Cos'è il nastro in lega di rame?
Il nastro in lega di rame è un materiale in nastro composto da rame, zinco, nichel e altre leghe. Tra questi, la proporzione di rame nella sua lega è del 60-98%, la proporzione di zinco è del 2-40% e la proporzione di nichel varia dallo 0 al 5%. Il nastro in lega di rame ha una buona conduttività elettrica e resistenza alla corrosione, quindi è ampiamente utilizzato in elettronica, produzione e altri campi.
Caratteristiche delle bobine in lega di rame
1. Good electrical conductivity: Copper alloy tape has good electrical conductivity, can effectively transmit current, and is suitable for high-frequency and high-speed circuits.
2. Good corrosion resistance: Copper alloy tape has excellent corrosion resistance and can be used for a long time in humid, acidic, high temperature and weathered environments without being easily damaged.
3. Good processing performance: Copper alloy coiled tape is easy to process and form, and can be made into coiled tapes with different precisions and sizes according to needs.
4. Low melting point: The melting point of copper alloy tape is lower than that of pure copper. It is easy to fuse and weld, and is convenient for making electronic components.
5. Good fatigue resistance: Copper alloy coil strip can withstand multiple bends without breaking easily. It has good fatigue resistance and is suitable for occasions that require frequent deformation.
Application of copper alloy coil
1. Electronic field: Copper alloy tape is widely used in the manufacturing of electronic components, such as inductors, capacitors, transformers, relays, etc.
2. Manufacturing field: Copper alloy tape can also be used to manufacture conductive connectors, springs, springs, contactors, force gauges, varistors, etc.
3. Construction field: Copper alloy coils and strips can be used as decorative materials in construction, such as elevator doors, doors and windows, etc.
[Conclusion] As a material with wide application value, copper alloy strip has good electrical conductivity and corrosion resistance. It has high application value in electronics, manufacturing, construction and other fields, and has broad market prospects.
| Categoria | Prodotti | gradi | Product Status | Thicknessmm | Larghezza mm | Weight/unit (kg) |
| Common Strip | Common brass plate/strip | H62 H65 | M、2M、3M、4M、TM、Y4、Y3、Y2、Y1、Y、2Y、TY、H and so on | 0.1~3.0 | 18~325 | ≤600 |
| H68 H70 | 0.1~3.0 | 18~305 | ||||
| Common phosphor copper strip | Qsn QF | 0.1~3.0 | 18~210 | ≤250 | ||
| High Precision Strip | High precision brass plate/strip | H62 H65 H68 H70 H85 H90 | 0.08~2.6 | 10~420 | ≤4000 | |
| High precision red copper plate/strip | T2 | 0.1~2.6 | 10~420 |
2、Thickness Tolerance
| Common Strip | Brass / phosphor copper | Specification (mm) | Brass Tolerance(mm) | Phosphor Copper Tolerance(mm) |
| conosciuto come i migliori prodotti in lega di alluminio | -0.01 | -0.02 | ||
| 0.21~0.39 | -0.015 | -0.025 | ||
| 0.40~0.8 | -0.02 | -0.04 | ||
| 0.81~1.5 | -0.04 | -0.05 | ||
| 1.51~2.0 | -0.05 | -0.06 | ||
| 2.01~2.5 | -0.06 | -0.06 | ||
| High precision strip | Brass/Red Copper | Specifica (mm) | Brass Tolerance(mm) | Red Copper Tolerance(mm) |
| conosciuto come i migliori prodotti in lega di alluminio | ±0.005 | ±0.005 | ||
| 0.3~0.6 | ±0.007 | ±0.007 | ||
| 0.6~0.8 | ±0.01 | ±0.01 | ||
| 0.8~1.2 | ±0.012 | ±0.012 | ||
| 1.2~1.5 | ±0.015 | ±0.015 | ||
| 1.5~2.0 | ±0,02 | ±0,02 | ||
| 2.0~2.5 | ±0.025 | ±0.025 |
3、Mechanical Property
(1)Soft state mechanics standard
| contenitori | Spessore/mm | Common Strip | High Precision Strip |
| Cupping Test Value/mm | Cupping Test Value/mm | ||
| Soft Series | 0.10-0.16 | ≥7.8 | ≥7.8 |
| 0.17-0.19 | ≥8.8 | ≥8.8 | |
| 0.2-0.24 | ≥9.0 | ≥9.0 | |
| 0.30-0.35 | ≥9.2 | ≥9.4 | |
| 0.36-0.41 | ≥9.4 | ≥9.6 | |
| 0.42-0.45 | ≥9.6 | ≥9.8 | |
| 0.51-0.54 | ≥10.2 | ≥10.2 | |
| 0.55-0.59 | ≥10.5 | ≥10.5 | |
| 0.60-0.90 | ≥10.8 | ≥10.7 | |
| ≥1.0 | σb≥294N/mm2 δ≥48% HV≤100 | σb≥294 δ≥50% |
(2)Hard State Mechanics Standard
| Prodotto | Spessore/mm | Proprietà | contenitori | |||||
| TY | 2Y | E | Y1 | Y2 | Y4 | |||
| Common Strip | 0.10-0.19 | Cupping Test Value | σb≥560N/mm2 δ≥2.5% | —— | 2.0-5.0 | 3.5-5.5 | 4.0-6.5 | 5.0-6.5 |
| 0.20-0.29 | 3.0-5.5 | 3.5-6.5 | 4.5-7.0 | 5.0-7.5 | 6.0-8.0 | |||
| 0.30-0.40 | 3.5-6.0 | 5.5-7.5 | 6.0-8.0 | 6.5-8.5 | 7.0-8.5 | |||
| 0.41-0.70 | σb/MPa | σb≥430 | σb≥412 | 372-471 | 372-471 | σb≤430 | ||
| δ/% | δ:8-15% | δ≥10% | δ≥15% | la lega ha il doppio della sua resistenza alla compressione | δ≥28% | |||
| ≥0.71 | σb/MPa | σb≥430 | σb≥412 | 372-471 | 372-471 | σb≤420 | ||
| δ/% | δ:8-15% | δ≥10% | δ≥15% | la lega ha il doppio della sua resistenza alla compressione | δ≥30% | |||
| High Precision Strip | 0.10-0.19 | Cupping Test Value | σb≥588 MPa δ≥2.5% | / | 2.0-5.0 | 3.5-5.5 | 4.0-6.5 | 5.0-6.5 |
| 0.20-0.29 | 3.0-5.5 | 3.5-6.5 | 4.0-6.5 | 5.0-7.5 | 6.0-7.5 | |||
| 0.30-0.40 | 3.5-6.0 | 5.5-7.5 | 6.0-8.0 | 6.5-8.5 | 7.0-8.5 | |||
| ≥0.2-0.4 | σb/MPa | ≥412 | ≥400 | ≥380 | 360-400 | ≤410 | ||
| δ/% | ≥8 | ≥10 | 15-23 | ≥23 | ≥35 | |||
| ≥0.4-0.7 | σb/MPa | ≥430 | ≥412 | ≥412 | 372-471 | ≤420 | ||
| δ/% | 8-15 | ≥10 | 15-23 | ≥23 | ≥35 | |||
| ≥0.7 | σb/MPa | ≥430 | ≥412 | ≥412 | 372-471 | ≤420 | ||
| δ/% | 8-15 | ≥10 | 15-23 | ≥30 | ≥35 | |||
(3)Vickers Hardness
| Prodotto | m | Y4 | Y2 | Y1 | E | 2Y | TY |
| Common Brass Strip | 80-100 | 90-125 | 110-135 | 125-145 | 140-160 | 160-180 | 180-200 |
| High Precision Brass Strip | 75-90 | 105-120 | 115-130 | 125-140 | 145-160 | 165-180 | 185-200 |
| High precision red copper alloy plate/strip | 50-60 | 60-70 | 90-105 | – | 100-115 | – | – |
