Industries

Additive Manufacturing

Metal additive manufacturing requires high-purity powder with controlled grain size for consistent results. Hansemut sources ultradisperse 6N copper powder (4–10 μm) — mass spectrometry analyzed with batch-specific certificates.

Cu 6N

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Challenges

AM powder sourcing is a qualification bottleneck.

Grain structure requirements

Advanced manufacturing processes demand controlled grain size and verified purity. Inconsistent grain structure causes uneven distribution and porosity in final parts.

Process qualification costs

Switching powder suppliers requires full re-qualification — parameter sets, density tests and mechanical testing. A wrong supplier choice costs months.

Limited 6N copper availability for AM

Most AM powder suppliers focus on stainless steel and titanium alloys. Finding ultradisperse 6N copper powder with mass spectrometry analytics is a niche challenge.

Our Solution

Ultradisperse copper powder from a qualified source.

Mass spectrometry analytics

Every batch includes Spark Source Mass Spectrometry (JEOL) analysis. Batch-specific analysis certificate supports your internal AM qualification process.

Consistent production parameters

Direct contract with one manufacturer means identical production settings for every lot. Your process parameters remain stable across deliveries.

Defined packaging formats

250 g glass ampoules for qualification and small series. 2 kg PET containers for production volumes. Custom quantities on request.

Qualify copper powder for your AM build parameters

Receive samples with mass spectrometry analytics and batch-specific certificates — validate purity and grain structure before production commitment.

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APPLICATIONS

How copper powder enables metal additive manufacturing

High-Purity Copper Components

Ultradisperse 6N copper powder (4–10 µm) enables high-purity copper components for demanding applications. Mass spectrometry verified purity ensures thermal conductivity above 390 W/mK — critical for heat exchangers, inductors and RF waveguides.

Cu 6N · 4–10 µm · MS-analyzed · >99.5% density

Sintered Copper Components

Controlled ultradisperse grain structure and narrow size distribution enable high packing density in green parts. After sintering, parts achieve >97% theoretical density with electrical conductivity suitable for bus bars and thermal management assemblies.

Cu 6N · 4–10 µm · Ultradisperse · >97% sintered density

CERTIFICATIONS

Compliance for additive manufacturing

ISO 9001

Certified quality management across all manufacturer partners.

CoA

Certificate of Analysis with complete analytics for every batch.

MSDS

Material Safety Data Sheet for every delivered product.

Conflict-Free

Verified supply chain per Conflict Minerals Policy.

Materials

Materials for additive manufacturing.

29Cu

Copper Powder 6N

Ultradisperse powder (4–10 μm) with mass spectrometry verified 6N purity. High purity ensures thermal conductivity in manufactured copper parts.

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