3D Printing Technologies

Our 3D printing services revolutionize product development by enabling rapid prototyping, design validation, and small-batch production without expensive tooling or long lead times. Whether you need a proof-of-concept model, functional testing prototypes, or end-use parts, our range of additive manufacturing technologies delivers the speed and flexibility modern engineering demands.

FDM (Fused Deposition Modeling)

Process: Thermoplastic material is melted and extruded layer by layer

Best For:
Concept models and fit checks
Functional prototypes
Low-cost, quick iteration
Jigs, fixtures, and tooling
Larger parts (up to 400mm)

Materials Available:
PLA, ABS, PETG, Nylon, TPU (flexible), Carbon Fiber reinforced, Polycarbonate, ASA (UV resistant)Typical Lead Time: 1-3 days

SLA (Stereolithography)

Process: UV laser cures liquid photopolymer resin layer by layer

Best For:
High-detail prototypes
Smooth surface finishes
Master patterns for molding
Jewelry and dental models
Intricate geometries

Materials Available:
Standard resin, Tough resin, Flexible resin, High-temp resin, Castable resin, Clear resin, Engineering resinTypical Lead Time: 2-4 days

Why Rapid Prototyping?

Traditional manufacturing requires tooling, setup, and minimum quantities. 3D printing eliminates these barriers, allowing you to test designs quickly, iterate based on real feedback, identify issues early, and bring products to market faster. Save time and money by validating your concept before committing to production.

Rapid Prototyping Applications

How companies accelerate development with 3D printing

Medical Device Prototypes

Validate medical products pre-clinical
Examples: Surgical guides, anatomical models, prosthetic prototypes, device housings
Benefit: FDA submission models, investor presentations
Materials: Biocompatible resins, autoclavable materials

Aerospace Components

Purpose: Lightweight parts and prototypes
Examples: Ducting, brackets, interior components, concept models, wind tunnel models
Benefit: Complex geometries impossible to machine
Materials: Nylon, high-temp resin, PA11

Automotive Prototypes

Purpose: Rapid vehicle development
Examples: Interior trim, dashboard components, intake manifolds, brackets, under-hood components
Benefit: Test fit in actual vehicles before production
Materials: ABS, ASA (UV resistant), Nylon

Design Verification Models

Purpose: Check form, fit, and ergonomics

Examples: Enclosure fit checks, human interface testing, aesthetic evaluation, assembly trials
Benefit: Catch design issues early in development
Materials: PLA, standard resin, PETG

Benefits of 3D Printing

Design Advantages
Business Advantages
  • No tooling investment required
  • Faster time-to-market (weeks vs months)
  • Lower upfront costs for prototyping
  • Easy design iterations
  • On-demand manufacturing (no inventory)
  • Mass customization capabilities
  • Complex geometries impossible to machine
  • Internal channels and structures
  • Lattice structures for weight reduction
  • Consolidate multiple parts into one
  • Undercuts without additional tooling
  • Organic and freeform shapes
Ready to Accelerate Your Product Development?

Upload your 3D files today and receive a quote within 24 hours. Fast turnaround, expert advice, and quality results.Get a 3D Printing Quote