Capabilities · 2026

Six processes.
One studio.

FDM, SLA, Metal DMLS, Injection Tooling, Laser Cutting, CNC Bending — engineered to production tolerances. Every process under one roof in Ahmedabad.

FDM Printing SLA Resin Metal DMLS Injection Tooling Laser Cutting CNC Bending
/ 01 — FDM Printing

Structural prototypes to end-use parts.

Fused deposition modelling in PLA, PETG, ABS, ASA, and Nylon for concept models through to production components. Layer orientation is engineered for load paths — not just print speed.

±0.3mm
Tolerance
3–5d
Lead time
400
From (per part)
300³
Build vol (mm)
  • Functional brackets, housings, and enclosures in engineering plastics
  • Jigs, fixtures, and tooling aids for production lines
  • Form-fit-function prototypes before committing to injection mould tooling
  • Low-volume production runs of 1–500 identical parts
What materials are available for FDM 3D printing?

We print FDM in PLA and PETG for standard work, and ABS, ASA, and Nylon (PA12) for engineering-grade parts requiring heat or UV resistance. All materials are sourced from certified suppliers and process-qualified on our machines.

FDM standard PLA bracket — functional prototype — Layer X

Materials

  • PLAConcept models, visual prototypes
  • PETGFunctional parts, moisture resistance
  • ABSHeat resistance, mechanical load
  • ASAUV and weather resistance
  • Nylon PA12Fatigue resistance, flex parts
/ 02 — SLA Resin

25-micron layers. Surface that speaks.

Stereolithography in standard and engineering-grade resins for high-detail visual prototypes, master patterns, and medical applications. 25-micron layer resolution delivers smooth as-printed surfaces that require minimal post-processing.

±0.05mm
Best tolerance
2–4d
Lead time
800
From (per part)
192×120
Build vol (mm)
  • Visual prototypes and master patterns for vacuum casting
  • Dental and medical device components in certified biocompatible resins
  • Jewellery and fine-detail consumer product prototyping
  • High-precision fit checks and mating interface validation
How accurate is SLA printing for precision parts?

Our SLA Standard process holds ±0.1mm tolerance. SLA Professional in castable or dental resin achieves ±0.05mm — suitable for medical devices and jewellery master patterns.

SLA resin dental arch model — medical precision prototype — Layer X

Materials

  • Standard photopolymerVisual prototypes, concept models
  • Castable resinJewellery and investment casting
  • Dental resinBiocompatible, ISO 10993 rated
  • Engineering resinTough ABS-like, snap fits
/ 03 — Metal DMLS

Fully dense metal. Complex geometries.

Direct Metal Laser Sintering for fully dense, end-use metal parts in aerospace and medical alloys. Internal cooling channels, lightweight lattice structures, and consolidated assemblies are native to the process — not workarounds.

±0.1mm
Tolerance
5–7d
Lead time
5,000
From (per part)
250³
Build vol (mm)
  • Aerospace structural brackets and ducting in Ti-6Al-4V and Inconel 718
  • Medical implants and surgical tools in 316L and 17-4 PH stainless steel
  • High-temperature tooling inserts in H13 Tool Steel with conformal cooling channels
  • Lightweight topology-optimised components that eliminate fastener assemblies
What metal alloys can you print with DMLS?

Our DMLS system processes 316L stainless steel, 17-4 PH stainless steel, H13 tool steel, Ti-6Al-4V titanium, and Inconel 718. All materials are certified to aerospace and medical supply chain standards.

Metal DMLS stainless steel lattice component — aerospace bracket — Layer X

Materials

  • 316L Stainless SteelMedical, food-grade applications
  • 17-4 PH Stainless SteelHigh strength, aerospace
  • H13 Tool SteelConformal-cooled mould inserts
  • Ti-6Al-4VAerospace, medical implants
  • Inconel 718High-temperature turbine components
/ 04 — Injection Tooling

Bridge tooling at 60% of CNC cost.

Hybrid metal 3D-printed mould inserts for soft and bridge tooling. Validate injection-moulded geometries and produce first-run samples before committing to CNC production tooling. Quote-based; includes mould fabrication and first-run samples.

±0.05mm
Cavity tolerance
7–14d
Lead time
Quote
Pricing
15,000+
From (₹)
  • Bridge tooling for 50–5,000 first-run injection-moulded parts
  • Geometry validation before committing to full CNC production mould investment
  • Conformal cooling channels in H13 inserts for faster cycle times
  • Aluminium 7075 inserts for softer materials and short-run consumer products
What is the difference between your Injection Tooling service and a production mould?

Our Injection Tooling service produces hybrid metal inserts for bridge and soft tooling — ideal for validating geometry and producing 50–5,000 first-run samples before committing to a full production CNC mould. Cost is typically 60–70% lower than machined tooling.

Injection mould insert cavity aluminium — bridge tooling — Layer X

Materials

  • H13 Tool SteelProduction inserts, conformal cooling
  • Aluminium 7075Short-run soft tooling, rapid iteration
/ 05 — Laser Cutting

Clean kerf. No secondary deburring.

CNC fibre laser cutting for sheet metal and flat acrylic components. Clean kerf edges and precise hole geometries on mild steel, stainless steel, aluminium, and acrylic — no secondary deburring required on most profiles. Quote-based on material, thickness, and cut length.

±0.1mm
Tolerance
7–14d
Lead time
300/m
From
Quote
Pricing
  • Sheet metal structural components with precision-cut holes and slots
  • Acrylic panels, displays, and enclosure windows with clean edge quality
  • Aluminium brackets and mounting plates for electronics and industrial equipment
  • High-volume blanks for downstream CNC bending operations
What sheet thicknesses can you laser cut?

We cut mild steel up to 16mm, stainless steel up to 12mm, aluminium up to 10mm, and acrylic up to 20mm. Edge quality is clean-kerf on most thicknesses — no secondary deburring required.

Laser-cut stainless steel bracket — precision sheet metal — Layer X

Materials

  • Mild SteelStructural components, up to 16mm
  • Stainless SteelCorrosion-resistant parts, up to 12mm
  • AluminiumLightweight brackets, up to 10mm
  • AcrylicDisplay panels, enclosures, up to 20mm
/ 06 — CNC Bending

Single-source sheet metal.

Press-brake bending for sheet-metal components requiring precise bend angles and tight inside radii. Complementary to our laser cutting service — blank goes from laser to press brake without handling between suppliers. Quote-based on material, thickness, and bend sequence.

±0.3°
Bend angle
7–14d
Lead time
500
From (per setup)
Quote
Pricing
  • Enclosures and chassis requiring multiple bend sequences and tight corner radii
  • Mounting brackets paired with laser-cut blanks from the same order
  • Structural channels and angle sections for machine frames and equipment
  • Sheet metal housings for electronics requiring EMI shielding continuity
Can you handle CNC bending after laser cutting?

Yes. We offer CNC bending as a complement to laser cutting — single-source sheet metal means your blank goes from laser to press brake without handling between suppliers. Quote covers both operations.

CNC bent aluminium sheet metal bracket — precision bending — Layer X

Materials

  • Mild SteelStructural bends, high-volume
  • Stainless SteelPrecision components, corrosion resistance
  • AluminiumLightweight enclosures and brackets
07 · Machine Floor

The iron.

Industrial-grade systems across plastics, resins and metals — the right tool for every job we accept.

×6
Industrial FDM printer — Layer X machine floor
FDM Printers
300×300×400 · 0.1mm layer
×3
SLA resin 3D printer — Layer X machine floor
SLA Resin
25 μm · 192×120×245
×2
Metal DMLS 3D printer — Layer X machine floor
Metal 3D
DMLS · 316L · Ti-64
NEW
Injection tooling mould insert — Layer X machine floor
Injection Tooling
H13 · conformal cooling
×1
Fiber laser cutting machine — Layer X machine floor
Metal Laser Cutting
Fiber 4kW · ±0.1mm
×2
CNC press brake bending — Layer X machine floor
CNC Bending
3-axis · sheet metal
FLAGSHIP
Hybrid metal additive manufacturing system — Layer X machine floor
Hybrid Metal 3D
DED + CNC · single setup
QC
Metrology lab — CMM and 3D scanner — Layer X
Metrology Lab
CMM · 3D scanner
08 · Material Library

120+ materials.
One spec sheet away.

Plastics, composites, resins, metals — sampled, certified and shelf-stocked.

PA12-CF
CARBON · SLS
PETG
FDM · DURABLE
Tough 2000
SLA · ABS-LIKE
316L
STAINLESS · DMLS
Ti-6Al-4V
TITANIUM · DMLS
PEEK
HIGH-TEMP · FDM
PA-CF
NYLON · CARBON
Castable Wax
SLA · INVESTMENT
Clear V4
SLA · OPTICAL
H13 Steel
TOOL · HYBRID
TPU 95A
FLEX · FDM/SLS
Aluminium
AlSi10Mg · DMLS
09 · Process Selector

Pick the right
process for the job.

Criteria
FDM
SLA
SLS / Metal
Surface finish
Visible layers
Smooth · 25 μm
Powdery → polishable
Strength & durability
High · with CF
Moderate
Production-grade
Detail resolution
100 μm
25 μm
50 μm
Cost per part (qty 100)
₹₹
₹₹₹
Best for
Functional prototypes, jigs, fixtures
Visual prototypes, molds, jewelry
End-use parts, aerospace, medical
Next step

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