Don't guess the cost. Our engineering team reviews every file manually to give you the most optimized price for your specific requirements.

contact best 3d printer in dubai in whatsapp

Get a Quote