W-Cu Series

Type de matériau

Métal

Nom du matériau

W-Cu Series (ASTM)

Compatibilité des processus

Fraisage CNC, Tournage CNC

introduction

W-Cu Series dans le domaine de l'usinage CNC

Tungsten-Copper (W-Cu) alloys have a balance of high thermal conductivity, wear resistance, and electrical conductivity.

Comprising tungsten as the primary component and copper as the secondary, typical compositions range from 70% W / 30% Cu to 90% W / 10% Cu.These alloys are commonly used in electronic packaging, aerospace components, and CNC-machined parts. When machining W-Cu, careful considerations are required.

We use proper tooling, such as carbide or PCD inserts, and cutting fluids to manage heat. We optimize machining parameters, and post-machining processes like grinding may be applied for specific surface finishes. Precision and quality control are important; DEK has experienced machinists familiar with W-Cu alloys' unique characteristics. Additionally, we observe safety precautions when machining due to potential health hazards associated with tungsten dust and fumes during machining.

Propriétés

Tableau des propriétés of W-Cu Series (ASTM)

PROPRIÉTÉS MÉCANIQUES
Résistance ultime à la traction	500-800 MPa
Limite d'élasticité	300-600 MPa
Module de Young (élasticité)	200-320 GPa
Allongement à la rupture	1-10%
Propriétés physiques
Résistance à la corrosion	Generally good, but can be affected by Cu content and environment
Magnétisme	Typically non-magnetic
Résistance aux UV	High UV resistance
Soudabilité	Can be challenging due to the mismatch in properties; specializen welding methods may be required
Propriétés thermiques
Température de service maximale	Up to 500°C(depending on the Cu content)
Coefficient de dilatation thermique	6-8 x 10^-6/°C
Conductivité thermique	150-200 W/(m·K)(depending on composition)
Propriétés électriques
Résistivité électrique	5-15 μΩ·cm(depending on composition)
Sécurité ESD	Good electrical conductivity; can dissipate static charges effectively

APERÇU DE LA TECHNOLOGIE

Connaissances de base of W-Cu Series (ASTM)

What is W-Cu Series (ASTM)?

The Tungsten (W)–Copper (Cu) series refers to composite materials that combine tungsten and copper. Tungsten is known for its high melting point, great thermal and electrical conductivity, and strong mechanical properties, while copper has high thermal and electrical conductivity. By combining these materials, engineers create composites with unique properties suitable for applications needing a mix of high thermal and electrical conductivity along with mechanical strength.

Common uses include electronic packaging, aerospace components like rocket nozzles, and defense applications. Tungsten–Copper alloys find a place in high-temperature environments and are used for resistance welding electrodes, where a balance of strength and conductivity is important. The specific composition varies based on the desired properties for different applications, allowing customization for optimal performance.

Advantages of W-Cu Series (ASTM)

Conductivité thermique élevée

Faible dilatation thermique

Excellente conductivité électrique

Bonne usinabilité

Haute résistance à des températures élevées

Superior arc erosion resistance

Effective for electrical and electronic applications

Applications of W-Cu Series (ASTM)

Composants aérospatiaux

Electronic packaging

Microwave devices

Power electronics

Medical imaging equipment

Microelectronics

Thermal management systems

Semiconductor manufacturing

X-ray tubes

High-performance electronic devices

FAQ

Machining W-Cu Series (ASTM) FAQ sur l'achat

Does W-Cu Series rust?

No, W-Cu Series (Tungsten Copper) does not rust. Tungsten is a corrosion-resistant metal, and when combined with copper in the W-Cu Series, it retains its corrosion resistance.

Can you forge W-Cu Series?

While tungsten's high melting point makes traditional forging challenging, W-Cu Series materials are typically produced through powder metallurgy methods, such as sintering. This process involves compacting and heating the powder mixture to create a solid, dense material. While not forged in the traditional sense, W-Cu Series materials can be shaped and formed through various machining processes, including CNC machining, to achieve the desired final product.

Can you anneal W-Cu Series?

Annealing is a heat treatment process commonly used to relieve stress and improve the material's mechanical properties. However, the applicability of annealing to W-Cu Series depends on the specific composition and manufacturing process. Tungsten has a high melting point, and copper has a lower melting point, which can complicate traditional annealing processes. Specialized heat treatment methods tailored to the W-Cu Series composition may be used to achieve desired properties without compromising the integrity of the material.

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