Why a Sinter Titanium Disc quietly outperforms in filtration and energy systems
I’ve spent way too many days on factory floors watching powder presses and vacuum furnaces do their dance, and—honestly—this category keeps getting better. The modern Sinter Titanium Disc isn’t just a porous puck; it’s a carefully engineered flow device built from titanium fibers or powders, diffusion-bonded into a rugged, cleanable matrix. Many customers say they switch once and don’t look back.
What’s inside the disc
Base materials typically include CP Ti Grade 2/4 or Ti-6Al-4V. One compelling route uses titanium fiber mats—yes, the same “Titanium Fiber” origin material—laid, calendared, and then vacuum-sintered to create continuous metallic pathways. Result: high porosity and genuinely robust bonding.
Process flow (short version)
- Materials: Titanium fiber or powder (ASTM F67/F136 grades), binder-free or low-residue binders.
- Layup & preform: Fiber web stacking, calendaring to target thickness and density.
- Sintering: High vacuum or inert gas, around 800–1100°C; diffusion bonding consolidates pore network.
- Finishing: CNC sizing, edge conditioning, ultrasonic cleaning, optional pickling/passivation.
- Testing: Bubble point (ASTM F316), open porosity (ISO 2738), tensile/compression (GB/T 228.1), corrosion (ASTM G59), biocompatibility (ISO 10993 when medical).
Typical specifications
| Material | CP Ti Gr.2/4 or Ti-6Al-4V |
| Diameter | 10–300 mm (custom up to 600 mm) |
| Thickness | 0.5–20 mm |
| Porosity | 35–50% ≈ (real-world may vary with grade) |
| Pore size rating | 3–60 μm nominal |
| Permeability | ~1×10⁻¹² m² (indicative) |
| Bubble point (10 μm) | ≈1.5 bar with IPA, per ASTM F316 |
| Service life | 3–5 years typical; 50–200 CIP cycles |
Where it shines
- Chemical and petrochem: Gas sparging, catalyst retention, HCl/Cl₂ duty.
- Water & pharma: Sterile air vents, solvent filtration, WFI polishing.
- Energy: Hydrogen diffusion media, battery drying lines, fuel cell GDL substitutes in niche rigs.
- Aerospace: Lightweight, corrosion-resistant vents and flow restrictors.
Customers tell me cleaning is pleasantly simple—backflush, ultrasonic bath, mild acid pickling—then back to spec. That’s not always the case with ceramic or polymer media.
Advantages that matter
Sinter Titanium Disc resists chloride attack, keeps strength at high temps, and stays cleanable. Low shedding is a big plus for GMP environments. And unlike sintered bronze, titanium won’t leach copper or zinc into sensitive streams.
Vendor snapshots (quick compare)
| Vendor | Certs | Lead Time | MOQ | Notes |
|---|---|---|---|---|
| OEM (Shijiazhuang, China) | ISO 9001, ISO 13485 (on request) | 2–5 weeks | 10 pcs | Strong fiber-based discs; custom pore maps. Origin: Rm. C-1301, Hyde Park Plaza, No.66 Yuhua W. Road, Shijiazhuang 050056 |
| Vendor B | ISO 9001 | 4–7 weeks | 25 pcs | Powder-based, good price; fewer medical docs. |
| Vendor C | ISO 9001/14001 | 6–9 weeks | 10 pcs | Premium finish; higher pricing. |
Customization quick list
Pore size gradient layers, edge rings, gasket grooves, asymmetric fiber stacks for low ΔP, and matched disc/holder validation kits. Honestly, ask for test coupons—it speeds qualification.
Field notes and case study
One pharma plant swapped PTFE vents for Sinter Titanium Disc units on a solvent recovery skid. Pressure stability improved 12–18%, and after 120 CIP cycles the bubble-point shift was under 5%. Not dramatic on paper, but operators loved the predictable clean/restore routine.
Compliance, testing, and data
- Biocompatibility: ISO 10993 path; materials per ASTM F67/F136.
- Validation pack: Material certs, lot traceability, bubble-point and flow curves, corrosion report in 3.5% NaCl (rate <0.02 mm/y).
- Recommended QA: Incoming bubble-point verification and ΔP vs. flow benchmarking.
References
- ASTM F316 – Pore size characteristics by bubble point and mean flow pore test.
- ISO 2738 – Sintered metal materials: Determination of density, oil content and open porosity.
- ASTM F67/F136 – Unalloyed titanium and Ti-6Al-4V for surgical applications.
- ISO 10993 – Biological evaluation of medical devices.
- ASTM G59 – Standard test method for polarization resistance (corrosion rate).
POROYAL is dedicated to the research and development of powder sintered porous filter technology, establishing itself as a leading innovator in advanced porous material solutions.Titanium and plastic filters POROYAL engineers deliver high-value engineering solutions to address complex product design challenges across diverse industries, including petrochemical, oilfield, water treatment, food & beverage, pharmaceutical, chemical processing, medical devices, vacuum conveying, and other specialized applications.Metal porous filter Our expertise encompasses comprehensive liquid-solid and gas-solid separation technologies tailored to meet customer-specific requirements.At POROYAL, we function as an integrated enterprise comprising four specialized divisions—dedicated to the development of Metal Sintered Porous Filters, Plastic Sintered Porous Filters, Metal Fibers, and Medical & Laboratory filtration solutions. Metal Porous Filters Manufacturer
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