Claims
- 1. An internally heated calendering roll capable of finishing paper satisfactorily at the temperatures, heat loads and pressures required for substrata thermal molding which rill comprises:
- A. a metal calendering roll having a circumferential wall at least 4 inches thick, the roll being constructed of a first material of forged steel, cast steel, cast iron, or ductile iron with a thin circumferential surface layer of a second hard abrasive resistant material;
- B. heating means to provide heat into the interior of the circumferential wall of the metal calendering roll to be conducted through the wall to the outer surface for heating the paper web being calendered by the roll, which heating means includes uniformly spaced fluid conducting conduits which are from 0.5 to 2 inches in diameter and are located totally within the first material of the calendering roll with the outer edge of the conduits being no more than 2 inches from the circumferential surface of the roll and are positioned equidistant form the center of the roll in accordance with the following formula: (hole diameter+hole spacing)/2.times.hole depth) is less than 1.2, where hole spacing is the distance form outer edge of one hole to the closest outer edge of the adjacent hole and hole depth is the distance from the outer edge of the hole to the surface of the roll; and
- C. the thermal conductivity of the roll from the conduits to the surface is greater than 17 BTU/HR.FT..degree.F.
- 2. The internally heated calendering roll of claim 1, wherein the fluid conducting conduits in the roll each have a diameter of from 0.75 inch to 1.25 inch and the (cross section area of each conduit.times.the number of conduits)/(circumference of roll.times.face length of roll) is greater than 0.00013.
- 3. The internally heated calendering roll of claim 1, wherein the second material of the thin circumferential surface layer of the roll has a hardness of at least 530 Vickers.
- 4. The internally heated calendering roll of claim 3, wherein the second material of the thin circumferential surface layer of the roll has a thickness of between 0.003 inch and 0.030 inches.
- 5. The internally heated calendering roll of claim 4, wherein the second material of the thin circumferential surface layer of the roll is capable of being polished to a roughness of less than 6 micro inches Ra.
- 6. Apparatus for calendering paper comprising:
- A. the internally heated calender roll of claim 1;
- B. a resilient pressure roll;
- C. mans to press the resilient pressure roll and the metal calendering roll against each other to form a nip with a nip load of at least 1000 pounds per lineal inch of calender width; and
- D. means to continuously pass a web of paper through the nip.
- 7. In a process for finishing paper to produce gloss and smoothness on the surface of the paper comprising the steps of:
- A. providing a finishing apparatus comprising a finishing roll and a pressure roll pressed against said finishing roll at a force of at least 1000 pounds per lineal inch of calender width;
- B. advancing a web of papermaking fibers through the nip; and
- C. simultaneously with step B., heating the finishing roll to an internal temperature of at least 350.degree. F. in the interior of the circumferential wall of the finishing roll to be conducted through the wall to the outer surface for heating the paper web passing through the nip, the improvement wherein the finishing roll is provided by the internally heated calender roll of claim 1.
Parent Case Info
This is a division of application Ser. No. 07/620,249, filed Nov. 30, 1990, now U.S. Pat. No. 5,171,404.
US Referenced Citations (5)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1-150677 |
Jun 1989 |
JPX |
Non-Patent Literature Citations (1)
Entry |
Nakahira "Unusual Application by Jet Kote". |
Divisions (1)
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Number |
Date |
Country |
Parent |
620249 |
Nov 1990 |
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