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Adhesion of insulation to conductor
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12 years 11 months ago #739 by Archived Forum Admin
Adhesion of insulation to conductor was created by Archived Forum Admin
We have a particular problem of conductor adhesion. We are extruding PVC insulation on Fibre Glass / Polyester braided conductor. The adhesion of the insulation with this braid is very poor. We are not able to do any pre-heating on the braided conductor. How can the adhesion of the Insulation with the FG/Polyester braid be improved?
Regards
U.K. SINGHAL
Jai Bharat Industries
email : This email address is being protected from spambots. You need JavaScript enabled to view it.
Regards
U.K. SINGHAL
Jai Bharat Industries
email : This email address is being protected from spambots. You need JavaScript enabled to view it.
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12 years 11 months ago #740 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Adhesion of insulation to conductor
To answer your question, we really need to know some of the basics.
First: What is the configuration of the extruder crosshead tip and die?
1) Are you tubing with vacuum pull-down?
2) Are you semi-tubing with vacuum pull-down or with no vacuum?
3) Are you pressure driving the PVC insulation on to the fiberglass/ polyester braided conductor?
Second: Is the PVC a flexible grade or is it semi-rigid?
Third: What is the line speed?
Fourth: Are you cooling the screw with water?
Fifth: Are you running the PVC hot?
Sixth: What is the % coverage of the braid? In other words is there actually room for the molten PVC to get between the sets of fibers in the fiberglass/ polyester braid?
Kindest regards,
Peter Stewart-Hay
Principal
Stewart-Hay Associates
www.Stewart-Hay.com
First: What is the configuration of the extruder crosshead tip and die?
1) Are you tubing with vacuum pull-down?
2) Are you semi-tubing with vacuum pull-down or with no vacuum?
3) Are you pressure driving the PVC insulation on to the fiberglass/ polyester braided conductor?
Second: Is the PVC a flexible grade or is it semi-rigid?
Third: What is the line speed?
Fourth: Are you cooling the screw with water?
Fifth: Are you running the PVC hot?
Sixth: What is the % coverage of the braid? In other words is there actually room for the molten PVC to get between the sets of fibers in the fiberglass/ polyester braid?
Kindest regards,
Peter Stewart-Hay
Principal
Stewart-Hay Associates
www.Stewart-Hay.com
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12 years 11 months ago #741 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Adhesion of insulation to conductor
Dear Sir,
Thanks for your response. I reply as under:
Q.1 - What is the configuration of the extruder crosshead tip and die?.....
Ans) Since this is a insulation on the wire we are pressure driving the PVC insulation on to the fiberglass/ polyester braided conductor.
Diameter of conductor(over braiding) = 0.65mm
Nozzle bore = 0.82mm
Die size = 1.30mm
Diameter over PVC insulation = 1.30 +/- 0.02mm
Q.2 - Is the PVC a flexible grade or is it semi-rigid?
Ans) - It is a Flexible grade of PVC (Hardness = 88)
Q.3 - What is the line speed?
Ans) - Line speed is quite low - 50 MPM (165 FPM)
Q.4 - Are you cooling the screw with water?
Ans): No
Q.5 : Are you running the PVC hot?
Ans) - PVC is being dehumidified at aroud 100 degC and then fed in the hopper at around 50-60 degC.
Q.6 : What is the % coverage of the braid? In other words is there actually room for the molten PVC to get between the sets of fibers in the fiberglass/ polyester braid?
Ans): Actually it is a fibre lapping on the copper conductor (I mentioned braiding to make the language simpler; since braiding process is much more commonly done than lapping). The lapping gives 100% coverage, though the surface of lapping is not 100% smooth. But since the conductor size is 7/0.15mm, we get alomost a round cross-section after the lapping.
Diameter over conductor = 0.45mm
Diameter over the lapping = 0.65mm
Please let me know if any further information is required.
With warm regards,
U K SINGHAL
JAI BHARAT INDUSTRIES
Tel # +91 11 26388373
Fax # +91 11 26691661
email : This email address is being protected from spambots. You need JavaScript enabled to view it.
Thanks for your response. I reply as under:
Q.1 - What is the configuration of the extruder crosshead tip and die?.....
Ans) Since this is a insulation on the wire we are pressure driving the PVC insulation on to the fiberglass/ polyester braided conductor.
Diameter of conductor(over braiding) = 0.65mm
Nozzle bore = 0.82mm
Die size = 1.30mm
Diameter over PVC insulation = 1.30 +/- 0.02mm
Q.2 - Is the PVC a flexible grade or is it semi-rigid?
Ans) - It is a Flexible grade of PVC (Hardness = 88)
Q.3 - What is the line speed?
Ans) - Line speed is quite low - 50 MPM (165 FPM)
Q.4 - Are you cooling the screw with water?
Ans): No
Q.5 : Are you running the PVC hot?
Ans) - PVC is being dehumidified at aroud 100 degC and then fed in the hopper at around 50-60 degC.
Q.6 : What is the % coverage of the braid? In other words is there actually room for the molten PVC to get between the sets of fibers in the fiberglass/ polyester braid?
Ans): Actually it is a fibre lapping on the copper conductor (I mentioned braiding to make the language simpler; since braiding process is much more commonly done than lapping). The lapping gives 100% coverage, though the surface of lapping is not 100% smooth. But since the conductor size is 7/0.15mm, we get alomost a round cross-section after the lapping.
Diameter over conductor = 0.45mm
Diameter over the lapping = 0.65mm
Please let me know if any further information is required.
With warm regards,
U K SINGHAL
JAI BHARAT INDUSTRIES
Tel # +91 11 26388373
Fax # +91 11 26691661
email : This email address is being protected from spambots. You need JavaScript enabled to view it.
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12 years 11 months ago #742 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Adhesion of insulation to conductor
OK If I understand this all, the primary insulation is a set (number) of helically served (lapped) fiberglass-polyester fibers in a single layer directly applied over a seven wire stranded conductor.
I presume this is some sort of multimedia/ camera insulated conductor as the dimensions are:
Conductor
- Conductor strands - 0.15 mm (0.0059 inches)
- Cross Section in circular mils 34.81
- Conductor Diameter - 3 x Strand Diameter or 0.45 mm (0.0177 inches)
- Cross section in circular mils 7 x 34.81 = 243.67
- Solid Conductor Diameter Equivalent is 0.0156 inches or say about 26 AWG
The Overall Strand Diameter is 0.45 mm (0.0177 inches)
Primary Insulation
- A single layer of helically served polyester insulated fiberglass cored fiber with an outside diameter of 0.10 mm (0.0039 inches)
The Overall Served Diameter is 0.65 mm (0.0256 inches)
Secondary Insulation
A single layer of flexible PVC insulation, dried and pressure extruded.
The wall thickness is 0.325 mm (0.0128 inches)
The overall diameter is 1.30 mm (0.0512 inches)
OK, if I have done the above all right then the first problem is the two different thermoplastic materials (polyester and PVC) and the basic lack of adhesion between them. The secondary problem is that if you heat the primary insulation, it will start coming off (building up) in the tip (nozzle) until the conductor breaks. This is especially true if there is a diamond insert in the tip (nozzle).
Likewise, there can be no adhesion promoters applied because of the very small dimensions and tight tolerances in the tip (nozzle).
The first suggestion I have is to ensure that the polyester fibers are really clean and not contaminated with some sort of lubricant like silicone. That would be a disaster from an adhesion perspective.
After that issue is cleared, there are only a few very basic ways of trying to get more adhesion and they have to do with keeping the interface between the two plastics warm for a longer period of time.
The first is to lengthen the air gap between the crosshead and the quench point in the cooling trough and the second is to use hot water cooling or gradient cooling in the cooling trough. The third is to increase the PVC melt temperature and the fourth is to reduce the line speed but I am against reductions in productivity unless absolutely necessary.
I suggest that you do some quick experimentation with the first three of these suggestions because everything else, apart from perhaps cleanliness, seems fine.
Kindest regards,
Peter Stewart-Hay
Principal
Stewart-Hay Associates
www.Stewart-Hay.com
I presume this is some sort of multimedia/ camera insulated conductor as the dimensions are:
Conductor
- Conductor strands - 0.15 mm (0.0059 inches)
- Cross Section in circular mils 34.81
- Conductor Diameter - 3 x Strand Diameter or 0.45 mm (0.0177 inches)
- Cross section in circular mils 7 x 34.81 = 243.67
- Solid Conductor Diameter Equivalent is 0.0156 inches or say about 26 AWG
The Overall Strand Diameter is 0.45 mm (0.0177 inches)
Primary Insulation
- A single layer of helically served polyester insulated fiberglass cored fiber with an outside diameter of 0.10 mm (0.0039 inches)
The Overall Served Diameter is 0.65 mm (0.0256 inches)
Secondary Insulation
A single layer of flexible PVC insulation, dried and pressure extruded.
The wall thickness is 0.325 mm (0.0128 inches)
The overall diameter is 1.30 mm (0.0512 inches)
OK, if I have done the above all right then the first problem is the two different thermoplastic materials (polyester and PVC) and the basic lack of adhesion between them. The secondary problem is that if you heat the primary insulation, it will start coming off (building up) in the tip (nozzle) until the conductor breaks. This is especially true if there is a diamond insert in the tip (nozzle).
Likewise, there can be no adhesion promoters applied because of the very small dimensions and tight tolerances in the tip (nozzle).
The first suggestion I have is to ensure that the polyester fibers are really clean and not contaminated with some sort of lubricant like silicone. That would be a disaster from an adhesion perspective.
After that issue is cleared, there are only a few very basic ways of trying to get more adhesion and they have to do with keeping the interface between the two plastics warm for a longer period of time.
The first is to lengthen the air gap between the crosshead and the quench point in the cooling trough and the second is to use hot water cooling or gradient cooling in the cooling trough. The third is to increase the PVC melt temperature and the fourth is to reduce the line speed but I am against reductions in productivity unless absolutely necessary.
I suggest that you do some quick experimentation with the first three of these suggestions because everything else, apart from perhaps cleanliness, seems fine.
Kindest regards,
Peter Stewart-Hay
Principal
Stewart-Hay Associates
www.Stewart-Hay.com
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