Low Smoke ZERO Flame Retardant Polyolefin Sheath Compound
Low Smoke ZERO Halogen LSZH Compound
Thermoplastic anti-cracking lszh flame retardant polyolefin plastic cable sheathing compound:
- Excellent low-smoke halogen-free flame retardant properties, and extrusion processing properties.
- Occasions requirements: high flame retardant requirements and low secondary hazards.
- Suitable for optical cable and wire core working temperature 90 ℃
Model: SHD01-H-02
1.Low Smoke ZERO Halogen LSZH Compound
Low Smoke ZERO Halogen Compound is based on polyolefin and contains special halogen-free flame retardants and smoke suppressants, which are processed by precise mixing with unique formulas.
2.Features:
- This flame retardant system has excellent zero halogen flame retardancy.
- When the plastic cable sheathing structure is designed reasonably, it can pass the A/B/C type combustion test and meet the light transmittance requirements.
- When burning, no halogen acid gas is released, the amount of toxic and corrosive gas is tiny, and the smoke concentration is shallow.
- This zero halogen flame retardant compound has excellent resistance to environmental stress cracking and good extrusion processability.
- We can also provide anti-termite, anti-rodent, and UV-resistant properties according to customer requirements.
3. Implementing standards: GB/T32129-2015, YD/T1113, IEC60092-359-1999
4. Uses
The SHD01-H-02 series of Low Smoke ZERO Halogen Compound not only have excellent low-smoke halogen-free flame retardant properties, but also have excellent extrusion processing properties. It can be extruded on an ordinary PVC extruder. As long as the cooling device is normal, the extrusion processing speed can be accelerated. The performance of the cable compound is better than similar products. The cable compound is suitable for occasions with high flame retardant requirements and low secondary hazards, such as: subways, ships, power stations, high -rise buildings, program-controlled switch rooms, computer rooms and various crowded public places. Suitable for optical cable and wire core working temperature 90 ℃ low smoke halogen free flame retardant cable sheath. The cable compound is guaranteed to pass various beam burning tests and light transmittance tests.
5. Extrusion process
The drying temperature is 65°C and the drying time is at least 2 hours. It is advisable for the hot material to enter the extruder. It can be extruded by L/D18-25 extruder. When the screw compression is relatively low, the output is larger. Each zone of the extruder must have a cooling control system, and the melt temperature should not exceed 180 °C. Since the difference between the actual temperature of the melt and the indicated value of the temperature control table varies with the type of extruder, each user should select a suitable temperature according to the specific conditions of the extruder used. The following temperatures can be used as a reference for commissioning:
barrel position |
zone 1 |
zone 2 |
zone 3 |
zone 4 |
nose and mode |
Temperature(℃) |
125±5 |
135±5 |
145±5 |
155±5 |
160±5 |
Note: If the aluminum-plastic composite inner bag’damp proof fails, it should be dried before use. The drying temperature should be 65℃ and the drying time should be at least 2 hours. It is better for hot material to enter and leave the extruder.The machine head can be without a filter screen, or a filter screen below 60 mesh can be used; the mold can be extruded or tube type.
6. Packaging, transportation and storage
Packing: N.W: 25kg/1000kg bags with inner bag of aluminum-plastic composite vacuum moisture-proof bag and outer packing being made of kraft paper composite bag or woven bag.
Transportation and storage: It should not be exposed to the sun and rain during transport. It should be stored in a clean, cool, dry and ventilated warehouse. It should be handled with care.
7. Shelf life : 6 months
8. Physical and mechanical properties
Project name |
Units |
SHD01-H-02 |
|
Normal value |
Typical Value |
||
Density |
g/cm³ |
—— |
1.45 |
Hardness (Shore D1S) |
|
—— |
58 |
Tensile strength |
MPa |
≥10.0 |
12.5 |
Elongation at break |
% |
≥160 |
215 |
Heat aging in air oven (100℃×168h) |
|
|
|
Aging Tensile Strength |
MPa |
≥10.0 |
11.3 |
Rate of change in tensile strength |
% |
Max ±30 |
+15 |
Elongation at break after aging |
% |
≥120 |
175 |
Change rate of elongation at break |
% |
Max ±30 |
-9.5 |
Environmental stress cracking resistance |
h |
≥96 |
pass |
Heat stress cracking |
h |
≥96 |
pass |
Low temperature impact embrittlement temperature |
℃ |
-25℃ |
pass |
Volume resistivity at 20℃ |
Ω.m |
≥1.0×1010 |
3.1×1011 |
Dielectric Strength |
MV/m |
≥18 |
37 |
Oxygen Index |
|
≥30 |
38.5 |
Smoke density is flaming |
|
≤100 |
84 |
Flameless |
|
≤350 |
340 |
Halogen acid gas release amount |
mg/g |
≤5 |
0 |
PH value |
|
≥4.3 |
6.0 |
Conductivity |
µS/mm |
≤10 |
0.3 |
Toxicity index |
|
≤5 |
0.5 |
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