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Felt Dies
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11 years 10 months ago #2130 by Archived Forum Admin
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Has a porous wheel ever been used/considered? The wheel would pick up enamel at one spot and apply the enamel at another. We used to use the concept in the medical industry to apply small amounts of liquid to blood sampling tubes.
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11 years 10 months ago #2131 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Felt Dies
Max, if that was your response, welcome to the discussion.
Richard
Richard
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11 years 10 months ago #2132 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Felt Dies
I work in a magnet wire plant, for smaller gauges we use felt, between 22 AWG and 28AWG we use solid enameling dies. Our experience with dog house dies is bad, sometimes the clips are deformed and this produces a line along the wire. The advantage is the speed for process change but the quality is sometimes compromised.
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11 years 10 months ago #2133 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Felt Dies
Posts: 1013
Joined: Feb 2004
Hi there rroa,
Is it possible that your company will allow you to tell us who your felt supplier is?
Thank you.
Best regards,
Peter J. Stewart-Hay
Principal
Stewart-Hay Associates
www.Stewart-Hay.com
Joined: Feb 2004
Hi there rroa,
Is it possible that your company will allow you to tell us who your felt supplier is?
Thank you.
Best regards,
Peter J. Stewart-Hay
Principal
Stewart-Hay Associates
www.Stewart-Hay.com
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11 years 10 months ago #2134 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Felt Dies
Peter, RROA,
Split dies can be a problem. One of the problems obviously is weeping which is caused when the hydraulic pressure caused by a combination of speed and solids. dog house dies have limited bearing area and virtually no approach angle. This is because a true dog house die is made from a strip of brass that has been shaped into a form that looks like a dog house (typical appearance of one in the USA). A better die was the dome die. It looks a lot like a doghouse die but a bullet shaped dome is attached to the roof of the die. this bullet is split so you can open the die and straddle the wire with it. It has a longer bearing length plus an approach angle so that you can build up some hydraulic pressure.
When the speeds, solids, and hydraulic pressure gets too high even the dome die opens. Another problem with the dome dies is that they can get warped so that the opening is not perfectly round. Again this obviously causes a problem. Some of the dome or steel head dies have guide pins which insures hole alignment. They do not prevent the die from trying to open due to hydraulic pressure. the clips RROA mentioned are a type of snap ring and are designed to fit over the halfs of the dome preventing it from opening.
We used a variety of felts. Some from SICME so they were OEM felts and were the best. We got others from Southeastern felts a company which I just remembered which I think was in SC. We augmented the felts in some cases by covering them with a short nap velveteen material. Another option but much more expensive was to use a teflon impregnated cloth. Velveteen was a lot cheaper and you threw it away whereas the teflon cloth you washed and reused to save money.
Hope some of this helps. I have written some about the wonderful world of the roller dieless aplicator.
richard
Split dies can be a problem. One of the problems obviously is weeping which is caused when the hydraulic pressure caused by a combination of speed and solids. dog house dies have limited bearing area and virtually no approach angle. This is because a true dog house die is made from a strip of brass that has been shaped into a form that looks like a dog house (typical appearance of one in the USA). A better die was the dome die. It looks a lot like a doghouse die but a bullet shaped dome is attached to the roof of the die. this bullet is split so you can open the die and straddle the wire with it. It has a longer bearing length plus an approach angle so that you can build up some hydraulic pressure.
When the speeds, solids, and hydraulic pressure gets too high even the dome die opens. Another problem with the dome dies is that they can get warped so that the opening is not perfectly round. Again this obviously causes a problem. Some of the dome or steel head dies have guide pins which insures hole alignment. They do not prevent the die from trying to open due to hydraulic pressure. the clips RROA mentioned are a type of snap ring and are designed to fit over the halfs of the dome preventing it from opening.
We used a variety of felts. Some from SICME so they were OEM felts and were the best. We got others from Southeastern felts a company which I just remembered which I think was in SC. We augmented the felts in some cases by covering them with a short nap velveteen material. Another option but much more expensive was to use a teflon impregnated cloth. Velveteen was a lot cheaper and you threw it away whereas the teflon cloth you washed and reused to save money.
Hope some of this helps. I have written some about the wonderful world of the roller dieless aplicator.
richard
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11 years 10 months ago #2135 by Archived Forum Admin
Replied by Archived Forum Admin on topic Re: Felt Dies
Tuber, you posted “Has a porous wheel ever been used/considered? The wheel would pick up enamel at one spot and apply the enamel at another. We used to use the concept in the medical industry to apply small amounts of liquid to blood sampling tubes.”
I don’t know if one has been used or not but I would be concerned that if a porous wheel worked that the performance would vary when the solids in the enamel clogged up the porous wheel. I am pretty certain that clogging would occur because with felt applicators, the felts would eventually clog.
In the 70’s Acrometal had a roller dies less applicator which had for each enamel three rolls. The first was the grooved applicator roll which had an enamel bar which supplied enamel to the grooves. Since the size of the grooves was fixed, you varied the amount of enamel in a groove and or the rpms of the roller. On some machines you could also change the rotational direction of the roll with it rotating with the wire for smaller wire and against the wire for larger wires. The oven was cross strung with 10 lines per side of the oven and they made 5 to 7 passes (total 50 – 70 wire) for the base coat enamel. The overcoat applicator was 2 passes. When you needed more passes you dropped lines.
The concept was that the applicator roll applied the enamel and two wiper rolls removed the excess. The wiper rolls generally rotated against the direction of the wire. A meniscus was formed between the wire and wiper roll and pulled enamel off the wire. A soft brass blade was used to wipe the enamel from the roll so that the roll was always clean at the point where the wet wire contacted it.
A roller die less applicator cost a lot more than a die applicator however its operating cost was less. A 20 line oven designed for 8 total passes required 160 dies for a simple set up. Since the wire range on an oven might be 10 – 12 awg sizes, you could easily a minimum of 2,000 dies and at a cost of $2.00 to $6.00 (1970’s) you could easily spend $12,000 to $20,000 just to have enough dies for each oven system’s range of wire sizes. Additionally the dies would wear out and require either resizing or replacement. You could easily after your initial investment, spend several thousand dollars more per year per oven.
Vertical oven applicators had opposed wiper rolls. With the horizontal applicators, the wires were on top.
I don’t know how many companies used these but I know that Hudson Wire was very successful with the roller dieless applicators.
The roller dieless evolved into the felt roller dieless applicator. A set of felt holder took the place of the grooved rollers. The wiper rolls were still there to wipe of excess enamel. This worked good for horizontal systems and pretty good for vertical ovens. Biggest problem was regulating enamel flow/pressure and finding the correct or best wiper roll speeds. The Acrometal V12 and V18 that we had were operated at speeds that were about 40-50% greater than the typical GE oven at that time. When we made our own V21 we got a substantial speed increase. The ovens were sensitive to variations in the enamels; when they ran good they were great and when they ran bad they were horrible. On a good week running 18 awg polyester we could make 150 to 200,000 pounds with 3-5% scrap. On a bad week we would be up and down and lucky to make 50K of good wire. Again the smallest variation in the enamel was critical!
I don’t know if one has been used or not but I would be concerned that if a porous wheel worked that the performance would vary when the solids in the enamel clogged up the porous wheel. I am pretty certain that clogging would occur because with felt applicators, the felts would eventually clog.
In the 70’s Acrometal had a roller dies less applicator which had for each enamel three rolls. The first was the grooved applicator roll which had an enamel bar which supplied enamel to the grooves. Since the size of the grooves was fixed, you varied the amount of enamel in a groove and or the rpms of the roller. On some machines you could also change the rotational direction of the roll with it rotating with the wire for smaller wire and against the wire for larger wires. The oven was cross strung with 10 lines per side of the oven and they made 5 to 7 passes (total 50 – 70 wire) for the base coat enamel. The overcoat applicator was 2 passes. When you needed more passes you dropped lines.
The concept was that the applicator roll applied the enamel and two wiper rolls removed the excess. The wiper rolls generally rotated against the direction of the wire. A meniscus was formed between the wire and wiper roll and pulled enamel off the wire. A soft brass blade was used to wipe the enamel from the roll so that the roll was always clean at the point where the wet wire contacted it.
A roller die less applicator cost a lot more than a die applicator however its operating cost was less. A 20 line oven designed for 8 total passes required 160 dies for a simple set up. Since the wire range on an oven might be 10 – 12 awg sizes, you could easily a minimum of 2,000 dies and at a cost of $2.00 to $6.00 (1970’s) you could easily spend $12,000 to $20,000 just to have enough dies for each oven system’s range of wire sizes. Additionally the dies would wear out and require either resizing or replacement. You could easily after your initial investment, spend several thousand dollars more per year per oven.
Vertical oven applicators had opposed wiper rolls. With the horizontal applicators, the wires were on top.
I don’t know how many companies used these but I know that Hudson Wire was very successful with the roller dieless applicators.
The roller dieless evolved into the felt roller dieless applicator. A set of felt holder took the place of the grooved rollers. The wiper rolls were still there to wipe of excess enamel. This worked good for horizontal systems and pretty good for vertical ovens. Biggest problem was regulating enamel flow/pressure and finding the correct or best wiper roll speeds. The Acrometal V12 and V18 that we had were operated at speeds that were about 40-50% greater than the typical GE oven at that time. When we made our own V21 we got a substantial speed increase. The ovens were sensitive to variations in the enamels; when they ran good they were great and when they ran bad they were horrible. On a good week running 18 awg polyester we could make 150 to 200,000 pounds with 3-5% scrap. On a bad week we would be up and down and lucky to make 50K of good wire. Again the smallest variation in the enamel was critical!
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