What is Cold Rolled Grain-Oriented Steel?
The main purpose of cold-rolled oriented silicon steel strip is for transformer manufacturing, so it is also called cold-rolled transformer silicon steel. Compared with cold-rolled non-oriented silicon steel, oriented silicon steel has strong magnetic directionality; it has superior high magnetic permeability and low loss characteristics in the rolling direction of easy magnetization. The iron loss of the oriented steel strip in the rolling direction is only 1/3 of the transverse direction, the magnetic permeability ratio is 6:1, and the iron loss is about 1/2 of the hot rolled strip, and the magnetic permeability is 2.5 times of the latter .
High magnetic induction cold-rolled silicon steel strips are all single-oriented steel strips, which are mainly used in the manufacture of electromagnetic components such as transformers and chokes in the telecommunication and instrument industries. There are two main characteristics of its application. One is that under the condition of low current, that is, weak magnetic field, the material is required to have high magnetic properties in the range of weak magnetic field, that is, high μ0 value and high B value; the second feature is the frequency of use High, usually above 400Hz, even up to 2MHz. In order to reduce the eddy current loss and the effective permeability under an alternating magnetic field, a thin strip of 0.05-0.20mm is generally used.
PRODUCT CATEGORY
The magnetic characteristics and technical characteristics Of the normal oriented electrical steel belt (sheet)
|
Nominal thickness
(mm) |
Grade | Theoretical density (kg/dm³) |
Maximum iron loss P1.7/50(w/kg) |
Minimum magnetic induction J800(T) | Minimum stacking factor(%) |
|---|---|---|---|---|---|
| 0.23 | H23Q110 H23Q120 |
7.65 | 1.10 1.20 |
1.83 | 0.945 |
| 0.27 | H27Q120 H27Q130 |
1.20 1.30 |
0.950 | ||
| 0.30 | H30Q120 H30Q130 |
1.20 1.30 |
0.955 |
The magnetic characteristics and technical characteristics Of high permeability-oriented electrical steel belt (sheet)
| Nominal thickness (mm) |
Grade | Theoretical density (kg/dm³) |
Maximum iron loss P1.7/50(w/kg) |
Minimum magnetic induction J800(T) | Minimum stacking factor(%) |
|---|---|---|---|---|---|
| 0.23 | H23QG085 H23QG090 H23QG095 H23QG100 |
7.65 | 0.85 0.90 0.95 1.00 |
1.88 | 0.945 |
| 0.27 | H27QG090 H27QG095 H27QG100 H27QG110 |
7.65 | 0.90 0.95 1.00 1.10 |
1.88 | 0.950 |
| 0.30 | H30QG105 H30QG110 H30QG120 |
7.65 | 1.05 1.10 1.20 |
1.88 | 0.955 |
The magnetic properties and technical characteristics Of the oriented electrical steel belt (strip) Of magnetic domain refinement level (laser engraving)
| Nominal thickness (mm) |
Grade | Theoretical density (kg/dm³) |
Maximum iron loss P1.7/50(w/kg) |
Minimum magnetic induction J800(T) | Minimum stacking factor(%) |
|---|---|---|---|---|---|
0.23 |
H23QH080 H23QH085 H23QH090 H23QH100 |
7.65 | 0.80 0.85 0.90 1.00 |
1.89 | 0.945 |
0.27 |
H27QH085 H27QH090 H27QH095 H27QH100 |
0.85 0.90 0.95 1.00 |
0.950 | ||
| 0.30 | H30QH095 H30QH100 H30QH110 |
0.95 1.00 1.10 |
0.955 |
PRODUCT USE
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