Build Chamber Active · Layer 847 of 1,240

// Selective Laser Sintering · DMLS · FDM

A factory floor
compressed.

Laser-fused titanium, carbon-fiber-filled nylon, and medical-grade PEEK built layer by micron layer — while CNC shops are still waiting on tooling quotes.

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Titanium aerospace bracket part emerging from metallic powder bed with laser sintering marks

Ti-6Al-4V

DMLS · Grade 23

1,080 MPaUTS

Medical grade PEEK polymer implant component with smooth white surface on clinical background

PEEK

FDM · Medical Grade

ISO 13485CERT

Carbon fiber filled nylon structural bracket showing layered composite texture in dark grey

CF-Nylon

SLS · 15% CF Fill

±0.1mmTOL

LAYER HEIGHT

40µm

BUILD TEMP

178°C

TENSILE STR.

1,080MPa

SCAN SPEED

7.2m/s

Layer Resolution

40µm

minimum

Build Volume

400×400×450mm

max envelope

Lead Time

3–5 days

production parts

Tolerance

±0.05mm

standard

// Section 01 · Material Specification

Raw powder.
Certified performance.

3 Materials Available

Full Specifications

Download our complete Material Bible — all datasheets, certs, and process parameters.

Polished titanium aerospace bracket component with complex internal lattice structure visible on dark background

MAT-001 · DMLS · Grade 23 · ASTM F3001

Ti-6Al-4V ELI

AS9100D · ISO 13485

// Mechanical Properties · ASTM Test Data

UTS

1,080 MPa

Ultimate Tensile Strength

Yield

965 MPa

0.2% Offset

Density

4.43 g/cm³

Theoretical

Elongation

14%

at Break

Hardness

36 HRC

Rockwell

Layer Height

30µm

Standard build

// Primary Applications

Aerospace bracketsSurgical implantsTurbine components

// Section 02–03 · Build Process & Post-Processing

Layer 1 to shipment.
Every step documented.

// Live Build Simulation · Ti-6Al-4V Bracket

LAYER
30
of 120

Build Progress25%

// Section 04 · Performance Comparison

Where traditional
manufacturing breaks.

Every delta in orange is a number your procurement team will print out and put on their boss's desk.

Metric

Additive (Sinter)

CNC Machining

Δ

Lead Time

4 days

22 days

-82%

Cost per Part

$380

$1,240

-69%

Geometry Freedom

98%

42%

-133%

Material Waste

3%

68%

-96%

Min Wall Thickness

0.3mm

1.2mm

-75%

// Data Source

Comparison data based on Sinter internal benchmarks (Q4 2025) against industry averages for mid-complexity aerospace brackets, 1–50 unit quantities.

Get Your Part Quote

// Section 05 · Delivery & Ordering

From STL to doorstep.
3–5 business days.

Upload your geometry. Select material and tolerance class. We quote within 4 hours — no back-and-forth, no minimum orders.

Download Our Material Bible

112-page technical reference: all datasheets, process parameters, design-for-AM guidelines.

// Delivery Timeline

Hour 0

STL received, geometry analysis begins

Hour 4

Quote issued with DFM feedback

Day 1

Build file approved, machine loaded

Day 2–3

Sintering complete, post-processing begins

Day 3–4

QC inspection, CT scan, dimensional report

Day 4–5

Serialized, packed, shipped same day

AS9100D

Aerospace Quality Mgmt

ISO 13485

Medical Device QMS

ITAR

Registered Manufacturer

NADCAP

Special Process Accred.

// From the field

"Sinter delivered 14 topology-optimized Ti-6Al-4V brackets in 4 days. Our CNC vendor quoted 6 weeks. First article passed CMM inspection with zero deviations. We've moved all our titanium work here."

Marcus Webb

Sr. Structures Engineer · Rocketry Corp, Seattle

A factory floorcompressed.

Raw powder.Certified performance.

Ti-6Al-4V ELI

Layer 1 to shipment.Every step documented.

Where traditionalmanufacturing breaks.

From STL to doorstep.3–5 business days.

A factory floor
compressed.

Raw powder.
Certified performance.

Layer 1 to shipment.
Every step documented.

Where traditional
manufacturing breaks.

From STL to doorstep.
3–5 business days.