Radiation imagery chemistry: process – composition – or product th – Imaging affecting physical property of radiation sensitive... – Radiation sensitive composition or product or process of making
Reexamination Certificate
1999-09-03
2003-02-25
Turner, Archene (Department: 1775)
Radiation imagery chemistry: process, composition, or product th
Imaging affecting physical property of radiation sensitive...
Radiation sensitive composition or product or process of making
C430S276100, C430S300000, C430S302000
Reexamination Certificate
active
06524768
ABSTRACT:
This invention is directed to rolled aluminium sheet having a surface that is rough, and to a method of making the sheet. Although other uses are envisaged, the main application of this rough-surface aluminium sheet is expected to be as lithographic plate supports.
Most lithographic printing is from aluminium plates. These are typically 0.15 to 0.51 mm thick, depending on the size and type of press, although thinner sheets laminated to supports are also used. Aluminium sheet for lithographic plates is generally produced by rolling. This results in a metallurgical structure which is elongated in the rolling direction. The surface of the rolled sheet has marks (roll lines) extending longitudinally, which are not desired in the final grained product, and careful preparation of the rolls is necessary to minimise this effect.
To make an aluminium sheet suitable for use as a lithographic plate support, the surface needs to be roughened or grained. Standard techniques for this include: mechanical graining by the use of balls or abrasives or wire brushing; electrochemical graining, by the application of an AC current in an acidic electrolyte; and chemical graining, by simple immersion in an etch. Roughening is carried out in order to enhance the adhesion of an organic coating on the support, and to improve the water retention properties of the uncoated support surface. Application to the support of a photosensitive layer, followed by irradiation and development, generally result in a lithographic plate having ink-receptive image areas which carry an organic coating, and water-retaining non-image areas, the latter generally being the uncovered support surface. For this purpose the aluminium sheet needs to be roughened on a scale of approximately 1 to 15 &mgr;m.
The cost of the graining or roughening step is an important part of the economics of lithographic plate support manufacture. One advantage of the method of the present invention is that it makes possible a reduction in the time and energy used for graining.
In a different field, aluminium foil e.g. for domestic purposes is generally made by pack rolling. By this technique, a pack of two or more ribbons of aluminium is passed between the rolls, and the rolled sheets thereafter separated. The aluminium ribbons need to carry sufficient lubricant to prevent welding of adjacent sheets in the nip of the rolls, but this is often present without the need for deliberate additions. When two ribbons are pack rolled, each of the resulting sheets has a bright surface, which was in contact with the roll; and a matt surface which was in contact with the other sheet. When a pack of more than two aluminium ribbons is pack rolled, all sheets except the two outermost ones have two matt surfaces.
Pack rolling has, as noted, been widely used for many years in the production of aluminium foil for the retail market. We are aware of two published proposals to use pack rolled aluminium sheet as a lithographic plate support. The first is in British patent specification 2,001,559 published in February 1979. The second is in Japanese patent application 57203593 published in December 1982. But in our hands, pack rolled aluminium sheet is not satisfactory as a lithographic plate support, because the organic material which is applied to form a lipophilic image area does not bond well and rapidly flakes off. To the best of applicants' knowledge, pack rolled aluminium sheet has never achieved commercial success as lithographic plate support; and certainly not for long print runs.
This invention is based on an initial discovery that subjecting the matt surface of pack rolled aluminium sheet to a roughening or graining process dramatically improves the properties of the sheet as lithographic plate support. Only a minor roughening or graining treatment is necessary to achieve this effect. The inventors have analysed the topography of their roughened surfaces, and have defined novel criteria for high performance.
In one aspect, this invention provides rolled aluminium sheet having a surface that is uniformly rough by virtue of: a rippled topography comprising ridges and troughs extending transverse to the rolling direction; and a pitted structure.
The surface of the rolled aluminium sheet is uniformly rough because each of the rippled topography and the pitted structure extends over the whole surface, rather than being confined to particular regions. The generally coarser rippled topography and the generally finer pitted structure are superimposed on one another.
In another aspect the invention provides a method of making a sheet having a roughened surface, starting from two or more ribbons of aluminium, by the steps of:
a) Pack rolling the ribbons to provide a pack of two or more sheets and separating the pack into individual sheets each having a matt surface that faced another sheet of the pack during rolling, and
b) Graining the said matt surface of the sheet.
This aluminium sheet is expected to be useful as lithographic plate support. For that use, it is preferred that the roughness of the rippled topography be sufficient to make the surface water-retentive, and the roughness of the pitted structure be sufficient to permit a layer of an organic material to become firmly bonded to the surface.
As noted above, it has long been well known that the lithographic plate grain provides protrusions for anchorage of an organic coating, to provide a lipophilic surface receptive to ink, and recesses which help the surface carry moisture. Applicants currently believe that the nature/extent/scale of the roughness required is different for each of these two different effects. Thus the rather coarse rippled topography that results from pack rolling provides a good moisture-receptive surface, but is not good as the basis for a firmly bonded organic layer. Conventional roughening on a finer scale is necessary to provide a good key for the firm adhesion of an applied organic layer. Lithographic plate supports having rough surfaces which meet both these criteria, may be novel materials in their own right, and can be manufactured in an economical way.
Pack rolling, as typically used in final passes for thin gauge aluminium foil production, provides an outer bright finish and an inner surface that has a matt appearance. When examined microscopically, it can be seen that the matt finish is not uniform but comprises surprisingly deep transverse linear features. The finish has the appearance of a rippled topography comprising peaks and troughs, whose major axis is transverse to the rolling direction. The aspect ratio of these features (i.e. the ratio of their length in a direction transverse to the rolling direction to their width in the rolling direction) may be at least 1.3, and typically in the range 1.5-4, although aspect ratios of 5 and greater are perfectly possible and within the scope of the invention. The average spacing between adjacent peaks (measured in the rolling direction) is typically in the range of 5-200 &mgr;m. The average roughness is typically of the same order as that of conventional commercial lithographic plate supports.
In rolled aluminium sheet, the metallurgical structure and the surface topography on the rolled side are strongly aligned in the rolling direction. The rippled topography on pack rolled sheet has been described by R. Akeret (Aluminium, Vol 68, 1992, 319-321), and by P. F. Thompson (J. Australian Inst. Metals, 15, 1970, 34-46). The scale and nature of the ripples can be modified by the choice of starting material. A fine rippled topography is produced on cold worked sheet and a coarser rippled topography on recrystallised sheet. The dimensions of the rippled topography also appear to depend to some extent on the rolling conditions employed, reduction during the final pass between the rolls, thickness of the rolled sheet, amount of lubricant on the matt surfaces of the sheets, etc. But it has not been found necessary to use unusual pack rolling conditions. The rippled topography that results from pack rolling is generally conducive to water
Amor Martin Philip
Ball Jonathan
Limbach Peter Karl Ferdinand
Alcan International Limited
Cooper & Dunham LLP
Turner Archene
LandOfFree
Aluminium sheet with rough surface does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Aluminium sheet with rough surface, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Aluminium sheet with rough surface will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3178777