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Product Details:
Payment & Shipping Terms:
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Material: | Fine Silver, AgCdO, AgSnO2, AgSnO2In2O3, AgNi Etc | Rivet Types: | Solid, Bimetal, Tri-metal |
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Rivet Shapes: | Flat, Spherical, Customized. | Feature: | Low And Stable Contact Resistance |
Contract Manufacturing: | OEM Service Offered | Application: | Relays, Switches, Timers, Breakers, Thermostats |
Email: | Nora@chope.com.cn | ||
High Light: | AgCdO Electrical Contact Rivets,Switchgear Electrical Contact Rivets,OEM Electrical Contact Rivets |
AgCdO Contact Rivet
Silver Rivet and Ag/Cu Bimetal Rivet:
Pure Silver Specialty
1. A high level of electrical and thermal conductivity
2. Good plasticity and arc corrosion resistance
3. A very low contact resistance
AgNi /Cu Bimetal Rivet:
In low voltage engineering, this contact is widely used in AC switches as an
electrical contact.
Advantages
1. Directly soldered to contact bridges
2. Making manufacturing of contactor components simple and economical
AgCdO/Cu Bimetal Rivet:
This contact includes AgCdO10, AgCdO12, AgCdO15, and this kind of electrical contact has one of the most important materials in silver - metal
oxide contact material.
Typical Applications :
Low voltagecontactors, relays, automatic switch flash relays, auxiliary switch series, timers, starters, breakers and leakage protective switches.
AgZnO Rivet and AgZnO/Cu Bimetal Rivet:
The oxide of this contactor is more thermally stable than CdO. Because of the higher stability of ZnO and AgZnO, the contactor material increases the contactor resistance, which would be compensated through structural means, such as a higher contacting force.
AgSnO2 and AgSnO2 In2O3 and Bimetal Rivet:
AgSnO2 and AgSnO2In2O3 are the ideal environment-protecting materials for
substituting AgCdO. Since SnO2 has better thermal stability and higher hardness than CdO, AgSnO2 and AgSnO2 In2O3 is higher and it is more difficult to processing these two materials.
Contact Rivet Dimension And Tolerance:
Material | Specification(Wt%) | Density ≥g/cm3 |
Resistance ≤μΩ.cm |
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Ag | Ni | SnO2 | In2O3 | ZnO | CdO | |||
Ag | 99.95 | ── | ── | ── | ── | ── | 10.48 | 1.8 |
FAg | 99.85 | 0.15 | ── | ── | ── | ── | 10.48 | 1.9 |
AgNi(10) | 90 | 10 | ── | ── | ── | ── | 10.2 | 2 |
AgNi(15) | 85 | 15 | ── | ── | ── | ── | 10.1 | 2.1 |
AgNi(20) | 80 | 20 | ── | ── | ── | ── | 10 | 2.3 |
AgCdO(10) | 90 | ── | ── | ── | ── | 10 | 10 | 2.3 |
AgCdO(12) | 88 | ── | ── | ── | ── | 12 | 9.95 | 2.4 |
AgCdO(15) | 85 | ── | ── | ── | ── | 15 | 9.8 | 2.5 |
AgCdO(17) | 83 | ── | ── | ── | ── | 17 | 9.7 | 2.6 |
AgSnO2(8) | 92 | ── | 8 | ── | ── | ── | 9.9 | 2.2 |
AgSnO2(10) | 90 | ── | 10 | ── | ── | ── | 9.8 | 2.3 |
AgSnO2(12) | 88 | ── | 12 | ── | ── | ── | 9.7 | 2.4 |
AgZnO(8) | 92 | ── | ── | ── | 8 | ── | 9.4 | 2.5 |
AgZnO(10) | 90 | ── | ── | ── | 10 | ── | 9.3 | 2.6 |
AgSnO2(5)in2o3(5) | 92 | ── | 5 | 3 | ── | ── | 9.9 | 2.3 |
AgSnO2(6)in2o3(4) | 90 | ── | 6 | 4 | ── | ── | 9.8 | 2.4 |
AgSnO2(7)In2O3(3) | 90 | ── | 7 | 3 | ── | ── | 9.8 | 2.4 |
AgSnO2(8)In2O3(4) | 88 | ── | 8 | 4 | ── | ── | 9.7 | 2.5 |
AgSnO2(9)In2O3(4) | 87 | ── | 9 | 4 | ── | ── | 9.6 | 2.6 |
AgSnO2(10)In2O3(4) | 86 | ── | 10 | 4 | ── | ── | 9.5 | 2.7 |
Shapes: Flat head, Round head
Packing:
1) In hermetically sealed plastics bags
2) In plastic containers with dehydrating agent
3) Labeling with traceability number and packaging date
Production means:
1) A well equipped workshop with hot welding and cold welding machines.
2) A pressurized air conditioned workshop ensures the cleanliness required for
electronic applications.
3) An ISO9002 approved quality system. On the spot quality supervision to maintain optimum reliability.
4) An excellent technical environment and a first-rate metallurgical laboratory.