CA1085115A - Mold release film - Google Patents
Mold release filmInfo
- Publication number
- CA1085115A CA1085115A CA277,978A CA277978A CA1085115A CA 1085115 A CA1085115 A CA 1085115A CA 277978 A CA277978 A CA 277978A CA 1085115 A CA1085115 A CA 1085115A
- Authority
- CA
- Canada
- Prior art keywords
- matrices
- thermosetting
- propylene
- stereotype
- matrix
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Injection Moulding Of Plastics Or The Like (AREA)
- Macromonomer-Based Addition Polymer (AREA)
Abstract
Mold Release Film Abstract of the Disclosure It has been discovered that thermosetting stereotype matrices can be prepared from plastic pattern plates using a thin cast film of propylene polymer as a release agent. The propylene polymer release films are readily available, inexpensive, assure complete coverage, yield readily: to afford matrices which replicate the surface of the pattern plates with excellent fidelity and prevent adhesion.
Description
I`his invention rclates to a process for molding stereotype matrices. ~lore particularly this invention relates to a process for molding thermosetting stereotype matrices from plastic pattern plates using a cast film of propylene polymer as a release agent.
Recent developments in thc art of preparing plastic printing plates have allowed the use of plastic master plates for molding stereotype matrices which in turn are used to prepare copies of the plastic master. One major drawback in this process has been the problem of adhesion of the plastic master to the matrix. Various mold release agents described in the prior art were tried in an attempt to prevent this problem. For example, various ;
polyolefin dispersions, such as disclosed in United States patents 3,~23,503 and 3,424,607, were tried. While these dispersions do tend to prevent adhesion, they are difficult to prepare and often result in spotty or in~
complete coverage. Attempts were also made to use polyethylene terephthalate release films as described in United States patent 3,887,579. However, the type of film described in this patent would not deform sufficiently during the matrix molding cycle and led to imperfectly formed elements in the matrix.
Now it has been discovered that thin cast films of propylene polymer can be used as release films during the preparation of stereotype matrices from plastic masters. The cast films of propylene are commercially ; "
available, inexpensive, assure complete coverage, yield readily (even at low temperatures) to afford matrices which replicate the relief surface of the plastic masters with excellent fidelity and prevent adhesion.
According to one aspect of the invention there is provided in the process for molding thermosetting stereotype matrices from plastic pattern plates the improvement of using as release films thin cast films of propylene polymer c~ntaining at least 85% of ~mits derived from propylene to afford matrices which replicate the relief surface of the plastic pattern plate with excellent fidelity.
. .
~ - 2 -X ~ , :. .
~s~
According to cu~other aspect of tlle invention there is provided in tlle process for molding polypropylene printing plates using thermosetting stereotype matrices, the improvement of using a thermosetting stereotype matrix prepared with the aid of a thin cast release film of propylene polymer containing at least 85% of units derived from propylene so as to afford matrices which replicate the relief surface of the plastic master with excellent fidelity. -Any thin cast film of propylene homopolymer or copolymer containing at least 85% of units derived from propylene can be used in the process of this invention. Propylene homopolymers and copolymers of propylene with ethylene are most preferred. In general the cast film will be from about 0.25 to about 2 mils in thickness.
In i~s broadest terms, the process of this invention is operable when Inolding any thermosetting stereotype matrix from any - 2a -, .
'!
i~;31~35~:~5 of the well-known photopolymer plates. Typical of the materials which can be used to mold thermosetting stereotype matrices in ac-cordance with the process of this invention are the phenolics, the epoxy resins and the unsaturated polyesters. Typical of tha photo-polymer plates operable in accordance with the process of this in-vention are those based on prepolymers of unsaturated polyesters ~such as those disclosed in U.S. patent 3,79~,494), polyurethanes, prepolymers of terminally unsaturated polybutadienes, crosslinked polyamides (such as those disclosed in U.S. patent 3,625,696), un-10 saturated polymers crosslinked by dithio compounds (such as thosedisclosed in U.S. patents 3,640,923 and 3,662,022), an~ polyvinyl alcohol crosslinked with dimethacrylate compounds. Both shallow ~10~20 mils) and deep etch reliefs (up to 100 mils) can be faith~
fully reproduced in accordance with the process of this invention.
The instant invention is particularly useful when the matrix is to be used for injection or compression molding of polypropylene letterpress plates. Thus~ if any of the cast propylene polymer re-lease film sticks to the matrix surface it melts and becomes an integral part of the polypropylene letterpress plate produced us-20 ing the matrix. Further, any of the film remaining attached to the matrix does not result in a defect even in the initial molded polypropylene plate, The molding procedures and temperatures required in preparing the various matrices and then their use in preparing letterpress plates are well known to those skilled in the art and need not be described herein.
The following examples are presented for purposes of illus-tration, parts and percentages being by weight unless otherwise specified.
~xample 1 A crosslinked polyester photorelief plate (40 mils thick) was placed face up on the sliding tray of a Williamson Platemaster Hydraulic Molding Press, heated to 310F., and equipped with 75~
r,il thickness control bearers. All but a small area of the plate ~ 3 .
l~BS~
was covered with a sheet of cas~ polypropylelle film (1.0 mil thick).
~n uncured phenolic matrix board (501cl b~ Rogers ~orp., 75 mils thick) was placed over the plate, with the matrix coating down, and the board was covered with a thin sheet of glass cloth The assembly was subjected to liyht con-tac-t pressure and preheated for a period of 30 seconds. The press was then closed to the bearers over an interval of 40 seconds, achieving a pressure of 135 tons over the 24-in. ram. The matrix wasm~lded under these conditions (temperature of 305~315F.) for a period of 60 seconds, 10 then pressure was relieved. After removing the sandwich Erom the press~ the matrix board separated cleanly from the plate wi-th the exception of the area not covered with the polypropyl.ene film. In this area, matrix and plate stuck together tenaciously. The molded matrix board was returned to the press, and post-cured at the same temperature bu-t without contact pressure or 60 seconds.
Inspection of the matrix hoard showed good fidelity of re~
production of the image in the plate, except in the area not covered by the polypropylene release ilm. The matrix board was used to prepare a polypropylene le-tterpress printing plate by com-20 pression molding a 50-mil sheet of polypropylene against it at a temperature of 430F. and a pressure of 300 psi. The plate was an ~.
accurate reproduction of the matrix pattern.
Example 2 A phenolic matrix board was molded according to the proce-dure described in Example 1, with the exception that the molding press was at a temperature of 340F. ~hen the press platens were opened, the ma-trix and plate separated,but the polypropylene had melted onto the surface of the matrix.
The post-cured matrix board was placed in the cavity of an 30 injection molding machine, the cavity was closed, and polypropyl-ene was injected into the mold cavity at 420F. After cooling, the cavity was opened, and a pol~propylene plate with good image fidelity was ejected. The surace of the matrix was free o any r olypropylene residues~ ;
.
Recent developments in thc art of preparing plastic printing plates have allowed the use of plastic master plates for molding stereotype matrices which in turn are used to prepare copies of the plastic master. One major drawback in this process has been the problem of adhesion of the plastic master to the matrix. Various mold release agents described in the prior art were tried in an attempt to prevent this problem. For example, various ;
polyolefin dispersions, such as disclosed in United States patents 3,~23,503 and 3,424,607, were tried. While these dispersions do tend to prevent adhesion, they are difficult to prepare and often result in spotty or in~
complete coverage. Attempts were also made to use polyethylene terephthalate release films as described in United States patent 3,887,579. However, the type of film described in this patent would not deform sufficiently during the matrix molding cycle and led to imperfectly formed elements in the matrix.
Now it has been discovered that thin cast films of propylene polymer can be used as release films during the preparation of stereotype matrices from plastic masters. The cast films of propylene are commercially ; "
available, inexpensive, assure complete coverage, yield readily (even at low temperatures) to afford matrices which replicate the relief surface of the plastic masters with excellent fidelity and prevent adhesion.
According to one aspect of the invention there is provided in the process for molding thermosetting stereotype matrices from plastic pattern plates the improvement of using as release films thin cast films of propylene polymer c~ntaining at least 85% of ~mits derived from propylene to afford matrices which replicate the relief surface of the plastic pattern plate with excellent fidelity.
. .
~ - 2 -X ~ , :. .
~s~
According to cu~other aspect of tlle invention there is provided in tlle process for molding polypropylene printing plates using thermosetting stereotype matrices, the improvement of using a thermosetting stereotype matrix prepared with the aid of a thin cast release film of propylene polymer containing at least 85% of units derived from propylene so as to afford matrices which replicate the relief surface of the plastic master with excellent fidelity. -Any thin cast film of propylene homopolymer or copolymer containing at least 85% of units derived from propylene can be used in the process of this invention. Propylene homopolymers and copolymers of propylene with ethylene are most preferred. In general the cast film will be from about 0.25 to about 2 mils in thickness.
In i~s broadest terms, the process of this invention is operable when Inolding any thermosetting stereotype matrix from any - 2a -, .
'!
i~;31~35~:~5 of the well-known photopolymer plates. Typical of the materials which can be used to mold thermosetting stereotype matrices in ac-cordance with the process of this invention are the phenolics, the epoxy resins and the unsaturated polyesters. Typical of tha photo-polymer plates operable in accordance with the process of this in-vention are those based on prepolymers of unsaturated polyesters ~such as those disclosed in U.S. patent 3,79~,494), polyurethanes, prepolymers of terminally unsaturated polybutadienes, crosslinked polyamides (such as those disclosed in U.S. patent 3,625,696), un-10 saturated polymers crosslinked by dithio compounds (such as thosedisclosed in U.S. patents 3,640,923 and 3,662,022), an~ polyvinyl alcohol crosslinked with dimethacrylate compounds. Both shallow ~10~20 mils) and deep etch reliefs (up to 100 mils) can be faith~
fully reproduced in accordance with the process of this invention.
The instant invention is particularly useful when the matrix is to be used for injection or compression molding of polypropylene letterpress plates. Thus~ if any of the cast propylene polymer re-lease film sticks to the matrix surface it melts and becomes an integral part of the polypropylene letterpress plate produced us-20 ing the matrix. Further, any of the film remaining attached to the matrix does not result in a defect even in the initial molded polypropylene plate, The molding procedures and temperatures required in preparing the various matrices and then their use in preparing letterpress plates are well known to those skilled in the art and need not be described herein.
The following examples are presented for purposes of illus-tration, parts and percentages being by weight unless otherwise specified.
~xample 1 A crosslinked polyester photorelief plate (40 mils thick) was placed face up on the sliding tray of a Williamson Platemaster Hydraulic Molding Press, heated to 310F., and equipped with 75~
r,il thickness control bearers. All but a small area of the plate ~ 3 .
l~BS~
was covered with a sheet of cas~ polypropylelle film (1.0 mil thick).
~n uncured phenolic matrix board (501cl b~ Rogers ~orp., 75 mils thick) was placed over the plate, with the matrix coating down, and the board was covered with a thin sheet of glass cloth The assembly was subjected to liyht con-tac-t pressure and preheated for a period of 30 seconds. The press was then closed to the bearers over an interval of 40 seconds, achieving a pressure of 135 tons over the 24-in. ram. The matrix wasm~lded under these conditions (temperature of 305~315F.) for a period of 60 seconds, 10 then pressure was relieved. After removing the sandwich Erom the press~ the matrix board separated cleanly from the plate wi-th the exception of the area not covered with the polypropyl.ene film. In this area, matrix and plate stuck together tenaciously. The molded matrix board was returned to the press, and post-cured at the same temperature bu-t without contact pressure or 60 seconds.
Inspection of the matrix hoard showed good fidelity of re~
production of the image in the plate, except in the area not covered by the polypropylene release ilm. The matrix board was used to prepare a polypropylene le-tterpress printing plate by com-20 pression molding a 50-mil sheet of polypropylene against it at a temperature of 430F. and a pressure of 300 psi. The plate was an ~.
accurate reproduction of the matrix pattern.
Example 2 A phenolic matrix board was molded according to the proce-dure described in Example 1, with the exception that the molding press was at a temperature of 340F. ~hen the press platens were opened, the ma-trix and plate separated,but the polypropylene had melted onto the surface of the matrix.
The post-cured matrix board was placed in the cavity of an 30 injection molding machine, the cavity was closed, and polypropyl-ene was injected into the mold cavity at 420F. After cooling, the cavity was opened, and a pol~propylene plate with good image fidelity was ejected. The surace of the matrix was free o any r olypropylene residues~ ;
.
Claims (2)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. In the process for molding thermosetting stereotype matrices from plastic pattern plates the improvement of using as release films thin cast films of propylene polymer containing at least 85% of units derived from propylene to afford matrices which replicate the relief surface of the plastic pattern plate with excellent fidelity.
2. In the process for molding polypropylene printing plates using thermosetting stereotype matrices, the improvement of using a thermosetting stereotype matrix prepared with the aid of a thin cast release film of propylene polymer containing at least 85% of units derived from propylene so as to afford matrices which replicate the relief surface of the plastic master with excellent fidelity.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US69981376A | 1976-06-25 | 1976-06-25 | |
| US699,813 | 1976-06-25 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1085115A true CA1085115A (en) | 1980-09-09 |
Family
ID=24811016
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA277,978A Expired CA1085115A (en) | 1976-06-25 | 1977-05-09 | Mold release film |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1085115A (en) |
-
1977
- 1977-05-09 CA CA277,978A patent/CA1085115A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |