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Materials, Composite Tooling, Engineering, FFF (FDM) 3D Printing Materials, Filaments 3D Printing Materials, Jigs&Fixtures, Manufacturing, Metal Filament · FFF

Fila-MAT Metal Titanium 1,75mm

Print titanium parts on 3DCeram's M.A.T. FFF platform, then debind and sinter to dense, high-strength, lightweight metal.

  • ✔ Rp0.2 844 MPa, Rm 940 MPa at 4.33 g/cc after sintering — tested to ASTM E8/E8M
  • ✔ Debind and sinter parameters plus the full datasheet included with every spool
  • ✔ 1.75mm bound-metal feedstock for the 3DCeram M.A.T. FFF head — mutual NDA before any spec review
Price held 7 days after order.
NDA standard In stock — ships in 1–2 business days. Custom alloy or ceramic feedstock: 3–4 weeks, configured to order.
60+AM teams supplied
Green-to-densepredictable shrinkage
Parameters + datasheetin every order
Fast dispatchL.A. stock · M–F
What your process engineer actually checks

What your process engineer actually checks

Third-party mechanical data

Rp0.2 844 MPa, Rm 940 MPa at 4.33 g/cc density and a 118 GPa modulus after sintering, tested to ASTM E8/E8M. You qualify Fila-MAT Metal Titanium against measured numbers, not a filament-vendor estimate.

Debind and sinter parameters included

Every spool ships with 3DCeram's datasheet and the full print, debind and sinter cycle for the M.A.T. FFF head, so green parts reach target density on the first build instead of after trial-and-error.

A materials engineer on the line

Shrinkage, warpage and heat-treatment questions go to an engineer who has run bound-metal FFF — not a ticket queue. Sub-4h reply, mutual NDA standard before any spec review.

About this product

FEATURES

Experience unmatched strength and lightweight durability with our premium Titanium 3D Printing Filament. Perfect for aerospace, automotive, medical, and high-precision engineering applications, our titanium filament offers superior corrosion resistance, excellent thermal stability, and outstanding mechanical properties.

Key Features:

  • High Strength-to-Weight Ratio: Achieve robust and durable parts without adding unnecessary weight.
  • Corrosion Resistant: Ideal for applications in harsh environments and long-term use.
  • Excellent Surface Finish: Produces smooth, high-quality prints with fine details. –
  • Biocompatibility: Suitable for medical prototypes and implants.

All tests have been performed according relevant standards with calibrated test equipment at ESA’s technology centre in the Netherlands (ESTEC).

M.A.T. is an Additive Manufacturing (AM) solution for the production of complex geometries made out of metals and ceramics. With the M.A.T., 3DCERAM TIWARI utilizes the Fused Filament Fabrication (FFF) technique to produce ceramic and metallic parts with a 3D-printer working with special filaments. The 3D- printed parts are then eliminated of any non-metallic or non-ceramic component (binder) with the help of heat treatment at high temperatures, yielding pure and resistant parts suitable for all engineering applications in a matter of days. This cost-effective technique is suitable for a number of metals and ceramics, including metal-ceramic or ceramic-ceramic composites, and is capable of producing parts with high relative density.

Diffusivity:

Temperature °C Diffusivity, α,mm^2/s
-100.9 2.418
-74.9 2.526
-49.4 2.423
-24.1 2.603
+1 2.768
+29 2.803
+50.5 2.877
Brand 3DCeram
Printing Materials Metal Filaments
Technology FFF
Density 4.33 g/cc
Avg. Young’s Modulus 118 GPa
Avg. Yield strength, Rp0.2 844 MPa
Avg. Ultimate Tensile Strength, Rm 940 MPa
Standard for the tensile testing ASTM E8/E8M
Thermal Conductivity at 30°C 6.8 W/m-K
CTE 9.8 ppm/°C
Temperature range for CTE -96, +392 °C

Product videos

Don't see your alloy or ceramic?

We source and qualify. Custom feedstock on request.

Need a specific bound-metal or ceramic filament, or parameters for a printer we don't list yet? Our materials team qualifies the feedstock and verifies sinter behavior before you commit. Typical lead 3–4 weeks.

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Metal & technical ceramics, printed by extrusion — even silicon carbide.

  • FFF · pellet · paste + 3-axis CNC in one machine
  • No laser, no loose powder — lab-safe, single-phase
  • Official 3DCeram US representative · 12-mo warranty

From $63,000 · Core: FFF + CNC (add Pellet/Paste heads) · made to order, ~3-month build · leasing available

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Carbolite Gero HTMA Controlled Atmosphere Oven – Up to 700°C | 28–1000 L
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Carbolite Gero HTMA Controlled Atmosphere Oven – Up to 700°C | 28–1000 L

Controlled atmosphere oven for metal AM post-processing and materials research — 400–700°C max (4 grades), 28–1,000 L chambers (5 sizes), O₂ down to 50 ppm with N₂/Ar purge. Seam-welded gas-tight chamber built as an atmosphere unit from the ground up.

  • ✓ O₂ down to 50 ppm — atmosphere-controlled heat treatment without vacuum-furnace cost
  • ✓ 17 configurations in one family — 28 L lab to 1,000 L production, same gas architecture
  • ✓ Seam-welded gas-tight chamber — purpose-built, not a retort-converted standard oven
  • ✓ Configured to order — request lead time; install, training & cycle validation included
Configured to order — request lead time
Fila-MAT Metal 17-4PH 1,75mm
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Fila-MAT Metal 17-4PH 1,75mm
Print 17-4PH stainless-steel parts on 3DCeram's M.A.T. FFF platform, then debind and sinter to dense, precipitation-hardenable metal.
  • ✔ Rp0.2 680 MPa / Rm 880 MPa / 257 HV10 — tested to DIN EN ISO 6892 & 6507-1 at ESA's ESTEC facility
  • ✔ Debind & sinter parameters plus full datasheet included with every spool
  • ✔ 1.75mm bound-metal feedstock for the 3DCeram M.A.T. FFF head — mutual NDA before any spec review
For FFF
In stock — ships in 1–2 business days. Custom alloy or ceramic feedstock: 3–4 weeks, configured to order.
1 / 1
Not ready for a full spool? Request a sample or a custom quantity.

From process engineers running Fila-MAT Metal Titanium 1,75mm

Unedited feedback from customers who reorder Fila-MAT Metal Titanium 1,75mm.

★★★★★ 4.9 / 5 · 24 reviews
★★★★★

Shrinkage matched the datasheet within a hair. We hit final dimension after the first sinter run.

MK
Marcus K. Process Engineer · Metal AM
★★★★★

Asked about debind for a dense ceramic part. A materials engineer walked us through the ramp with real data.

PS
Priya S. R&D Lead · Medical Devices
★★★★★

Same feedstock, same density, three builds running. No re-qualifying between orders.

DR
Diego R. Production Lead · Tooling

Common questions

Don't see yours? Email [email protected] — NDA standard, typical reply within 4 hours.

What is Fila-MAT Metal Titanium and how does it produce metal parts?
Fila-MAT Metal Titanium is a 3DCeram bound-metal feedstock — a 1.75mm filament loaded with titanium powder held in a polymer binder. You print a green part on the 3DCeram M.A.T. FFF head like any thermoplastic, then remove the binder (debinding) and sinter the part in a furnace to consolidate the titanium into a dense, high-strength component. The result is a functional titanium part made on an extrusion printer, without a laser powder-bed system — a real safety benefit, since fine titanium powder is reactive and demands special handling on laser machines. Every spool ships with the debind and sinter parameters so the first build reaches target density predictably.
Which printer is Fila-MAT Metal Titanium compatible with?
Fila-MAT Metal Titanium is qualified for the 3DCeram M.A.T. multi-additive printer running its FFF extrusion head. The M.A.T. uses heated filament and print chambers that keep the highly filled metal feedstock extruding consistently, and it is matched to that machine rather than sold as a generic 1.75mm filament — which is why the print, debind and sinter parameters ship together. If you do not run an M.A.T. yet, Additive Plus can quote the printer alongside the feedstock so the whole workflow is validated from one supplier.
What post-processing does Fila-MAT Metal Titanium require?
Like every bound-metal FFF material, Fila-MAT Metal Titanium needs two steps after printing: debinding and sintering. Debinding removes the polymer binder from the green part, and high-temperature sintering — typically under vacuum or an inert atmosphere to protect the titanium from oxygen pickup — fuses the remaining powder into dense metal. The debind and sinter parameters are supplied on the datasheet with every order, so you are not guessing cycle times, temperatures or atmosphere. Additive Plus can also advise on furnaces suited to titanium if you do not already run one.
What mechanical properties can I expect after sintering?
After sintering, Fila-MAT Metal Titanium reaches roughly 4.33 g/cc density, 844 MPa yield strength (Rp0.2), 940 MPa ultimate tensile strength (Rm) and a 118 GPa modulus, with 6.8 W/m-K thermal conductivity at 30°C and a CTE of 9.8 ppm/°C. Tensile figures were tested to ASTM E8/E8M. That strength-to-weight ratio is why titanium is specified in aerospace, medical and motorsport parts. Exact values depend on your debind and sinter cycle; the full datasheet ships with every spool.
How much does a Fila-MAT Metal Titanium part shrink during debinding and sintering?
Bound-metal parts shrink as the binder is removed and the metal densifies during sintering, so a green part is printed larger than the final dimension and scales down predictably. The exact linear shrinkage for Fila-MAT Metal Titanium is defined in the 3DCeram datasheet supplied with every spool and is applied in the recommended slicer profile, so your CAD dimensions map to the finished part. A materials engineer at Additive Plus can walk through the shrinkage factor for your specific geometry before you commit to a production run.
Why print titanium with bound-metal FFF?
Titanium delivers a high strength-to-weight ratio and corrosion resistance, but fine titanium powder is reactive and hazardous to handle on open laser powder-bed systems. Bound-metal FFF keeps the powder locked in a filament, so you extrude on a standard heated FFF head and debind and sinter to dense metal in a controlled furnace. This makes titanium parts — lightweight brackets, medical and aerospace components, motorsport hardware — accessible on the 3DCeram M.A.T. without a dedicated titanium powder-bed cell. Talk to an Additive Plus engineer about whether FFF titanium fits your load case.
Does Fila-MAT Metal Titanium need special sintering?
Titanium is reactive at sintering temperature, so parts are typically sintered under vacuum or an inert atmosphere to prevent oxygen and nitrogen pickup that would embrittle the metal. The 3DCeram datasheet supplied with every spool specifies the recommended debind and sinter cycle, including atmosphere. If you do not already run a furnace suited to titanium, an Additive Plus materials engineer can advise on equipment and parameters before you start production.

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