Insulants Panel 3021/3025/Textolite/Pertinax/Текстолит/PFCC/PFCP/Getinaks/NEMA X/XX/XXX Raw Material, Resin, Process and Production Equipment
3021, GB/T 1303, GOST/Textolite, IEC 60893/PFCP Phenolic Paper laminated sheet
# Insulants Panel 3021/3025/Textolite/Pertinax/Текстолит/PFCC/PFCP/Getinaks/NEMA X/XX/XXX Raw Material, Resin, Process and Production Equipment
The following content focuses on GB/T 1303 grade 3021 insulating materials. From the perspective of resin preparation (resin kitchen) and impregnation/lamination process, it summarizes raw materials, resin system, process route, equipment configuration, and performance boundaries.
I. Industry Positioning and Standard Attributes of 3021
- 3021 belongs to phenolic-resin-impregnated paper-based laminated insulating sheet.
- Common English names: Phenolic Paper Laminated Sheet, Phenolic Paper-based Insulating Sheet.
- Applicable standards: GB/T 1303 (aligned with IEC 60893, PFCP category).
- Industry common name: general-purpose paper-based phenolic laminate.
II. Composition of 3021: Raw Materials + Resin System
2.1 Substrate type
Electrical insulating paper, kraft paper, or bleached pulp paper.
Key indicators:
- Basis weight: 120-200 g/m2
- Low ash content
- High impregnation uniformity
- Relatively lower MD/TD strength consistency requirements (vs. fiberglass)
The upper performance limit of 3021 is mainly determined by paper substrate, not downstream processing.
2.2 Resin system (defines 3021 nature)
- Resin type: thermosetting phenolic resin
- Common systems: alkaline or neutral
Typical resin preparation composition:
- Phenol
- Formaldehyde
- Catalyst (for example NaOH or organic amines)
- Diluent/solvent (for example ethanol or methanol)
- Minor modifiers (improving flexibility or reducing brittleness)
Typical resin characteristics:
- Solids content: 45-55%
- Viscosity: medium to low (suitable for full paper impregnation)
- Reaction mechanism: condensation polymerization with water generation
2.3 Why 3021 uses phenolic resin only
From an engineering perspective:
- Paper substrate heat resistance is inherently limited.
- Phenolic resin offers:
- Low curing temperature
- Good flowability
- Lowest overall cost
- Best compatibility with cellulose
This is also why 3021 cannot be easily upgraded to a higher thermal class.
III. Performance Boundaries of 3021 (Engineering View)
| Item | Typical Level of 3021 |
|---|---|
| Thermal class | Class-B 120 C |
| Dielectric strength | Medium |
| Water absorption | Relatively high |
| Mechanical strength | Low to medium |
| Dimensional stability | Average |
| Machinability | Excellent (sawing, turning, milling) |
| Cost | Very low |
The advantage of 3021 is not peak performance, but cost-effectiveness and easy machining.
IV. Complete Manufacturing Process Route for 3021
4.1 Process overview
Phenolic resin preparation -> paper impregnation -> drying to B-stage -> cutting/stacking -> hot-press lamination -> post-curing -> cut-to-size machining.
NTRY applies full-process equipment including resin kitchen, impregnation line, lamination press, and cutting systems.
V. Process Breakdown by Section and Equipment
5.1 Resin preparation section (resin kitchen)
Process characteristics:
- Single-kettle or dual-kettle operation
- Wide reaction window
- Relatively low precision requirement
Key equipment:
- Phenolic resin reactor (kettle)
- Condenser and reflux system
- Solvent metering system
- Resin storage tanks
Compared with FR-4 systems, 3021 resin preparation has a lower process barrier.
5.2 NTRY paper impregnation line (critical but not complex)
Process characteristics:
- Single-bath impregnation
- Resin pickup controlled by metering rollers
- Low web tension requirement
Typical line configuration:
- Unwinder
- Impregnation unit
- Metering/doctor/squeeze rollers
- Multi-zone hot-air oven (120°C-160°C)
- Sheet cutting unit
Process objectives:
- Full fiber impregnation
- Surface dry and non-tacky
- Internal resin still capable of secondary flow during lamination
5.3 B-stage impregnated paper
Required condition:
- Dry surface
- Stackable
- Can re-soften and flow again during heating
Key control points:
- Over-dried: poor interlayer bonding in lamination
- Over-wet: bubbles or delamination
5.4 Hot-press lamination press
Method:
- Atmospheric pressure or slight vacuum hot press
Typical parameters:
- Temperature: 140°C-160°C
- Pressure: 2-4 MPa
- Cycle: 30-60 minutes
Equipment:
- NTRY multi-opening hot press
- Press plate tooling system (caul plates/templates as required)
- Basic programmable pressure-cycle control
5.5 Post-curing and finishing
Post-curing:
- 140°C-150°C
- 8-24 hours
- Improves dimensional and electrical stability
Machining/finishing (third-party facilities can be used):
- Sawing
- Punching
- CNC machining
VI. Engineering Differences vs. Adjacent Grades
| Grade | Typical positioning |
|---|---|
| 3020 | Lower-grade paper and resin system |
| 3021 | Standard general industrial grade |
| 3025 | Cotton fabric reinforcement, higher mechanical strength |
| G10/G11 | Fiberglass + epoxy, fundamentally different system |
VII. Engineering Conclusions (for Equipment/Process Teams)
1. 3021 has one of the highest process tolerances among common insulation sheets. 2. The three most critical controls are:
- Resin solids content
- Paper impregnation degree
- Hot-press deaeration/venting
3. Attempts to significantly improve 3021 performance will still be limited by the intrinsic ceiling of paper substrate. 4. Core value of 3021 production lines:
- Low cost
- Easy machining
- Stable large-volume supply