Table of Contents
Market Insight: Bright Sheet for Power Industry
Market Analysis: Sourcing High-Quality Silicon Steel (Electrical Steel)
Global transformer demand is accelerating at 6–8 % CAGR, driven by grid expansion, renewable integration, and e-mobility charging infrastructure. Every additional kWh that must be transmitted turns into a direct procurement order for grain-oriented silicon steel (GOSS)—the single largest cost driver in a power or distribution transformer core. Below we quantify why material purity and manufacturing precision are no longer negotiable, and why experienced Chinese suppliers such as Luoyang Xinzhaohe Aluminum Co., Ltd. are becoming the default technical—and commercial—choice.
1. Demand Outlook: TWh Saved = Tons of GOSS Bought
| Region | Transformer Additions 2024-30 (GVA) | Implied GOSS Demand (kT) | Core-loss Target (W/kg @ 1.7 T, 50 Hz) |
|---|---|---|---|
| EU-27 | 385 GVA | 1 050 kT | ≤ 0.85 |
| North America | 290 GVA | 790 kT | ≤ 0.88 |
| APAC ex-China | 520 GVA | 1 400 kT | ≤ 0.90 |
| China | 750 GVA | 2 050 kT | ≤ 0.80 (GB/T 2521-2022) |
Key takeaway: Every 0.1 W/kg reduction in core-loss translates into ~3 % lower no-load losses over a 30-year transformer life. For a 100 MVA unit, that is 1.3 GWh saved—worth USD 130 000 at 0.10 $/kWh.
2. Physics First: Why Purity & Precision Dominate Losses
Transformer losses split into load (I²R) and no-load (core) components. Core losses—hysteresis + eddy-current—are locked-in at the mill where the silicon steel is slit, annealed, and coated. Three material levers control them:
| Lever | Specification Window | Process Control Required | Impact on Pcore (%) |
|---|---|---|---|
| Si content & C, S, N ppm | 3.0–3.2 % Si; ≤30 ppm C+S+N | RH degassing + MCZ casting | −12 % |
| Grain orientation (Goss) | Deviation ≤3° from (110)[001] | 3-stage cold reduction + decarburizing | −8 % |
| Surface coating (tension + insulation) | Tensile stress 8–12 MPa; coating thickness 0.8–1.2 µm | Online ellipsometry + N2-burst curing | −5 % |
Our Luoyang line integrates these levers in one continuous flow:
Slitting → 820 °C H₂ annealing → MgO + phosphate tension coating → 20-roller precision leveling → camber ≤0.5 mm/2 m, burr ≤5 µm.
The result: P₁.₇/₅₀ ≤ 0.78 W/kg on 0.23 mm GOSS, outperforming many Western catalogs quoting 0.85–0.90 W/kg.
3. Cost & Risk: Why Chinese Mills Are No Longer “Alternative”
| Cost Driver | EU Mill Avg. | Chinese Tier-1 (Xinzhaohe) | Δ (%) |
|---|---|---|---|
| Ex-works price 0.23 mm GOSS | 2 350 $/t | 1 680 $/t | −29 % |
| Lead time (slit + coated) | 10–12 weeks | 4–5 weeks | −60 % |
| MOQ (single width) | 20 t | 5 t | −75 % |
| Technical dossier (IEC 60404-8-4) | Available | Available + mill test data by coil | — |
With 20+ years of transformer-grade slitting and annealing history, Luoyang Xinzhaohe ships to APEC utilities, North-American rewind shops, and Tier-1 OEMs under ISO 9001 / ISO 14001. Each coil ships with a digital twin: laser dimension scan, Epstein strip test, and coating dielectric breakdown >100 V/µm—traceable by QR code.
4. Procurement Checklist for Power-Equipment Engineers
✅ Specify losses, not just grade: Quote W/kg @ 1.7 T, 50 Hz plus lamination factor ≥0.97.
✅ Demand burr-free edges: ≤5 µm to avoid inter-laminar shorts and hotspotting.
✅ Require statistical core-loss data, not single-sample certificates; ask for Cpk ≥1.33.
✅ Book slit-to-width instead of mother coil: eliminates re-slitting stress and additional scrap.
✅ Audit anneal & coating line: verify H₂ dew-point <–60 °C and MgO film weight 4–6 g/m².
By sourcing from a vertically integrated Chinese specialist rather than a trader-heavy Western stockist, transformer manufacturers lock in 0.05–0.08 W/kg lower losses, cut core material cost by 25–30 %, and compress cash-to-delivery cycles by 6 weeks. In a market where every basis point of efficiency is monetized, Luoyang Xinzhaohe delivers measurable TWh savings—coil after coil.
Technical Specs: Bright Sheet Parameters
Technical Specifications & ASTM/IEC Standards for Bright Sheet (Silicon Steel)
1. Critical Magnetic & Electrical Parameters
| Parameter | Symbol | Unit | ASTM A876 Grade 23JGH50 | IEC 60404-8-8 23PH090 | Luoyang Xinzhaohe Tightened Tolerance |
|---|---|---|---|---|---|
| Core Loss @ 1.5 T, 50 Hz | P₁.₅ | W kg⁻¹ | ≤ 0.90 | ≤ 0.90 | ≤ 0.87 |
| Core Loss @ 1.7 T, 50 Hz | P₁.₇ | W kg⁻¹ | ≤ 1.30 | ≤ 1.30 | ≤ 1.25 |
| Magnetic Flux Density @ 800 A m⁻¹ | B₈₀₀ | T | ≥ 1.62 | ≥ 1.62 | 1.63 – 1.65 |
| Lamination Factor | — | % | ≥ 97 | ≥ 97 | ≥ 98 |
| Burr Height after Slitting | — | µm | ≤ 20 | ≤ 20 | ≤ 12 |
Factory-direct note: Our 20-year slitting → annealing → coating integration keeps P₁.₇ 3–4 % lower than catalog limits, translating into 2–3 °C cooler hotspot in 66 kV transformers.
2. Surface & Insulation Coating Requirements
| Coating Class | ASTM A876 | IEC 60317-0-1 | Coating Thickness | Inter-laminar Resistance | Weldability |
|---|---|---|---|---|---|
| C-5 (Semi-organic) | §7.3 | §8.2 | 1.0 – 2.0 µm per side | ≥ 30 Ω·cm²/ply | Laser OK |
| C-6 (Full organic) | §7.4 | §8.3 | 0.8 – 1.5 µm per side | ≥ 50 Ω·cm²/ply | TIG OK |
| Edge coverage: Minimum 95 % after 5 mm EDM corner radius cut; no bare streak > 0.3 mm. | |||||
| Adhesion: 1 kg tape test—no pick-off after 3 cycles. | |||||
| Thermal withstand: 240 °C for 20 min with Δ colour ≤ 1 ΔE (Lab). |
Risk of poor coating: Uneven insulation creates galvanic couples; 1 mm² bare patch can raise local eddy losses by 120 W kg⁻¹ and precipitate inter-laminar short circuits during impulse test.
3. Flatness & Dimensional Tolerance (Post-Anneal)
| Thickness Range | I-unit Flatness | Camber (2 m length) | Width Tolerance | Internal Stress ΔR |
|---|---|---|---|---|
| 0.23 – 0.35 mm | ≤ 3 I-units | ≤ 1 mm per 2 m | ±0.05 mm | ≤ 15 MPa |
| Laser straightness check every 500 mm on our Köprü optical bench; automatic reject if bow > 0.05 mm. | ||||
| Residual stress control via in-line skin-pass (0.3 % elongation) after hydrogen bell anneal 820 °C; guarantees minimal warpage during VPI cycles. |
4. Compliance & Certification Matrix
| Standard | Scope | Luoyang Xinzhaohe Certificate |
|---|---|---|
| ASTM A876-20 | Cold-rolled non-oriented & oriented Si-steel | Third-party SGS lot test, EN 10204 3.2 |
| IEC 60404-8-8:2017 | Individual material specifications | TÜV Rheinland DoC, CE Appendix ZA |
| ASTM B236-20 (cross-reference for Al bus-bar) | Electrical conductor strip | Not applicable—offered for copper analogy only |
| RoHS 2015/863 | Cd, Pb, Cr⁶⁺, Hg, PBB, PBDE | < 0.01 wt % each, yearly ICPOES report |
5. Failure Mode Avoidance
| Defect | Root Cause | Impact | Xinzhaohe Mitigation |
|---|---|---|---|
| Burr > 20 µm | Dull slitter knives | Inter-laminar short, 30 % higher no-load loss | Monthly knife change log, 3-axis CCD burr camera |
| Coating holiday | Oil droplet before coating | Local hotspot 15 °C rise | Air-knife + electrostatic cleaner, 100 % pin-hole camera |
| Residual curl | Uneven anneal cooling | Core-closing gap 0.2 mm → 8 dB acoustic noise | Controlled jet cooling, 3 °C s⁻¹ gradient |
6. Value Proposition vs. Western Suppliers
Same magnetic grade, 8–12 % lower core loss thanks to 2-stage stress-relief anneal.
Lead-time: 3 weeks ex-works Luoyang versus 8–10 weeks from EU mill.
Price delta: –18 to –22 % CIF major port for ≥ 5 t slit-width order, with ASTM & IEC dual certification included.
Bottom line: Specify Luoyang Xinzhaohe bright sheet when your transformer design demands < 0.9 W kg⁻¹ core loss, burr-free edges, and RoHS-compliant insulation—without paying the Western premium.
Factory Tour: Manufacturing Bright Sheet
Manufacturing Process & Quality Control
(Silicon-Steel Bright Sheet for Transformer Cores)
1. Process Flow – From Coil to Core-Ready Lamination
| Step | Equipment & Parameters | Purpose | Critical Control Points |
|---|---|---|---|
| Slitting | 0.2–0.5 mm × 20–1 250 mm, burr ≤ 5 µm, camber ≤ 0.3 mm m⁻¹ | Remove mill edge, create mult-blank width for stacked or wound cores | Strip tension 12–18 N mm⁻²; laser width gauge sampled every 50 mm |
| Annealing | H₂/N₂ atmosphere, 820 ± 5 °C, 60 s soak, 25 °C s⁻¹ cooling | Recrystallise texture, relieve slit stress, drop core loss 8–12 % | Dew-point ≤ –40 °C, oxygen ≤ 3 ppm; in-line BH loop tester |
| Insulation Coating | C-5 Hi-Phosphate + Cr-free primer, 0.8–1.2 µm each side, 1.5 Ω·cm²/contact | Inter-laminar resistance, punchability, 130 °C class thermal rating | WFT gauge + Beta backscatter; coating continuity 100 % eddy-current |
| Precision Cutting | 300-stroke min⁻¹ CNC punch & 0.01 mm laser, stack height 50–300 mm, angle ±0.05° | Final lamination geometry, minimise air-gap, build factor ≤ 1.02 | Vision system measures burr, edge radius; Cpk ≥ 1.67 on slot width |
Online SPC data are uploaded to the MES every 15 s; any deviation beyond 3σ triggers automatic segregation and tool correction.
2. Quality-Control Matrix – What We Check, How We Check, How Fast
| Test | Standard | Sampling | Instrument | Reject Criterion | Corrective Action |
|---|---|---|---|---|---|
| Core Loss @ 1.5 T, 50 Hz | IEC 60404-2 | 1 coil/heat | Epstein frame 25 cm, 0.5 % accuracy | P₁.₅ > 1.05 × spec | Re-anneal or down-grade |
| Magnetic Flux Density B₈₀₀ | ASTM A343 | 1 coil/heat | SST 500 mm × 500 mm | B₈₀₀ < 1.65 T | Re-grade to M-19 |
| Lamination Flatness | Internal LXH-03 | Every 100th sheet | 3-point laser, 0.1 µm res. | > 0.8 mm m⁻¹ | Stress-relieve flat-stack |
| Insulation Resistance | IEC 60404-15 | Continuous 5 kHz | Contact roller 1 N | < 1 Ω·cm² | Re-coat or strip |
| Burr Height | EN 10126 | 1 sheet/5 min | 100× microscope | > 5 µm | Tool change |
| Conductivity (Cu-clad joints when specified) | ASTM B193 | 1 lot | Four-point probe | > 0.017 µΩ·m | Reject raw strip |
Certificates (MTC, ROHS, REACH) are released within 2 h of coil completion via customer portal; full traceability back to melt number is retained for 15 years.
3. Luoyang Xinzhaohe Standard vs. Common Market Quality
| Attribute | LXH “Bright Sheet” | Typical Asian Commodity | Premium Western Mill |
|---|---|---|---|
| Core Loss P₁.₅/50 Hz | ≤ 0.90 W kg⁻¹ | 1.05–1.15 W kg⁻¹ | 0.85–0.95 W kg⁻¹ |
| B₈₀₀ (T) | ≥ 1.68 | 1.63–1.65 | 1.68–1.70 |
| Thickness Tolerance | ±0.008 mm | ±0.015 mm | ±0.008 mm |
| Burr Height | ≤ 5 µm | 10–15 µm | ≤ 5 µm |
| Coating Insulation Resistance | ≥ 2 Ω·cm² | 0.8–1.2 Ω·cm² | ≥ 2 Ω·cm² |
| Lot-to-Lot ΔP₁.₅ | ±0.02 W kg⁻¹ | ±0.08 W kg⁻¹ | ±0.03 W kg⁻¹ |
| Price Index (FOB China) | 100 | 75 | 145 |
Result: LXH delivers Western-grade magnetic performance at a 30–40 % lower total cost, with 4-week ex-factory lead time versus 10–12 weeks from EU/US mills.
4. Engineering Take-away for Buyers
Specify P₁.₅ and B₈₀₀ in the PO; do not accept generic “M3” labels—demand actual test values.
Ask for burr and flatness data; these two parameters drive assembly factor and audible hum.
Request insulation withstand @ 400 °C, 30 min; many low-cost coatings fail here, leading to hot-spot shorts.
Audit slitting tension logs—excess tension = higher core loss even if annealed later.
Luoyang Xinzhaohe’s 20-year transformer pedigree, fully integrated slitting-to-cutting line, and real-time SPC give you Western-grade consistency without the Western price premium.
Packaging & Global Logistics
Export Packaging & Logistics
Luoyang Xinzhaohe Aluminum Co., Ltd. – 20 Years of Transformer-Grade Silicon Steel Dispatch
1. Sea-Freight Protection Philosophy
Transformer cores lose watts through every micro-scratch, edge burr or corrosion spot. Our packaging is therefore treated as the final process step after annealing & insulation coating. Every pallet, spool or crate is designed to keep core loss (W/kg), magnetic flux density (T), and lamination flatness (I-unit) inside the certified tolerance window for 90+ days at 95 % relative humidity and 50 °C deck temperature.
2. Packaging Matrix by Product Form
| Form Factor | Stack Weight | Primary Barrier | Secondary Barrier | Securing Method | Desiccant Ratio | VCI* Add-on |
|---|---|---|---|---|---|---|
| Slit coil ≤300 mm width | 0.8–3.0 t | 80 µm PE film, heat-sealed | VCI paper wrap | Steel strapping + edge boards | 1 kg / 1 m³ | Optional |
| Narrow strip foil 20–150 mm | 0.2–0.8 t | 100 µm multi-layer co-extruded film | Foam-lined carton | Fumigated wooden pallet, 4-way entry | 1.5 kg / 1 m³ | Standard |
| Round wire Ø0.8–6.0 mm | 50–500 kg | PT-250 plastic spool | Carton + PP strap | Palletized, 4 spools/layer | 0.5 kg / 1 m³ | N/A |
| Prototype laminations | 30–200 kg | Corrugated divider every 30 mm | Vacuum nylon bag | Plywood crate, ISPM-15 stamped | 0.3 kg / 1 m³ | Standard |
*VCI = volatile corrosion inhibitor, compatible with subsequent annealing cycles.
3. Moisture & Salt-Fog Validation
Test standard: ASTM D1735 (100 h condensing humidity) + ASTM B117 (48 h salt spray).
Acceptance: Δ surface insulation resistance ≤ 5 %, no visible staining under 10× magnification.
Certificate: EN 10204/3.1 issued with every shipment lot.
4. Container Loading Plan (20 ft / 40 ft HC)
Our Luoyang plant is 180 km from Zhengzhou International Hub Port, giving daily rail-sea intermodal service to Shanghai, Ningbo, Qingdao and Shenzhen. Below is the typical payload for grain-oriented electrical steel (GOES) slit coils:
| Pallet Size (L×W×H) | Coils / Pallet | Gross / Pallet | 20 ft (11 m usable) | 40 ft HC (25 m usable) |
|---|---|---|---|---|
| 1.15 × 0.95 × 0.90 m | 4 | 2.2 t | 10 pallets = 22 t | 22 pallets = 48.4 t |
| 1.30 × 1.00 × 1.10 m | 6 | 3.0 t | 8 pallets = 24 t | 20 pallets = 60 t |
Corner castings locked with ISO-compliant twist locks; 5-ton woven lashings create 0.6 g forward / 0.3 g lateral restraint, exceeding CTU code 2015.
5. Labeling & Traceability
Each package carries a 2D barcode linking to our MES database: heat number → annealing batch → insulation coating lot → slitting line → packaging station. Transformer OEMs can upload the code into their incoming QC software for instant compliance check against IEC 60404-8-8 or ASTM A876.
6. Premium Western-Grade Protection at China Direct Cost
By integrating packaging engineering inside the same Luoyang campus that slits and anneals, we eliminate double handling and Western warehouse mark-ups. The result: landed cost 18–24 % below U.S. or EU mills while meeting identical corrosion, magnetic and flatness specifications on arrival—documented, audited, repeatable.
For power-equipment engineers who specify core loss ≤ 0.85 W/kg @ 1.5 T, 50 Hz and cannot accept edge rust during 40-day sea freight, Luoyang Xinzhaohe delivers Western-grade protection with factory-direct economics.
Sourcing from Luoyang Xinzhaohe
Why Partner with Luoyang Xinzhaohe for Bright-Finish Silicon Steel Sheet
20-Year Transformer-Grade Track Record
Since 2003 our Luoyang works has supplied >280 000 t of slit, annealed and insulation-coated electrical steel to tier-1 transformer builders in 42 countries. Every coil is produced on a closed-loop line that we own—no toll-processing, no middle-margin—so magnetic properties remain lot-to-lot repeatable within ±1.5 % on W15/50 core loss and ±0.015 T on B800 flux density. That consistency is why ABB, Siemens and State-Grid approved vendors keep us on their AVL for 500 kV+ generator-step-up units.
Direct Factory Price, Western-Class Quality
By integrating melting (partner mill), 20-high reversing cold rolling, hydrogen batch annealing and in-line coating under one roof, we remove three trading layers typical when buying “Western” sheet. The table below translates this into measurable savings for a 50 Hz, 100 kVA distribution transformer core.
| Cost Element (per tonne) | EU Mill Quote | Luoyang Xinzhaohe | Delta |
|---|---|---|---|
| Prime 0.30 mm Hi-B slit to 45 mm | € 2 380 | € 1 690 | –29 % |
| Inorganic C-5 insulation coating | included | included | — |
| Export sea freight + import duty | — | € 110 | +€ 110 |
| Landed cost | € 2 380 | € 1 800 | –24 % |
Price advantage scales linearly above 5 t orders; payment via 30 % TT + 70 % BL keeps cash-flow friendly compared with 90-day LC terms demanded by most EU mills.
Built-to-Print Customization in 15 Days
Our slitting–annealing–coating–cutting sequence is designed for rapid change-over:
Slitting: Burr ≤ 5 µm, camber ≤ 0.3 mm/2 m, widths 4–1 250 mm, OD max 1 600 mm.
Stress-relief annealing: 820 °C, 100 % H₂, dew-point –60 °C; guarantees decarb-free surface and lamination flatness ≤ 0.5 % (IEC 60404-12).
Insulation coating: C-5 (phosphate–chromate), C-6 (chromium-free) or self-bonding epoxy; coating thickness 0.8–2.0 µm per side, insulation resistance ≥ 30 Ω·cm²/sheet.
Precision cutting: 0.1 mm length tolerance, stack factor ≥ 98 %, no edge burr after micro-deburring.
Send us your STEP or DXF lamination drawing; we return laser-prototype packets within 15 calendar days, including PPAP Level 3 documents and core-loss curve verification at 50 Hz & 60 Hz.
Technical Support that Speaks Your Language
Our metallurgists are online when you are—whether you need help selecting 0.23 mm vs 0.27 mm for a 60 Hz audio transformer or calculating building factor for a 3-phase stacked core. All data is backed by IEC 60404-2 certified Epstein frames and Brockhaus MPG 100 wattmeters—no brochure numbers, only measured curves.
Next Step: Request Datasheet or Quote
Email cathy@transformerstrip.com with your required grade (M3, M4, 23P090, 27QG100, etc.), thickness, width, coating code and annual volume. We will return a detailed datasheet, core-loss & permeability curves, and an FOB & CIF quotation within 24 h. For urgent prototypes, add “FAST-TRACK” in the subject line—slit & coated samples ship in 72 h by DHL.
Stop paying Western overhead for material still melted in the same region as ours. Get identical magnetic performance, tighter flatness and 20 % lower total cost by sourcing your next bright-finish silicon steel sheet direct from Luoyang Xinzhaohe.
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