| Customization: | Available |
|---|---|
| Carrier: | PE |
| Color: | White |
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Medium density recycled polyethylene MDPE has excellent weather resistance;
Environmental stress crack resistance;
Recycled PE has extrusion processability;
optical cable sheath, overhead cable insulation sheath and other environments with strict requirements on sheath strength and wear resistance.
Package and Transport| Performance | Unit | HDPE | MDPE | LLDPE |
| Fusant flow rate | g/10min | ≤2.0 | ≤2.0 | ≤2.0 |
| Density | g/cm3 | 0.955~0.978 | 0.940~0.955 | ≤0.940 |
| Tensile strength before aging | Mpa | ≥20.0 | ≥17.0 | ≥14.0 |
| Elongation at break before aging | -- | ≥650% | ≥600% | ≥600% |
| Tensile strength after aging | Mpa | (110±2)ºC,240h,≥20.0 | (110±2)ºC,240h,≥16.0 | -76ºC,3min,maximum cracking quantity/test sample quantity:15/30 |
| Elongation at break after aging | -- | (110±2)ºC,240h,≥650% | (110±2)ºC,240h,≥500% | 500h,failure quantity/test sample quantity0/10 |
| Low temperature impact catalytic | individual | -76ºC,3min,maximum cracking quantity/test sample quantity:15/30 | -76ºC,3min,maximum cracking quantity/test sample quantity:15/30 | / |
| Resistance to environment stress cracking | individual | 500h,failure quantity/test sample quantity0/10 | 500h,failure quantity/test sample quantity0/10 | / |
| Oxidation induction time | min | ≥30 | ≥30 | ≥30 |
| Black carbon cantent | -- | (2.60±0.25)% | (2.60±0.25)% | (2.60±0.25)% |
| Black carbon dispersity | level | ≤3 | ≤3 | ≤3 |
| Dielectric strength | KV/mm | ≥25 | ≥25 | ≥25 |
| Volume resistance | Ω·m | ≥1*1014 | ≥1*1014 | ≥1*1014 |
| Dielectric constant | -- | ≤2.75 | ≤2.75 | ≤2.80 |
| Name | Model | Application | Standard |
| Si lane cross-linked polyethylene insulation material for 10kV and below wires and cables | T-PE010 | Low voltage power cables and control cables | JB/T10437-2024 |
| Si lane naturally cross-linked polyethylene insulation material for 10kV and below wires and cables | T-PE011 | Low voltage power cables and control cables | |
| Si lane cross-linked polyethylene insulation material for small-sized wires and cables | T-PE012 | Small sized wires, cables, and control cables | |
| Si lane cross-linked polyethylene insulation material for overhead cables of 10kV and below | T-PE013 | Overhead cable | JB/T10260-2014 |
| S ilane cross-linked high carbon black content polyethylene insulation material for overhead cables of 10kV and below | T-PE014 | Overhead cable (carbon black content 2.0%) | JB/T10260-2014 |
| Model | Line Speed | Machine Barrel | Die head |
| T-PE010 | ≤200m/min | 135ºC- 165ºC- 175ºC- 180ºC | 175-190ºC |
| T-PE011 | ≤200m/min | 135ºC- 165ºC- 175ºC- 180ºC | 175-190ºC |
| T-PE012 | ≤350m/min | 135ºC- 165ºC- 175ºC- 180ºC | 175-190ºC |
| T-PE013/T-PE014 | ≤120m/min | 135ºC- 165ºC- 175ºC- 180ºC | 175-190ºC |
| Insulation nominal thickness (mm) | Boiling/steaming temperature (ºC) | Crosslinking time (h) |
| 0.7 | 90-95ºC | 1.0~2.0 |
| 0.9 | 90-95ºC | 1.5~2.5 |
| 1.0 | 90-95ºC | 2.0~3.0 |
| 1.2 | 90-95ºC | 3.0~4.0 |
| 1.4 | 90-95ºC | 3.5~5.0 |
| 1.8 | 90-95ºC | 5.0~6.0 |
| Insulation nominal thickness (mm) | Crosslinking conditions | Crosslinking time (days) |
| 1.0 | 25ºC , 70% relative humidity | 3~5 |
| 1.4 | 25ºC , 70% relative humidity | 7~10 |
| 1.8 | 25ºC , 70% relative humidity | 10~14 |
| 2.0 | 25ºC , 70% relative humidity | 14~21 |
| Item | Unit | Technology Requirements | ||
|
T-PE010,T-PE011,T-PE012
|
T-PE013,T-PE014 | |||
| Tensile strength | MPa | ≥ 13.5 | ≥ 13.0 | |
| Elongation at break | % | ≥350 | ≥300 | |
| Low temperature brittleness temperature | ºC Failures No. |
-76 ≤15/30 |
-76 ≤15/30 |
|
| Volume resistivity at 20 ºC | Ω ·m | ≥ 1.0×1014 | ≥ 5.0×1013 | |
| Dielectric strength | MV/m | ≥25.0 | ≥25.0 | |
| Gel content | % | ≥60.0 |
-- |
|
Hot air aging 135±2ºC×168h |
Change rate of tensile strength | % | ≤±20 | ≤±20 |
| Change rate of elongation at break | % | ≤±20 |
≤±20 | |
Thermal extension test 200±3ºC×0.2MPa×15min |
Elongation under load | % | ≤100 | ≤175 |
| Permanent deformation after cooling | % | ≤5 |
≤15 | |
| Artificial climate aging resistance test, after 42 days of aging | Change rate of tensile strength | % | -- |
≤±30 |
| Change rate of elongation at break | % | -- | ≤±30 | |
| Artificial climate aging resistance test, comparison between aging for 42 days and 21 days | Change rate of tensile strength | % | -- |
≤±15 |
| Change rate of elongation at break | % | -- | ≤±15 | |
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