1. Field of the invention.
[0001] The present invention relates to a recording material suited for use in direct thermal
imaging. More in particular the present invention relates to a recording material
based on a heat induced reaction between a substantially light insensitive organic
silver salt and a reducing agent.
2. Background of the Invention
[0002] In thermography two approaches are known :
1. Direct thermal formation of a visible image pattern by imagewise heating of a recording
material containing matter that by chemical or physical process changes colour or
optical density.
2. Thermal dye transfer printing wherein a visible image pattern is formed by transfer
of a coloured species from an imagewise heated donor element onto a receptor element.
[0003] Thermal dye transfer printing is a recording method wherein a dye-donor element is
used that is provided with a dye layer wherefrom dyed portions of incorporated dye
is transferred onto a contacting receiver element by the application of heat in a
pattern normally controlled by electronic information signals.
[0004] The optical density of transparencies produced by the thermal transfer procedure
is rather low and in most of the commercial systems - in spite of the use of donor
elements specially designed for printing transparencies - only reaches 1 to 1.2 (as
measured by a Macbeth Quantalog™ Densitometer Type TD 102). However, for many application
fields a considerably higher transmission density is asked for. For instance in the
medical diagnostical field a maximal transmission density of at least 2.5 is desired.
[0005] US 3.107.174 and US 3.031.329 disclose a material comprising on a support a heat-sensitive
layer containing a substantially light-insensitive organic silver salt and a reducing
agent. This heat-sensitive layer is coated with a protective layer containing silica
powder.
[0006] High optical densities can be obtained using a recording material comprising on a
support a heat sensitive layer comprising a substantially light insensitive organic
silver salt and a reducing agent. Such material can be image-wise heated using a thermal
head causing a reaction between the reducing agent and the substantially light insensitive
organic silver salt leading to the formation of metallic silver. To obtain a good
thermosensitivity heating is carried by contacting the thermal head with the heat
sensitive layer. The density level may be controlled by varying the amount of heat
applied to the recording material. This is generally accomplished by controlling the
number of heat pulses generated by the thermal head. An image having a grey scale
is thus obtained.
[0007] Because of its high density the image is in principle suitable for use as a medical
diagnostic image. However the following problems have been encountered. Uneveness
of density occurs with the number of images that have been printed and damaging of
the heat sensitive layer occurs. These problems can be overcome by making use of a
protective layer. Although this brings a substantial improvement, so that the image
may be suitable for some applications, the images show scratches that are prohibitive
for the use of the image in medical diagnostics.
3. Summary of the invention.
[0008] It is an object of the present invention to improve the quality of images obtained
by direct thermal imaging of a recording material comprising on a support (i) a heat
sensitive layer comprising a substantially light insensitive organic silver salt and
(ii) a reducing agent being present in the heat sensitive layer or another layer on
the same side of the support carrying the heat sensitive layer.
[0009] Further objects of the present invention will become clear from the description hereinafter.
[0010] According to the present invention there is provided a recording material comprising
on a support (i) a heat sensitive layer comprising a substantially light insensitive
organic silver salt, (ii) a protective layer containing a matting agent dispersed
in a binder and (iii) a reducing agent being present in the heat sensitive layer and/or
another layer on the same side of the support carrying the heat sensitive layer.
[0011] According to the present invention there is provided a method for making an image
comprising image-wise heating by means of a thermal head a recording material as defined
above said thermal head contacting the protective layer of said recording material.
4. Detailed description
[0012] Thanks to the use of a matting agent in the protective layer the occurrences of scratches
can be reduced and in some cases scratches are completely avoided. Suitable matting
agents for use in connection with the present invention are particles that protrude
from the protective layer and they can be organic or inorganic. They should be sufficiently
large to avoid the scratches but are on the other hand limited in their size because
of pinholes that may occur at places where a matting agent is present due to a reduced
thermoconductivity at these places. Preferably the matting agent will have an average
diameter between 0.7 and 1.5 times the thickness of the protective layer. It is also
preferred that the matting agents for use in connection with the present invention
are capable of withstanding the temperatures involved in the heating process according
to the present invention. Generally they should be able to withstand a temperature
of up to 400°C without showing substantial deformations. The matting agent is preferably
spherical in shape and is preferably used in an amount of 0.1 to 50% by weight more
preferably in an amount of 0.25 to 30% by weight of the binder.
[0013] Examples of matting agents that can be used are silicone resin particles, silicates,
alumina, polymethylmethacrylate particles, polyacrylate particles etc...
[0014] Preferred silicate particles having a mildly abrasive character are, e.g., clay,
China clay, talc (magnesium silicate), mica, silica, calcium silicate, aluminium silicate,
and aluminium magnesium silicate. These particles are incorporated in the protective
layer in such a way, by selecting the appropriate size with respect to the thickness
of the protective layer and amount as described above, that at least part of them
protrudes.
[0015] Examples of talc particles that can be used advantageously in accordance with the
present invention are e.g. :
Talc 1 : Micro Ace™ Type P3 having a volume average particle size of 4.5 µm and 1.29
% by volume thereof having a size higher than 10 µm (commercially available from Nippon
Talc, Interorgana Chemiehandel)
Talc 2 : Mistron™ Ultramix having a volume average particle size of 3.88 µm and 1.72
% by volume thereof having a size higher than 10 µm (commercially available from Cyprus
Minerals)
Talc 3 : Micro-talc™ I.T. Extra having a volume average particle size of 4.33 µm and
2.43 % by volume thereof having a size higher than 10 µm (commercially available from
Norwegian Talc Minerals)
Talc 4 : Cyprubond™ (surface-treated to improve adhesion to the binder) having a volume
particle size of 5.28 µm and 9.22 % by volume thereof having a size higher than 10
µm (commercially available from Cyprus Minerals).
Talc 5 : MP10-52™ having a volume particle size of 3.15 µm and 1.26 % by volume thereof
having a size higher than 10 µm (commercially available from Pfizer Minerals)
Talc 6 : MP12-50™ having a volume particle size of 2.60 µm and 0.97 % by volume thereof
having a size higher than 10 µm (commercially available from Pfizer Minerals)
Talc 7 : Micro-talc™ A.T. Extra having a volume average particle size of 4.32 µm and
3.76 % by volume thereof having a size higher than 10 µm (commercially available from
Norwegian Talc Minerals)
Talc 8 : Stellar™ 600 having a volume average particle size of 5.16 µm and 6.77 %
by volume thereof having a size higher than 10 µm (commercially available from Norwegian
Cyprus Minerals)
Examples of other silicate particles that can be used in accordance with the present
invention are, e.g. :
Silicate 1 : Syloid™ 378, which are silica particles having an average particle size
of 4 µm and 0.06 % by volume thereof having a size higher than 10 µm (commercially
available from Grace)
Silicate 2 : Iriodin™ 111, which are mica particles having an average particle size
of 4.42 µm and 1.45 % by volume thereof having a size higher than 10 µm (commercially
available from Merck)
Silicate 3 : Chlorite, which is a magnesium-aluminium silicate having an average particle
size of 5.57 µm and 16.58 % by volume thereof having a size higher than 10 µm (commercially
available from Cyprus Minerals)
The binder for use in the protective layer in connection with the present invention
is preferably polymeric and can be selected from amongst hydrophobic and hydrophilic
binders. The latter are preferred in connection with the present invention since it
has been found that less dirt forms on the thermal head during printing. The protective
layer may also be hardened. Hardening may be carried out by means of UV or electron
beam curing or the hardening may be effected using a chemical reaction between a hardening
agent and the binder. Suitable hardening agents that can be used to harden a binder
having active hydrogens are e.g. polyisocyanates, aldehydes and hydrolysed tetraalkyl
orthosilicates.
[0016] Examples of binders that can be used in connection with the present invention are
e.g. copolymers of styrene and acrylonitrile, copolymers of styrene, acrylonitrile
and butadiene, nitrocellulose, copolymers of vinylacetate and vinylchloride which
may be partially hydrolysed, polyesters and polycarbonates
Suitable hydrophilic binders for use in connection with the present invention include
polyvinyl alcohol, polyvinyl acetate preferably hydrolysed in amount of 20% by weight
or more, polyvinylpyrrolidone, gelatine etc.. The hydrophilic binder for use in the
protective layer preferably has a weight average molecular weight of at least 20000
g/mol more preferably at least 30000 g/mol. According to a most preferred embodiment
in connection with the present invention there is used a protective layer that contains
a hydrolysed polyvinyl acetate hardened with a tetraalkyl orthosilicate.
[0017] In accordance with the present invention it is also preferred to add a lubricant
to the protective layer or apply a lubricant on top of the protective layer. By using
a lubricant transportation problems of the recording material under the thermal head
can be avoided as well as image deformations. The lubricant is preferably used in
an amount of 0.1% by weight to 10 % by weight of the binder in the protective layer.
Suitable lubricants for use in connection with the present invention are, e.g., silicone
oils, polysiloxane-polyether copolymers, synthetic oils, saturated hydrocarbons, glycols,
fatty acids and salts or esters thereof such as, e.g., stearic acid, the zinc salt
of stearic acid, methyl ester of stearic acid etc...
[0018] According to a particular embodiment in connection with the present invention the
lubricant may be hardened together with the binder of the protective layer. For example
a binder having active hydrogens and a polysiloxane having active hydrogens may be
hardened by means of, e.g., polyisocyanate or a tetraalkyl orthosilicate, yielding
a hardened protective layer containing a lubricant.
[0019] The thickness of the protective layer in connection with the present invention is
preferably between 1µm and 10µm, more preferably between 1.5µm and 7µm.
[0020] Substantially light-insensitive organic silver salts particularly suited for use
according to the present invention are silver salts of aliphatic carboxylic acids
known as fatty acids, wherein the aliphatic carbon chain has preferably at least 12
C-atoms, e.g. silver laurate, silver palmitate, silver stearate, silver hydroxystearate,
silver oleate and silver behenate, and likewise silver dodecyl sulphonate described
in US-P 4,504,575 and silver di-(2-ethylhexyl)-sulfosuccinate described in published
European patent application 227 141. Useful modified aliphatic carboxylic acids with
thioether group are described e.g. in GB-P 1,111,492 and other organic silver salts
are described in GB-P 1,439,478, e.g. silver benzoate and silver phthalazinone, which
may be used likewise to produce a thermally developable silver image. Further are
mentioned silver imidazolates and the substantially light-insensitive organic silver
salt complexes described in US-P 4,260,677.
[0021] As binding agents for the heat sensitive layer preferably thermoplastic water insoluble
resins are used, wherein the ingredients can be dispersed homogeneously or form therewith
a solid-state solution. For that purpose all kinds of natural, modified natural or
synthetic resins may be used, e.g. cellulose derivatives such as ethylcellulose, cellulose
esters, carboxymethylcellulose, starch ethers, polymers derived from α,β-ethylenically
unsaturated compounds such as polyvinyl chloride, after-chlorinated polyvinyl chloride,
copolymers of vinyl chloride and vinylidene chloride, copolymers of vinyl chloride
and vinyl acetate, polyvinyl acetate and partially hydrolyzed polyvinyl acetate, polyvinyl
alcohol, polyvinyl acetals, e.g. polyvinyl butyral, copolymers of acrylonitrile and
acrylamide, polyacrylic acid esters, polymethacrylic acid esters and polyethylene
or mixtures thereof. A particularly suitable ecologically interesting (halogen-free)
binder is polyvinyl butyral. A polyvinyl butyral containing some vinyl alcohol units
is marketed under the trade name BUTVAR™ B79 of Monsanto USA.
[0022] The binder to organic silver salt weight ratio is preferably in the range of 0.2
to 6, and the thickness of the image forming layer is preferably in the range of 5
to 16 µm.
[0023] The above mentioned polymers or mixtures thereof forming the binder may be used in
conjunction with waxes or "heat solvents" also called "thermal solvents" or "thermosolvents"
improving the penetration of the reducing agent(s) and thereby the reaction speed
of the redox-reaction at elevated temperature.
[0024] By the term "heat solvent" in this invention is meant a non-hydrolyzable organic
material which is in solid state at temperatures below 50 °C but becomes on heating
above that temperature a plasticizer for the binder of the layer wherein they are
incorporated and possibly act then also as a solvent for at least one of the redox-reactants,
e.g. the reducing agent for the organic silver salt. Useful for that purpose are a
polyethylene glycol having a mean molecular weight in the range of 1,500 to 20,000
described in US-P 3,347,675. Further are mentioned compounds such as urea, methyl
sulfonamide and ethylene carbonate being heat solvents described in US-P 3,667,959,
and compounds such as tetrahydro-thiophene-1,1-dioxide, methyl anisate and 1,10-decanediol
being described as heat solvents in Research Disclosure, December 1976, (item 15027)
pages 26-28. Still other examples of heat solvents have been described in US-P 3,438,776,
and 4,740,446, and in published EP-A 0 119 615 and 0 122 512 and DE-A 3 339 810.
[0025] Suitable organic reducing agents for the reduction of substantially light-insensitive
organic silver salts are organic compounds containing at least one active hydrogen
atom linked to O, N or C, such as is the case in aromatic di- and tri-hydroxy compounds,
e.g. hydroquinone and substituted hydroquinones, catechol, pyrogallol, gallic acid
and gallates; aminophenols, METOL™, p-phenylenediamines, alkoxynaphthols, e.g. 4-methoxy-1-naphthol
described in US-P 3,094,417, pyrazolidin-3-one type reducing agents, e.g. PHENIDONE™,
pyrazolin-5-ones, indanedione-1,3 derivatives, hydroxytetrone acids, hydroxytetronimides,
reductones, and ascorbic acid. Representatives for thermally activated reduction of
organic silver salts are described e.g. in US-P 3,074,809, 3,080,254, 3,094,417, 3,887,378
and 4,082,901.
[0026] Particularly suited organic reducing agents for use in thermally activated reduction
of the substantially light insensitive silver salts are organic compounds containing
in their structure two free hydroxy groups (-OH) in ortho-position on a benzene nucleus
as is the case in catechol and polyhydroxy spiro-bis-indane compounds corresponding
to the following general formula (I) which are preferred for use in the recording
material according to the present invention:
wherein :
R represents hydrogen or alkyl, e.g. methyl or ethyl,
each of R⁵ and R⁶ (same or different) represents, an alkyl group, preferably methyl
group or a cycloalkyl group, e.g. cyclohexyl group,
each of R⁷ and R⁸ (same or different) represents, an alkyl group, preferably methyl
group or a cycloalkyl group, e.g. cyclohexyl group, and
each of Z¹ and Z² (same or different) represents the atoms necessary to close an
aromatic ring or ring system, e.g. benzene ring, substituted with at least two hydroxyl
groups in ortho- or para-position and optionally further substituted with at least
one hydrocarbon group, e.g an alkyl or aryl group.
[0027] Particularly useful are the polyhydroxy-spiro-bis-indane compounds described in US-P
3,440,049 as photographic tanning agent, more especially 3,3,3',3'-tetramethyl-5,6,5',6'-tetrahydroxy-1,1'-spiro-bis-indane
(called indane I) and 3,3,3',3'-tetramethyl-4,6,7,4',6',7'-hexahydroxy-1,1'-spiro-bis-indane
(called indane II). Indane is also known under the name hydrindene.
[0028] Preferably the reducing agent is added to the heat sensitive layer but all or part
of the reducing agent may be added to one or more other layers on the same side of
the support as the heat sensitive layer. For example, all or part of the reducing
agent may be added to the protective surface layer.
[0029] The recording material may contain auxiliary reducing agents having poor reducing
power in addition to the main reducing agent described above preferably in the heat
sensitive layer containing the organic silver salt. For that purpose preferably sterically
hindered phenols are used.
[0030] Sterically hindered phenols as described e.g. in US-P 4,001,026 are examples of such
auxiliary reducing agents that can be used in admixture with said organic silver salts
without premature reduction reaction and fog-formation at room temperature.
[0031] For obtaining a neutral black image tone with silver formed in the higher optical
density parts and neutral grey in the lower densities the reducible silver salt(s)
and reducing agents are advantageously used in conjunction with a so-called toning
agent known from thermography or photo-thermography.
[0032] Suitable toning agents are the phthalimides and phthalazinones within the scope of
the general formulae described in US-P 4,082,901. Further reference is made to the
toning agents described in US-P 3,074,809, 3,446,648 and 3,844,797. Particularly useful
toning agents are likewise the heterocyclic toner compounds of the benzoxazine dione
or naphthoxazine dione type.
[0033] According to the present invention an image can be obtained with the above described
recording material by image-wise heating the recording material by moving the recording
material under a thermal head, said thermal head contacting the protective layer.
The recording material may be heated with a temperature of upto 400°C by varying the
number of heat pulses given by the thermal head. By varying the number of heat pulses
the density of the corresponding image pixel is varied correspondingly.
[0034] The present invention will now be illustrated by the following examples without however
the intention to limit the invention thereto. All parts are by weight unless otherwise
specified.
EXAMPLE 1
Preparation of the recording materials:
[0035] A subbed polyethylene terephthalate support having a thickness of 100 µm was doctor
blade-coated so as to obtain thereon after drying the following heat sensitive layer
including :
silver behenate |
4.42 g/m² |
polyvinyl butyral |
4.42 g/m² |
reducing agent S as defined hereinafter |
0.84 g/m² |
3,4-dihydro-2,4-dioxo-1,3,2H-benzoxazine |
0.34 g/m² |
silicone oil |
0.02 g/m² |
Reducing agent S is 1,1'-spirobi(1H-indene)-5,5',6,6'-tetrol-2,2',3,3'-tetrahydro-3,3,3',3'-tetramethyl.
[0036] To the heat sensitive layer was coated a protective layer having the following composition:
polycarbonate (see below) |
6g/m² |
matting agent |
(see table 1) |
Tegoglide 410*™ |
0.3g/m² |
(*) Tegoglide 410™ is a lubricant of the polysiloxane-polyether type. |
[0037] The structure of the polycarbonate used was as follows:
wherein x = 55 mol% and y = 45 mol%.
Table 1
Matting agent |
Sample no. |
Type |
Diameter (µm) |
Amount (g/m²) |
1 |
- |
- |
- |
2 |
Tospearl™ 145 |
4.5 |
0.18 |
3 |
PMMA |
6 |
0.06 |
PMMA= copolymer of styrene, methylmethacrylate, stearyl methacrylate, maleinic acid
sodium salt and 2-trimethoxysilylethyl methacrylate.
Tospearl™ 145 is a silicone resin particle |
[0038] The recording materials prepared as described above were image-wise heated with a
thermal head in a thermal printer so as to obtain a density of 3.2. The obtained minimum
density in each case was less than 0.05. The obtained images were then visually inspected
for scratches and assigned a number from 0 to 5 to indicate the amount of scratches.
A number of 0 indicates that no scratches were found whereas a number of 5 indicates
severe scratching of the image. The obtained results are listed in table 2.
Table 2
Sample no. |
Scratches |
1 |
5 |
2 |
1 |
3 |
3 |
From the above table it can be seen that the number of scratches on the image can
be effectively reduced by adding a matting agent to the protective layer.
EXAMPLE 2
[0039] A recording material was prepared similar to the recording materials of example 1
with the exception however that the protective layer was replaced with a layer having
the following composition:
polyvinyl alcohol |
3.5g/m² |
China Clay (matting agent) |
1.5g/m² |
The polyvinyl alcohol used was POLYVIOL™ W48/20 obtained from Wacker.
[0040] The thus-obtained recording material was printed and evaluated as in example 1. A
number of 1 could be assigned to indicate the amount of scratches. Furthermore it
was found that no contamination of the thermal head occurred.
EXAMPLE 3
[0041] A recording material was prepared as described in example 2, with the exception that
on top of the protective layer there was applied a thin layer of Tegoglide™ 410 (lubricant)
in an amount of 18mg/m². A number of 0 to 1 could be assigned to indicate that practically
no scratches were found. Furthermore it was found that no contamination of the thermal
head occurred.
EXAMPLE 4
[0042] 2 parts of a solution in water containing 7% of polyvinyl alcohol (POLYVIOL™ W48/20
from Wacker) and 3% of China Clay were mixed with 1 part of an aqueous solution containing
14% of tetramethyl orthosilicate. The mixture was brought to pH=4 using sodium hydroxide.
[0043] The obtained solution was coated with a Braive knife of 50µm to a polyethyleneterephthalate
support containing the heat sensitive layer described in example 1. The obtained recording
material was dried and heated for 1 hour at 60°C to harden the protective layer.
[0044] The recording material was then printed and evaluated as described in example 1.
No scratches were found on the image. Furthermore it was found that no contamination
of the thermal head occurred.
1. A recording material comprising on a support (i) a heat sensitive layer comprising
a substantially light insensitive organic silver salt, (ii) a protective layer containing
a matting agent dispersed in a binder and (iii) a reducing agent being present in
the heat sensitive layer and/or another layer on the same side of the support carrying
the heat senttive layer characterised in that a lubricant is comprised in said protective
layer or is present on top of said protective layer.
2. A recording material comprising on a support (i) a heat sensitive layer comprising
a substantially light insensitive organic silver salt, (ii) a protective layer containing
a matting agent dispersed in a binder and (iii) a reducing agent being present in
the heat sensitive layer and/or another layer on the same side of the support carrying
the heat sensitive layer characterised in that the average diameter of said matting
agent is between 0.7 and 1.5 times the thickness of the protective layer.
3. A recording material comprising on a support (i) a heat sensitive layer comprising
a substantially light insensitive organic silver salt, (ii) a protective layer containing
a matting agent dispersed in a binder and (iii) a reducing agent being present in
the heat sensitive layer and/or another layer on the same side of the support carrying
the heat sensitive layer characterised in that said protective layer is hardened.
4. A recording material according to claim 1, 2 or 3 wherein said binder is a polycarbonate.
5. A recording material according to claim 1, 2 or 3 wherein said binder is hydrophilic.
6. A recording material according to claim 5 wherein said binder is polyvinyl alcohol
or a polyvinyl acetate.
7. A method for making an image comprising image-wise heating a recording material comprising
on a support (i) a heat sensitive layer comprising a substantially light insensitive
organic silver salt, (ii) a protective layer containing a matting agent dispersed
in a binder and (iii) a reducing agent being present in the heat sensitive layer and/or
another layer on the same side of the support carrying the heat sensitive layer, by
means of a thermal head contacting the protective layer of the recording material.
8. A method according to claim 7 wherein a lubricant is comprised in said protective
layer or a lubricant is provided on top of said protective layer.
9. A method according to claim 7 wherein the average diameter of said matting agent is
between 0.7 and 1.5 times the thickness of the protective layer.
10. A method according to claim 7 wherein said protective layer is hardened.
11. An image obtained by any of the methods of claims 7 to 10 for use in medical diagnostics.
1. Ein Aufzeichnungsmaterial, enthaltend auf einem Träger (i) eine wärmeempfindliche
Schicht, die ein wesentlich lichtunempfindliches. organisches Silbersalz enthält,
(ii) eine Schutzschicht, die ein in einem Bindemittel dispergiertes Mattiermittel
enthält, und (iii) ein Reduktionsmittel, das sich in der wärmeempfindlichen Schicht
und/oder in einer anderen Schicht auf der gleichen Trägerseite wie die wärmeempfindliche
Schicht befindet, dadurch gekennzeichnet, daß ein Schmiermittel in der Schutzschicht
enthalten ist oder sich oben auf der Schutzschicht befindet.
2. Ein Aufzeichnungsmaterial` enthaltend auf einem Träger (i) eine wärmeempfindliche
Schicht, die ein wesentlich lichtunempfindliches, organisches Silbersalz enthält,
(ii) eine Schutzschicht, die ein in einem Bindemittel dispergiertes Mattiermittel
enthält, und (iii) ein Reduktionsmittel, das sich in der wärmeempfindlichen Schicht
und/oder in einer anderen Schicht auf der gleichen Trägerseite wie die wärmeempfindliche
Schicht befindet, dadurch gekennzeichnet, daß der durchschnittliche Durchmesser des
Mattiermittels zwischen 0,7 und 1,5 mal die Dicke der Schutzschicht liegt.
3. Ein Aufzeichnungmaterial, enthaltend auf einem Träger (i) eine wärmeempfindliche Schicht,
die ein wesentlich lichtunempfindliches. organisches Silbersalz enthält, (ii) eine
Schutzschicht, die ein in einem Bindemittel dispergiertes Mattiermittel enthält, und
(iii) ein Reduktionsmittel, das sich in der wärmeempfindlichen Schicht und/oder in
einer anderen Schicht auf der gleichen Trägerseite wie die wärmeempfindliche Schicht
befindet, dadurch gekennzeichnet, daß die Schutzschicht ausgehärtet ist.
4. Ein Aufzeichnungsmaterial nach Anspruch 1, 2 oder 3, dadurch gekennzeichnet, daß das
Bindemittel ein Poly(carbonat) ist.
5. Ein Aufzeichnungsmaterial nach Anspruch 1, 2 oder 3, dadurch gekennzeichnet, daß das
Bindemittel hydrophil ist.
6. Ein Aufzeichnungsmaterial nach Anspruch 5, dadurch gekennzeichnet, daß das Bindemittel
Poly(vinylalkohol) oder ein Poly(vinylacetat) ist.
7. Eine Methode zur Erzeugung eines Bildes, in der ein Aufzeichnungsmaterial. enthaltend
auf einem Träger (i) eine wärmeempfindliche Schicht, die ein wesentlich lichtunempfindliches.
organisches Silbersalz enthält, (ii) eine Schutzschicht, die ein in einem Bindemittel
dispergiertes Mattiermittel enthält, und (iii) ein Reduktionsmittel, das sich in der
wärmeempfindlichen Schicht und/oder in einer anderen Schicht auf der gleichen Trägerseite
wie die wärmeempfindliche Schicht befindet, bildmäßig mittels eines Thermokopfes erhitzt
wird, welcher die Schutzschicht des Aufzeichnungsmaterials berührt.
8. Eine Methode nach Anspruch 7, dadurch gekennzeichnet, daß ein Schmiermittel in der
Schutzschicht enthalten ist, oder daß ein Schmiermittel oben auf der Schutzschicht
verschafft wird.
9. Eine Methode nach Anspruch 7, dadurch gekennzeichnet, daß der durchschnittliche Durchmesser
des Mattiermittels zwischen 0,7 und 1,5 mal die Dicke der Schutzschicht liegt.
10. Eine Methode nach Anspruch 7, dadurch gekennzeichnet, daß die Schutzschicht ausgehärtet
ist.
11. Ein Bild, das mit irgendwelcher der Methoden der Ansprüche 7 bis 10 erzeugt ist, für
den Gebrauch in der medizinischen Diagnostik.
1. Un matériau enregistreur comprenant sur un support (i) une couche sensible à la chaleur
comprenant un sel d'argent organique substantiellement insensible à la lumière, (ii)
une couche de protection contenant un agent de matage dispersé dans un liant et (iii)
un agent réducteur étant présent dans la couche sensible à la chaleur et/ou dans une
autre couche qui se trouve sur le même côté du support que la couche sensible à la
chaleur, caractérisé en ce qu'un lubrifiant est compris dans la couche de protection
ou est présent sur la couche de protection.
2. Un matériau enregistreur comprenant sur un support (i) une couche sensible à la chaleur
comprenant un sel d'argent organique substantiellement insensible à la lumière, (ii)
une couche de protection contenant un agent de matage dispersé dans un liant et (iii)
un agent réducteur étant présent dans la couche sensible à la chaleur et/ ou dans
une autre couche qui se trouve sur le même côté du support que la couche sensible
à la chaleur, caractérisé en ce que le diamètre moyen de l'agent de matage est entre
0,7 et 1,5 fois l'épaisseur de la couche de protection.
3. Un matériau enregistreur comprenant sur un support (i) une couche sensible à la chaleur
comprenant un sel d'argent organique substantiellement insensible à la lumière, (ii)
une couche de protection contenant un agent de matage dispersé dans un liant et (iii)
un agent réducteur étant présent dans la couche sensible à la chaleur et/ ou dans
une autre couche qui se trouve sur le même côté du support que la couche sensible
à la chaleur, caractérisé en ce que la couche de protection est durcie.
4. Un matériau enregistreur selon la revendication 1, 2 ou 3, caractérisé en ce que le
liant est un poly(carbonate).
5. Un matériau enregistreur selon la revendication 1, 2 ou 3, caractérisé en ce que le
liant est hydrophile.
6. Un matériau enregistreur selon la revendication 5, caractérisé en ce que le liant
est du poly(alcool de vinyle) ou un poly(acétate de vinyle).
7. Une méthode pour faire une image comprenant l'échauffement sous forme d'image d'un
matériau enregistreur comprenant sur un support (i) une couche sensible à la chaleur
comprenant un sel d'argent organique substantiellement insensible à la lumière, (ii)
une couche de protection contenant un agent de matage dispersé dans un liant et (iii)
un agent réducteur étant présent dans la couche sensible à la chaleur et/ ou dans
une autre couche qui se trouve sur le même côté du support que la couche sensible
à la chaleur, au moyen d'une tête thermique qui entre en contact avec la couche de
protection du matériau enregistreur.
8. Une méthode selon la revendication 7, caractérisée en ce qu'un lubrifiant est renfermé
dans la couche de protection ou qu'un lubrifiant est fourni sur la couche de protection.
9. Une méthode selon la revendication 7, caractérisée en ce que le diamètre moyen de
l'agent de matage est entre 0,7 et 1,5 fois l'épaisseur de la couche de protection.
10. Une méthode selon la revendication 7, caractérisée en ce que la couche de protection
est durcie.
11. Une image obtenue par l'une quelconque des méthodes des revendications 7 à 10 pour
être utilisée dans le diagnostic médical.