RU2271589C1 - Insulating composition - Google Patents

Abstract

FIELD: cable industry.

SUBSTANCE: proposed composition designed for insulating general industrial cable and wire sheaths to reduce fire occurrences due to inflammation of cables and wires has following ingredients, mass percent: polyvinyl chloride suspension, 100; ester plasticizer, 25 - 75; lead stabilizer, 1 - 7; calcium stearate, 0.7 - 3; diphenylolpropane, 0.1 - 0.8; zinc oxide, 0.5 - 8; zinc borate, 0.5 - 5; calcium chloride, 0.1 - 2 or calcium oxide, 0.1 - 2; calcium carbonate, 5 - 90; antimony trioxide, 0.5 - 9; and carbon black, 1 - 8.

EFFECT: reduced inflammability and smoke-forming capacity due to introduction of zinc oxide, zinc borate, and calcium chloride or calcium oxide.

3 cl, 1 tbl

Description

The invention relates to cable technology, namely, electrical insulation compositions based on plasticized polyvinyl chloride (PVC) with reduced flammability and smoke during combustion, designed for insulation, internal and external shells of wires and cables, which require increased fire safety.

Wires and cables often cause a fire and flame to spread. In this regard, their polymer components - insulation, inner and outer shells - traditionally have high demands on incombustibility.

However, in recent decades, the requirements for fire safety characteristics and, especially, for incombustibility and smoke reduction have been constantly increasing.

At present, PVC plastic compounds are used for insulation and sheaths of cable products for general industrial use, which have a certain degree of incombustibility, which ensures the non-proliferation of combustion of separately located wires and cables.

To the subject of the present invention, the closest in technical essence and the achieved effect to the present one is the electrical insulating cable PVC composition, grade I 40-13A, manufactured according to GOST 5960-70.

The specified composition contains, parts by weight: 100 suspension PVC, 45-48 ester plasticizer, 5-6 lead stabilizer, 0.7-1.0 calcium stearate, 0.1-0.3 diphenylolpropane.

The composition is characterized by the following fire safety properties: KI 23-24% according to GOST 21793-76, maximum smoke density during combustion 350-450, according to GOST 24632-81.

The task was to develop a composition characterized by a high degree of incombustibility and reduced smoke emission during combustion.

The technical result is achieved in that the electrical insulating composition containing suspension polyvinyl chloride, ester plasticizer, lead stabilizer, calcium stearate and diphenylol propane, additionally contains zinc oxide, zinc borate, calcium chloride or calcium oxide in the following ratio, wt.h .: suspension polyvinyl chloride 100 , ester plasticizer 25-75, lead stabilizer 1-7, calcium stearate 0.7-3, diphenylolpropane 0.1-0.8, zinc oxide 0.5-8, zinc borate 0.5-5, calcium chloride or oxide calcium I am 0.1-2. The composition may further comprise a carbonate filler in an amount, parts by weight: 5-90, antimony trioxide 0.5-9, carbon black 1-8.

The proposed composition contains the following components.

Suspension PVC resin grade S-70 according to GOST 14332-78 E. As an ester plasticizer: dioctyl phthalate (DOP), diisooctyl phthalate (DIOF), dinonyl phthalate (DNF), diisononyl phthalate (DINP), dialkyl phenyl phosphate GOST 28 or 87 (DIN 87). mixtures. Lead stabilizer: tribasic lead sulfate (TOCS), basic lead carbonate (ACS), dibasic lead phthalate (DOPTS) according to TU 6-09-600-76. Calcium stearate (St. Ca) according to TU 2634-003-48602470-99, diphenylol propane (DFP) according to GOST 12138-86, zinc oxide (ZnO) according to GOST 202-84 (brand BCO), zinc borate according to TU 113-07- 015-91, calcium chloride (CaCl ₂ ) according to GOST 450-77, calcium oxide (CaO) according to GOST 8677-76, carbonate filler - chalk (CaCO ₃ ) according to GOST 8253-79 or according to TU 5743-010-00186803-95 antimony trioxide (Sb ₂ O ₃ ) according to TU 48-14-1-88, soot according to GOST 7885-86.

Other known chemical products in equivalent amounts may also be used.

In addition to the listed agents, the proposed composition may contain other target additives, for example, dye concentrates in an amount of 0.5-3 parts by weight, lubricants in an amount of 0.1-4 parts by weight. and etc.

Example 1. In the mixer, heated to 90 ° C, load all bulk components: 100 wt.h. PVC S-70, 2 parts by weight TOSS, 0.7 parts by weight Art. Ca, 0.1 parts by weight DFP, 0.5 parts by weight ZnO, 0.5 parts by weight zinc borate, 0.1 parts by weight calcium chloride, 5 parts by weight CaCO ₃ , 0.5 parts by weight Sb ₂ O ₃ , 1 parts by weight carbon black, stirred for 3-5 minutes, injected 50 wt.h. DOF and mix for another 25 minutes.

The resulting powdery mixture is cooled to room temperature and rolled at a temperature of 155-165 ° C for 4-10 minutes. Test samples are pressed from the rolled web at a temperature of 160-170 ° C for 3 min under a pressure of 120 kgf / cm ² . The oxygen index is determined according to GOST 12.1.044-89, the maximum smoke density under combustion conditions is determined according to GOST 24632-81.

The composition and properties of the composition are shown in the table.

Examples 2-10 (proposed).

Compositions are prepared and tested as described in example 1.

The use of components outside the claimed quantities or mixtures thereof leads to a deterioration in the characteristics of cable compositions.

Composition and properties of PVC compositions №№
p / p The composition, wt.hs D _max - burning KI,% one 2 3 four one PVC S-70 one hundred 250 27 DOF fifty TOSS 2 Art. Sa 0.7 DFT 0.1 Zno 0.5 Zinc borate 0.5 CaCl ₂ 0.1 CaCO ₃ 5 Sb ₂ O ₃ 0.5 Soot one 2 PVC S-70 one hundred 190 29th DOF 75 TOSS 7 Art. Sa 3 DFT 0.8 Zno 8 Zinc borate 5 CaO 2 CaCO ₃ 90 Sb ₂ O ₃ 5 Soot 8 Table continuation one 2 3 four 3 PVCS-70 one hundred 180 28 DOF fifty TOSS 5 Art. Sa one DFT 0.3 Zno 2,5 Zinc borate 2,5 CaCl ₂ one CaCO ₃ fifty Sb ₂ O ₃ 2,5 four PVC S-70 one hundred 200 28 DOF fifty TOSS 5 Art. Sa one DFT 0.3 Zno 2,5 Zinc borate 2,5 CaCl ₂ one CaCO ₃ fifty 5 PVC S-70 one hundred 250 27 DOF fifty TOSS 5 Art. Sa one DFT 0.3 Zno 2,5 Zinc borate 2,5 CaCl ₂ one Table continuation one 2 3 four 6 PVC S-70 one hundred 200 27 DOF fifty TOSS 6 Art. Sa 2 DFT 0.4 Zno 2 Zinc borate four CaCl ₂ 0.5 CaCO ₃ twenty Soot 3 7 PVC S-70 one hundred 190 28 DOF fifty TOSS 6 Art. Sa 2 DFT 0.4 Zno 2 Zinc borate four CaO 0.1 CaCO ₃ 40 Sb ₂ About ₃ 2 Soot 3 8 PVC S-70 one hundred 180 28 DOF fifty TOSS 6 Art. Sa 2 DFT 0.4 Zno 2 Zinc borate four CaCl ₂ 0.5 CaCO ₃ 60 Sb ₂ About ₃ 2 Soot 3 Table end one 2 3 four 9 PVC S-70 one hundred 230 29th DOF 25 TOSS 6 Art. Sa 2 DFT 0.4 Zno 2 Zinc borate four CaO 0.5 Sb ₂ O ₃ 2 Soot 3 10 PVC S-70 one hundred 250 27 DOF 60 TOSS 6 Art. Sa 2 DFT 0.4 Zno 2 Zinc borate four CaCl ₂ 0.5 CaCO ₃ 80 Sb ₂ O ₃ 2 Soot 3 for comparison (known) eleven 350-450 23-24

Claims (3)

1. An electrical insulating composition containing suspension polyvinyl chloride, an ester plasticizer, a lead stabilizer, calcium stearate and diphenylol propane, characterized in that it additionally contains zinc oxide, zinc borate, calcium chloride or calcium oxide in the following ratio, wt.h .: Suspension Polyvinyl Chloride one hundred Ester plasticizer 25-75 Lead stabilizer 1-7 Calcium stearate 0.7-3 Diphenylolpropane 0.1-0.8 Zinc oxide 0.5-8 Zinc borate 0.5-5 Calcium chloride 0.1-2 Calcium oxide 0.1-2 2. The insulating composition according to claim 1, characterized in that it further comprises a carbonate filler in an amount of 5-90 parts by weight. 3. The insulating composition according to claim 1 or 2, characterized in that it additionally contains antimony trioxide in an amount of 0.5-9 wt.h.