Hochwertige Hartmetall Schneidstempel mit wettbewerbsfähigen Preisen YG8 YG15

Hartmetall-Lochstempel:

  1. Auswahl des Rohmaterials: Hochwertiges Wolframcarbid pulver wird bevorzugt. 100% Neuware.
  2. Importierter deutscher PVA-Sinterofen. HIP-Sintern. Die Stanzen in hoher Dichte halten kann, Hohe Verschleißfestigkeitleistungsstark.
  3. Professionelle Ingenieure und Qualitätskontrollteams sorgen für die Kontrolle des Produktprozesses und die Abnahmeprüfung, um eine stabile Produktqualität zu gewährleisten und zu verhindern, dass unqualifizierte Produkte ausgeliefert werden.
  4. Mehr als 40 Jahre Erfahrung in der Herstellung.
  5. Die Leistung und Lebensdauer des Hartmetall-Lochstempel entspricht in etwa der von 95-100% von Guhringg, Ceratizitt, Boehleritt und Kennametall.
Die Sorten für Hartmetall-Lochstempel:

 

Klasse WC(%) Co(%) Härte(HRA) TRS(N/mm²)
YG6 94 6 ≥90.5 1860
YG8 92 8 ≥89.5 2060
YG11 89 11 ≥87.5 2100
YG15 85 15 ≥87.5 2500
YG20 80 20 ≥85 2600
Hartmetall-Lochstempel Details:

Hersteller von Hartmetall Schneidstempel

FAQ for tungsten carbide punches:
Q1: What are tungsten carbide punches:

A: Tungsten carbide punches (carbide punches) are precision stamping and piercing tools manufactured from cemented tungsten carbide (WC-Co alloy). They replace high-speed steel (HSS) punches for high-volume processing of hard workpieces, featuring outstanding hardness, wear resistance, and compressive strength.

 

Q2: What dimensional tolerances can tungsten carbide punches achieve?

A: Diameter tolerance: ±0.001 mm ~ ±0.003 mm for precision electronic micro punches; ±0.005 mm ~ ±0.01 mm for general stamping punches.
Length tolerance: ±0.005 mm ~ ±0.02 mm.
Surface roughness: Ra 0.02–0.1 μm after ultra-fine grinding and mirror polishing.
Concentricity: ≤0.002 mm for micro tiny punches (0.1–1.0 mm diameter); ≤0.003–0.005 mm for standard stepped punches; perpendicularity ≤0.003 mm.

 

Q3: What surface treatments are available for tungsten carbide punches?

A: Super mirror polishing: Reduce friction and prevent material adhesion, ideal for aluminum and copper stamping.
PVD coating (TiN / TiCN / TiAlN): Improve surface hardness, anti-wear and anti-sticking performance, extending service life by 2–4 times.
DLC diamond coating: For non-ferrous metal, plastic and ultra-thin foil; ultra-low friction coefficient.
Cryogenic treatment (-196℃): Release residual internal grinding stress to boost toughness and lower edge chipping risk.

 

Q4: Can custom special-shaped punches be manufactured?

A: Yes. We produce standard straight punches, stepped shoulder punches, ejector punches, oval/rectangular/profile forming punches, micro tiny punches (minimum diameter 1mm), slender long punches and cold forging punches. Customers need to provide 2D/3D drawings or physical samples for customization.

 

Q5: What carbide grades are commonly used for carbide punches?

A: Low Cobalt (3%–6% Co): High hardness (HRA > 91) and excellent wear resistance; suitable for fine blanking of ultra-thin stainless steel, silicon steel sheets, and electronic lead frames; however, the material is relatively brittle and unsuitable for heavy-impact applications.
Medium Cobalt (8%–10% Co): A general-purpose grade offering the best balance of hardness and toughness; suitable for copper, brass, cold-rolled steel, and standard stamping dies.
Medium-High Cobalt (10%–12% Co): High toughness; suitable for applications involving moderate impact, such as stamping dies.
High Cobalt (15%–20% Co): Excellent impact resistance; specifically designed for high-impact applications such as blanking thick plates, heavy-duty punching, and cold forging punches.

 

Q6: What workpieces are carbide punches suitable for?

A: Thin metal sheets: Cold rolled steel, stainless steel, copper, brass, aluminum alloy, silicon steel sheet.
Electronic components: Lead frames, terminals, connectors, IC pins, battery tab piercing.
Hardware stamping: Rivets, screw blanks, spring plates, precision gaskets.
Other applications: PCB punching, ceramic sheet, graphite and plastic film piercing.

 

Q7: What’s your MOQ for standard / custom tungsten carbide punches?

A: Standard stock sizes: small MOQ, sample order acceptable (1–2 pcs for testing). Non-standard customized shapes require higher MOQ to cover mold & sintering cost. Please send us inquiries for further information.

 

Q8: Wie beträgt Ihre Produktionsvorlaufzeit?

A: Stock ground tungsten carbide punches: 2–3 working days.
Standard custom carbide punches: 10–25 days.

 

Bitte senden Sie uns Anfragen für Kostenvoranschläge und kostenlose Muster zum Testen:

 

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