Alliage de tungstène et d'argent

Tungsten Silver Alloy Material Composition And Properties

Review the physical and mechanical properties listed below to select the suitable tungsten-silver alloy for your application.

Composites	Nominal Composition (% Weight)	Total Impurities (≤%）	Density (g/cm3, ≥)	Electrical Resistivity (20°C, µΩ•cm, ≤)	Electrical Conductivity (IACS%, ≥)	Hardness (HB, ≥)	Bending Strength (MPa)
AgW50	50 Silver 50 Tungsten	0.5	13.15	3.0	57	105	—
AgW55	45 Silver 55 Tungsten	0.5	13.55	3.2	54	115	—
AgW60	40 Silver 60 Tungsten	0.5	14.00	3.4	51	125	—
AgW65	35 Silver 65 Tungsten	0.5	14.50	3.6	48	135	—
AgW70	30 Silver 70 Tungsten	0.5	14.90	3.8	45	150	657
AgW75	25 Silver 75Tungsten	0.5	15.40	4.2	41	165	686
AgW80	20 Silver 80 Tungsten	0.5	16.10	4.6	37	180	726

Silver Tungsten Carbide Alloy

HM can also supply high-quality silver tungsten carbide alloys. It is prepared by the tungsten carbide skeleton fusion infiltration method, the material is extremely hard, and its contact resistance is slightly higher than that of silver tungsten. It has excellent resistance to fusion welding and arc corrosion. When a high temperature is generated during the arc combustion process, the free carbon contained in WC can slow down the oxidation of tungsten or reduce tungsten, slowing down the overall oxidation of the material, which can effectively improve the antioxidant capacity of the contact and the stability of the electrical properties of the contact under energized state. Silver Tungsten Carbide Alloy is mainly applied in the following fields:

• Electrical Field: Silver tungsten carbide alloy can be used as contact materials for circuit breakers and other switching appliances, with resistance to moisture and heat, and corrosion resistance.
• Electronic Field: Silver tungsten carbide alloy can be used for manufacturing electronic components and connectors, such as integrated circuit packages and transistor connectors.
• Energy Field: Silver tungsten carbide alloy is used as electrode material in solar panels and fuel cells.
• Domaine aérospatial: Silver tungsten carbide alloy can be used to manufacture high-temperature parts of aircraft engines and rocket nozzles.

Silver Tungsten Carbide Alloy Specification

Matériau	Composition (%)			Density (g/m³, ≥)	Electrical Resistivity (μΩ.cm, ≤)	Hardness(HV) (Mpa, ≥)
	Ag	WC	C
AgWC40	60	40	–	11.8-12.1	4.0-3.3	1274-1568
AgWC50	50	50	–	12.2-12.8	4.5-3.7	1372-1666
AgWC60	40	60	–	13.0-13.5	4.0-4.2	1568-1862
AgWC12C3	85	12	3	9.4	3.4	500

Copper Tungsten Carbide Alloy

Copper Tungsten Carbide Alloy is made of high-quality tungsten carbide powder and oxygen-free copper powder by pressing, sintering, and infiltrating. It is characterized by high-temperature resistance, arc abrasion resistance, electrical conductivity, and good thermal conductivity. Copper Tungsten Carbide Alloy is commonly used in the following areas:

• Electrical Contact Materials: Because copper tungsten carbide alloys are resistant to arc ablation and highly conductive, they are commonly used as contact materials for high-voltage switches and circuit breakers.
• Electrode Materials: Copper tungsten carbide alloy can be used for EDM and resistance welding electrodes.
• High-temperature Components: In the aerospace field, copper tungsten carbide alloys are used to manufacture rocket nozzles and high-temperature molds.

Copper Tungsten Carbide Alloy Specification

Composites	Nominal Composition (% Weight)	Density (g/cm3)	Electrical Resistivity (µΩ·cm)	Thermal Conductivity (W/m-K)	Hardness
CuWC50	50% Copper 50% Tungsten Carbide	11.26	3.83	290	94HRB
CuWC56	44% Copper 56% Tungsten Carbide	11.64	4.10	280	100HRB
CuWC70	30% Copper 70% Tungsten Carbide	12.65	5.75	240	37HRC

Tungsten Silver Alloy Features

• High-temperature resistance
• Resistant to arc erosion
• High strength
• High density
• Uniform microstructure
• Easy cutting and machining

Tungsten Silver Alloy Production Process

Tungsten-silver alloy, similar to the tungsten-copper alloy, is a pseudo-alloy of copper and the refractory metal tungsten and is generally produced using powder metallurgy. Since silver and tungsten are immiscible, the infiltration method is used to achieve bonding between the two materials. After compacting the porous tungsten preform, silver is allowed to infiltrate it, followed by sintering. The material is then machined to achieve the required geometry as specified by the customer. The specific processes are as follows:

• Compaction: The porous tungsten preform is compacted.
• Infiltration: Silver is allowed to infiltrate the compacted tungsten preform.
• Frittage: The infiltrated material is sintered at high temperatures, forming a dense solid.
• Recuit: The sintered products undergo annealing to remove internal stresses and improve toughness and ductility.
• Machining: Precision machining processes, such as turning, milling, and grinding, are applied to the sintered parts to achieve final dimensions and shapes.
• Traitement thermique: The alloy undergoes additional heat treatment to optimize properties such as hardness, strength, or other physical characteristics.
• Traitement de surface: If required, surface treatments (such as coating, passivation, etc.) are applied to enhance corrosion resistance, hardness, or other properties.

Tungsten Silver Alloy Machining Service

HM dispose de centres d'usinage avancés dotés de divers équipements de traitement de haute précision, ce qui lui permet d'offrir de multiples services d'usinage tels que le tournage, le fraisage, le meulage et le perçage. Qu'il s'agisse d'une production à grande échelle ou de commandes personnalisées en petites séries, nous garantissons une précision et des performances élevées pour répondre aux exigences spécifiques des clients. Les méthodes suivantes sont utilisées pendant le traitement :

• Pressage isostatique
• Forgeage
• Extrusion
• Moulage
• Moulage par injection
• Roulant
• Usinage par décharge électrique (EDM)
• Fraisage
• Tournage

Tungsten Silver Alloy Applications

• Electrical Contact Materials: Silver-tungsten alloy is widely used in electrical switches, circuit breakers, relays, and contactors due to tungsten’s high melting point, hardness, and stability under high current, pressure, and temperature, ensuring long service life.
• Electrode Materials: This alloy is also utilized in electric discharge machining (EDM) electrodes and electrochemical electrodes. Its high melting point, hardness, and excellent electrical conductivity allow stable operation in demanding conditions.
• Vacuum Equipment Components: Silver-tungsten alloy is key in manufacturing vacuum circuit breakers, tubes, and electrodes. Its high melting point and corrosion resistance make it ideal for high vacuum environments.
• Electronic Devices: It is used in special devices like cathode ray tubes (CRT) and X-ray tubes, thanks to its stability under high currents and temperatures.
• Aerospace Devices: In aerospace, the alloy’s high-temperature resistance, wear resistance, and conductivity are essential for engine and missile components.

Tungsten Silver Alloy Packaging

The Tungsten Silver Alloy is carefully placed in wooden cases or cartons with additional support from soft materials to prevent any shifting during transportation. This packaging method guarantees the integrity of the products throughout the delivery process.