______________________________________                                    Size, microns:     Percent by weight                                      ______________________________________                                    60 and over         4                                                     50-60              17                                                     40-50              29                                                     30-40              38                                                     25-30              12                                                     Under 25            0                                                     ______________________________________

As may be seen from the data, 67% of this material falls in the size range of 30 to 50 microns and 96% in the size range of 25-60 microns, and is a fairly closely sized material.

After deposition of the top layer over the base layer by means of a secondary headbox on the paper machine, the wet, double layer web is pressed, dried and may be calendered, all as known in the art, followed by application of a decorative printed pattern to the surface of the top layer to yield the multiple-layer decor paper of this invention, as shown in the diagrammatic vertical section of FIG. 1.

(2) Abrasion resistant laminate

The decorated, abrasion resistant plastic laminate of this invention is prepared by treating or impregnating the printed multiple layer decor of FIG. 1 with a suitable resin, drying and assembling the impregnated multiple layer decor as the surface layer, printed side out over a base or core and consolidating the assembly as by use of heat and pressure to cure the resin therein. A typical resulting laminate, such as is shown in diagrammatic vertical section in FIG. 2, although it does not contain an overlay over the print surface, still exhibits excellent abrasion resistance and high quality decorative print quality, making it suitable for numerous applications where severe wear may be expected, such as furniture, table tops and counter tops, flooring and the like. This is a wholly unexpected result, since the print pattern has not been covered with a wear-resisting layer such as an overlay paper of a coating of abrasion resisting material over the print pattern.

It should be evident that the key feature of this invention centers on achieving high abrasion resistance in a finished, decorative laminate by use of a multiple layer structure in a decor surface ply, the abrasion resistance being attributable to abrasion resisting mineral particles comprising the outer surface layer of the decor, with the printed pattern applied over this surface layer. Thus, the core of the laminate may be of any desired type, and such cores as wood, particle board, plaster board, asbestos board and the like are contemplated as being within the scope of the invention, as well as the commonly used plies of unbleached kraft paper impregnated with resins such as phenol-aldehyde resins.

Selection of the resin for impregnation of the multiple layer printed decor will largely be governed by the intended end use of the finished laminate. Aminoplasts such as melaminealdehyde resins, acrylics such as polyacrylonitrile, polyester resins such as diallyl phthalate, phenolic resins, polyurethanes, and epoxy resins may be used.

The various embodiments of the invention will become apparent from the examples which follow. In the examples, the laminates of the invention, which incorporate the printed multiple layer decor of the invention were evaluated for abrasion resistance according to NEMA Method DL1-2.01. Values reported are the number of abrasive cycles required to reach an end point, which is taken as the point where one-half of the decorative print pattern has been abraded away. The wear rate is reported as the weight lost by the test laminate per 100 revolutions of the abrading wheels of the test instrument, the Taber abrasor. It should be noted that accepted industry standards for Class A laminates (suitable for table and counter tops) is a minimum of 400 cycles, with a wear rate not to exceed 0.08 gm. per 100 revolutions.

Printing quality of the multiple layer decors and laminates prepared therefrom was measured by measuring the ink receptivity of the surface of the top layer. Using a proof press and a uniform halftone plate, decor samples were printed under controlled standardized conditions using a constant metered amount of black ink on the plate. Reflectance of the resulting print was measured by a reflectance measuring instrument known as a "Densichron" to give numerical values representative of the blackness of the printed image, the blacker image resulting when the decor surface layer is more receptive to ink. Accordingly, the lower the Densichron reading, the better the printed result.

EXAMPLE 1

Bleached alpha pulp was beaten to a freeness of 500 ml. (Canadian Standard) and formed on a paper machine into a base layer weighing 22 lbs./3000 sq. ft. (dry basis). To the wet base layer on the foaming wire of the paper machine was added, by means of a secondary headbox, 10 lbs./3000 sq. ft. (dry basis) of a mixture of 1 part bleached alpha pulp and 1 part 325 mesh silica (substantially 100% finer than 44 microns). The double layer decor so formed had a total basis weight of 32 lbs./3000 sq. ft. (dry basis), with a silica content of 15.6%, based on total decor, most of the silica being retained in the top layer. After pressing, drying and calendering, the exposed side of the top layer was printed with a wood grain pattern. This printed double layer decor was then impregnated with a melamine resin and assembled, with six plies of corestock, as the top ply (printed side out) of a laminate. After pressing and curing, the laminate showed an abrasion resistance of 350 cycles and a wear rate of 0.015 gm./100 cycles. By comparison, a laminate made from the decor comprising the base layer only, and having the same print pattern, had an abrasion resistance of 100 cycles and a wear rate of 0.059 gm./100 cycles. Thus, the double layer decor of this invention improved abrasion resistance by a factor of 3.5, and wear rate by a factor of almost 4.

EXAMPLES 2 THROUGH 8 INCL.

In the examples which follow, the same base layer was used throughout, as follows: 31 parts of bleached softwood pulp, 25 parts bleached hardwood pulp and 44 parts of titanium dioxide were blended and refined to a freeness of 425 to 450 ml. (Canadian Standard). This furnish included 0.25 part of a dispersing agent for the dioxide and 1.5 parts of a wet strength agent. This composition was delivered to the primary headbox of a paper machine at a rate to form a base layer of 66.3 lbs./3000 sq. ft. (dry basis). A portion of the base layer was pressed and dried without application of any top layer, for use as a control in connection with the examples representing the invention. To a further portion of the base layer, water was added by means of a secondary headbox to check on the amount of base layer washed through the paper machine wire by reason of the application of a top layer, using the same secondary headbox. The base layer prepared in this manner had a basis weight of 60.5 lbs./3000 sq. ft. (dry basis).

A fiber component for use in the top layer, in combination with various kinds of abrasion resisting mineral particles, comprised bleached hardwood pulp refined to a freeness of 425 ml. (Canadian Standard). The fiber component was mixed in various ratios with a variety of abrasion resistant mineral particles, then applied by means of a secondary headbox to the wet primary layer on the wire of the paper machine. The double layer web, in each case, was then pressed, dried and calendered. Following this, the same printed pattern was applied to the exposed side of the top layer of the several different examples.

Each of the double layer printed decors was then impregnated with a 50% solution of the same melamineformaldehyde resin to give a 48-52% resin content and dried to a volatile content of about 6%. Laminates were then prepared by employing the resin impregnated multiple layer decors as surface sheets, printed side out, over six sheets of corestock. Pressing and curing were under the same time, temperature and pressure conditions in each case.

__________________________________________________________________________                   Control                                                                        Example                                                              plus                                                                 Control                                                                        H.sub.2O                                                                      2    3    4    5     6     7     8                __________________________________________________________________________Top layer composition:                                                    Hardwood fibers, percent                                                                          50   50   50   50    50    50    50               40μ Al.sub.2 O.sub.3, percent                                                                  50   50                                           90μ Al.sub.2 O.sub.3, percent  50   50                                 40μ SiC, percent                          50                           35-40μ Norbide 320.sup.3                        50    50               Physical properties:                                                      Basis wt., base layer                                                                   66.3 60.5 60.5 60.4 60.5 60.5  60.5  60.5  60.5             Basis wt., top layer    6.5  8.5  4.6  5.2   4.4   6.3   7.8              Basis wt., total                                                                        66.3 60.5 67.0 69.0 65.1 65.7  64.9  66.8  68.3             Ash, total percent                                                                      38.6 38.2 38.8 38.5 37.4 36.2  37.3  39.7  40.2             Ash, TiO.sub.2, percent                                                                 38.6 38.2 34.6 33.5 35.5 35.2  35.6  34.6  33.9             Mineral particles, percent                                                                        4.2  5.0  1.9  1.0   1.7   5.1   6.3              Abrasion tests on laminates:                                              Cycles to end point                                                                     93        625  783  233  208   1.917 3,200 3,833            Wear rate, gm./100 cycles                                                               0.077     0.0111                                                                         0.0071                                                                         0.0281                                                                         0.0387                                                                          0.0033                                                                          0.0023                                                                          0.0018           Printing evaluation:                                                      Densichron-decor                                                                        30.0      29.0 27.0 28.0 26.0  30.0  38.0  37.0             Densichron-laminate                                                                     13.5      11.0 10.5 11.0 10.5  13.0  24.5  21.5             __________________________________________________________________________ .sup.3 Norbide is a mixture of tungsten carbide and boron carbide having  hardness in excess of 9 on the Moh scale.

EXAMPLES 9 THROUGH 16 INCL.

In this series of examples, the base layer as used in Examples 2 through 8 was used throughout. The top layer utilized the same hardwood fiber component in 1:1 ratios with alumina of different particle sizes to show the relationship between particle size and abrasion resistance of laminates, as well as relative print quality, other factors being held constant. Results are tabulated below.

______________________________________                                           Av.    Alumina  Densi-  Abra- Resistance                                  particle                                                                         in total chron-  sion  wear,                                       size,  decor,   lami-   cycles                                                                          g./100                                      μ   percent  nate    to E.P.                                                                         cycles                               ______________________________________                                    Control            0       18.5  100   0.0710                             Example No.:                                                               9       40       3.3      16.8  767   0.0091                             10       40       4.6      16.3  900   0.0076                             11       40       4.9      15.0  944   0.0070                             12       60-65    3.5      16.5  1,050 0.0062                             13       60-65    4.0      18.0  1,087 0.0056                             14       75       2.7      16.7  210   0.0271                             15       75       3.5      15.5  342   0.0142                             16       90       2.5      15.8  450   0.0152                             ______________________________________

As may be seen, optimum abrasion resistance is obtained in the particle size range of 40 to 65 microns. In all cases, printing quality, as judged by Densichron readings, was equal to or somewhat better than the control.

EXAMPLES 17 THROUGH 20

Using the base layer of Example 2, the top layer was varied by using a mixture of two different sized alumina powders, one being closely sized at 60 to 95 microns and the other being an unsized fraction having particles ranging from 1 to 60 microns, and a weight-average size of 40 microns. These were compared with laminates having closely sized 40 micron alumina in the top layer.

__________________________________________________________________________Example number     17   18   19   20                                      __________________________________________________________________________Top layer composition:                                                    Bleached hardwook pulp, percent                                                              50   50   50   60                                      40μ alumina          50   40                                           60-65μ alumina  33             26.4                                    Unsized alumina    17        13.6                                         Physical properties:                                                      Basis wt, base layer                                                                         58.0 59.0 59.5 57.5                                    Basis wt, top layer                                                                          5.5  5.5  5.5  5.0                                     Basis wt, total    63.5 61.5 65.0 62.5                                    TiO.sub.2, percent 36.2 36.2 36.2 36.4                                    Alumina percent    3.8  3.8  3.0  2.1                                     Abrasion tests:                                                           Cycles to end point                                                                          550  833  664  625                                     Wear rate, gm./100 cycles                                                                    0.0090                                                                         0.0080                                                                         0.0106                                                                         0.0106                                  Ink receptivity: Densichron-laminate                                                         18.0 16.5 16.0 16.8                                    __________________________________________________________________________

From this data, it may be seen that closely sized 40 micron alumina gives somewhat better abrasion resistance than the mixture, although all these examples meet NEMA standards for Class A laminates.

EXAMPLES 21 THROUGH 25 INCL.

In this series of examples, using the base layer of Example 2, the ratio of fibers to 40 micron alumina was varied over wide limits. The following tabulation shows the results obtained.

______________________________________                                    Example number  21      22     23   24   25                               ______________________________________                                    Top layer composition:                                                    Bl. hardwood fibers, per-                                                 cent            80      70     40   20   0                                40μ alumina, percent                                                                   20      30     60   80   100                              Physical properties:                                                      Basis wt., base layer                                                                     58.5    59.0   60.5 61.0 59.5                             Basis wt., top layer                                                                      5.5     4.5    3.5  4.3  2.0                              Basis wt., total                                                                          64.0    63.5   64.0 65.3 61.5                             TiO.sub.2, percent                                                                        36.5    37.1   37.7 37.2 38.6                             Alumina, percent                                                                          2.2     2.4    3.4  4.9  2.2                              Abrasion tests:                                                           Cycles to end point                                                                       442     552    787  1,210                                                                          810                              Wear rate, gm./100 cycles                                                                 0.0131  .0106  .0070                                                                          .0051                                                                          .0066                            Ink receptivity: Densichron-                                              laminate        15.3    16.0   16.3 16.5 17.5                             ______________________________________

These examples show that, as the proportion of fibers decreases in the top layer, abrasion resistance generally increases. While Example 25, containing no fiber in the top layer shows a decrease in abrasion resistance, note that the weight of top layer applied is only 2 lbs. per 3000 sq. ft.

EXAMPLES 26 THROUGH 34 INCL.

In these examples, the base layer composition was the same and consisted of:

______________________________________                                                            Parts                                             ______________________________________                                    Bleached softwood sulfite pulp                                                                      27.7                                            Bleached hardwood sulfite pulp                                                                      27.7                                            Bleached softwood sulfate pulp                                                                      27.7                                            Titanium dioxide          2.0                                             Diatomaceous earth        14.9                                            Zinc oxide                2.9                                             Dyes to produce brown color                                                                         6.49                                            ______________________________________

This composition was processed in conventional paper-making equipment, and refined to a freeness of 425 ml. (Canadian Standard). It was delivered to the primary headbox of a paper machine and formed into a base layer of 60 lbs. per ream of 3000 sq. ft.

The top layer, applied over the base layer by a secondary headbox, consisted of bleached hardwood sulfite and closely sized 40 micron alumina (available from Micro Abrasives Corp. and identified as Microgrit WCA040). The amount of top layer applied as well as the ratio of fibers to alumina were varied as shown in the following tabulation.

The multi-layer decor papers produced in these examples were printed, saturated with a melamine resin and made into laminates according to Example 2. Tests of the papers and laminates are set forth in the following tabulation.

__________________________________________________________________________                 Example number                                                       Control                                                                        26 27 28 29 30 31 32 33 34                               __________________________________________________________________________Top layer composition:                                                    Fibers, percent  50 50 50 50 50 50 50 67 67                               40μ alumina, percent                                                                    50 50 50 50 50 50 50 33 33                               Physical properties:                                                      Basis wt., base layer                                                                 59.6 62.0                                                                         59.6                                                                         61.0                                                                         59.6                                                                         61.0                                                                         59.6                                                                         59.6                                                                         59.6                                                                         6.15                             Basis wt., top layer                                                                       4.9                                                                          7.0                                                                          8.0                                                                          8.2                                                                          9.0                                                                          12.0                                                                         13.9                                                                         8.4                                                                          8.5                              Basis wt., total                                                                      59.6 66.9                                                                         66.6                                                                         69.0                                                                         67.8                                                                         70.0                                                                         71.6                                                                         73.5                                                                         68.0                                                                         70.0                             Total ash, percent                                                                    20.2 22.9                                                                         23.8                                                                         24.9                                                                         24.3                                                                         24.4                                                                         25.5                                                                         26.3                                                                         23.0                                                                         23.2                             Ash, base, percent                                                                    20.2 18.8                                                                         18.1                                                                         17.9                                                                         17.8                                                                         17.6                                                                         16.8                                                                         16.4                                                                         17.8                                                                         17.8                             Alumina, percent                                                                      0    4.1                                                                          5.7                                                                          7.0                                                                          6.5                                                                          6.8                                                                          8.7                                                                          9.9                                                                          5.2                                                                          5.4                              Abrasion tests:                                                           Cycles to E.P.                                                                        130  1,100                                                                        1,100                                                                        1,500                                                                        1,300                                                                        1,575                                                                        1,900                                                                        2,125                                                                        1,140                                                                        1,150                            Wear rate, gm./100 c                                                                  .0650                                                                          .0057                                                                        .0055                                                                        .0041                                                                        .0044                                                                        .0041                                                                        .0040                                                                        .0042                                                                        .0063                                                                        .0051                            Ink receptivity:                                                          Densichron-decor                                                                      41.0 39.0                                                                         36.0                                                                         35.5                                                                         37.0                                                                         36.0                                                                         35.5                                                                         33.5                                                                         36.0                                                                         36.0                             Densichron-laminate                                                                   31.2 32.0                                                                         30.1                                                                         30.0                                                                         32.5                                                                         29.3                                                                         28.0                                                                         26.7                                                                         28.5                                                                         29.4                             __________________________________________________________________________

FIG. 3 has been constructed from the data obtained in these examples, and shows the relationship between abrasion resistance of the laminate and the amount of alumina in the top layer. Denischron data show that, in each case, ink receptivity of the double layer decor paper is improved over the control. Visual examination of the completed laminates confirms this. The improvement in printing quality is probably traceable to the presence of relatively fine hardwood fibers and closely sized mineral particles in the top surface of the double layer decor.

It is also interesting to note that, in each case, the final color of the laminate was indistinguishable from the final color of the laminate prepared from the control (base layer only), even though no coloring dyes or pigments were incorporated in the top layer. This indicates that the top layer has become essentially transparent following resin impregnation, pressing and curing.

EXAMPLE 35

In this example, the base layer of Example 2 was used. To this layer, while on the wire of a paper machine, was added an intermediate layer having a composition of 50 parts bleached hardwood sulfite fibers and 50 parts of 40-micron alumina to which was added a sufficient quantity of sequins cut from aluminum foil to yield approximately 100 sequins in each 10 sq. inches of the intermediate layer. Over the surface of the intermediate layer, while it and the base layer were still carried by the wire of the paper machine, a top layer of 50 parts bleached hardwood sulfite fibers and 50 parts 40-micron alumina was added by means of a third headbox. The resultant 3-layer product was pressed dried, calendered and printed to yield a multiple layer decor. The base layer had a basis weight of 60.5 lbs./3000 sq. ft., the intermediate layer a basis weight of 3.0 lbs./3000 sq. ft. and the top layer a basis weight of 2.8 lbs./3000 sq. ft. for a total of 66.3 lbs./3000 sq. ft.

This three layered decor was incorporated in a laminate according to Example 2. When tested, the laminate showed an abrasion resistance of 1500 cycles and a wear rate of 0.0046 gm./100 cycles.

EXAMPLES 36 THROUGH 38 INCL.

Using the base layer of Example 2, top layers using blends of bleached hardwood sulfite pulp and cotton linters were used, with 40 micron alumina as the abrasion resisting mineral particles. The results are tabulated below:

______________________________________                                                    Example number                                                            Control                                                                          36     37     38                                   ______________________________________                                    Top layer composition:                                                    Bleached hardwood pulp, percent                                                             0        20     35   67                                 Cotton linters, percent                                                                     0        30     15                                      40μ alumina, percent                                                                     0        50     50   33                                 Physical properties:                                                      Basis wt., base layer                                                                       58.5     59.0   59.0 61.0                               Basis wt., top layer       4.0    3.8  2.8                                Basis wt., total  58.5     63.0   62.8 63.8                               TiO.sub.2, percent                                                                          39.9     37.4   37.5 38.1                               Alumina, percent  0        1.7    1.7  1.7                                Abrasion tests:                                                           Cycles to end point                                                                         74       683    663  535                                Wear rate, gm./100 cycles                                                                   .0716    .0075  .0092                                                                          .0102                              Ink receptivity:                                                          Densichron-decor  31.0     31.0   31.2 30.8                               Densichron-laminate                                                                         16.3     16.3   15.3 15.3                               ______________________________________

All the laminates had adequate levels of abrasion resistance and ink receptivity. Additionally, the laminates of Examples 36 and 37, each of which contained cotton linters in the surface layer, showed very acceptable post-formability, being capable of post forming to 1/2-inch radius bends with no perceptible cracking or crazing in the bend region. Both the control and Example 38 could not be post formed to 1/2-inch radius without objectionable cracking and/or crazing.

EXAMPLE 39

In this example, the printed multi-layer decor paper of Example 33 was saturated with 58% of a polyester resin, then pressed at 270° F. for 2 minutes at 200 p.s.i. The finished laminate was tested for its abrasion resistance in comparison with a similar laminate using the single layer printed decor of the control sample for Examples 26-34, with the following results:

______________________________________                                    Abrasion resistance                                                                         Control    Example 39                                   ______________________________________                                    Cycles to end-point                                                                         300        500                                          Wear rate, gm./100 cycles                                                                   0.068      0.0484                                       ______________________________________

EXAMPLES 40 THROUGH 43

The printed multi-layer decors of Examples 28 and 33 were each saturated with a low pressure melamine resin and with a diallyl phthalate resin crosslinked with styrene. The low pressure melamine samples were pressed for 3.25 minutes at 300° F. and 300 p.s.i., while the diallyl phthalate samples were cured for 9 minutes at 240° F. under 50 p.s.i. with the following results:

______________________________________                                    Example number                                                                        40      41      42    43    Control                           ______________________________________                                    Decor from                                                                example number                                                                        28      33      28    33    39                                Resin used.sup.1                                                                      LPM     LPM     DAP   DAP   DAP                               Cycles to end-point                                                                   1.500   1.060   530   490   290                               Wear rate,  0.0058  0.0073  0.0240                                                                          0.0314                                                                          0.0710                            gm./100 cycles                                                            ______________________________________                                     .sup.1 LPM is low pressure melamine.                                      DAP is diallyl phthalate.

While the low pressure melamine is a harder resin than diallyl phthalate, both show marked improvement in abrasion resistance resulting from the decor of this invention.

EXAMPLES 44-45

Sheets of the printed multi-layer decor paper of Examples 28 and 33 were saturated with a self-crosslinking acrylic resin in latex form. The water was evaporated and the resin cross-linked by heating at 130° C. The resultant product was suitable for such applications as wear resistant book covers, or could be adhered to a base or core to provide a thicker, laminated structure.

Abrasion resistance of the cured sheets, prior to any laminating or adhering step was as follows:

______________________________________                                    Example number    44      45      Control                                 ______________________________________                                    Decor from example number                                                                   33      28      39                                      Percent acrylic resin                                                                       32      34      34                                      Cycles to end point                                                                         400     600     140                                     ______________________________________

Again, the marked improvement in abrasion resistance attained with the printed multi-layer decor of this invention is evident.