EP2910384A1 - Heat-sensitive recording material with a novel dye-acceptor combination - Google Patents

Abstract

Proposed is a heat-sensitive recording material comprising a web-shaped substrate having a front side and a rear side opposite thereto At least one heat-sensitive recording layer on at least one of the two sides of the web-shaped substrate, characterized in that the heat-sensitive recording layer contains, as a color acceptor, a combination at least from one, two, three or more than three dye acceptor compounds of formula (1) with R is an alkyl group, and at least one secondary color acceptor containing oligomers of lactic acid corresponding to formula (3)

Description

The invention first relates to a heat-sensitive recording material having a web-shaped substrate and at least one heat-sensitive recording layer, formed on at least one of the two sides of the web-shaped substrate, this heat-sensitive recording layer according to the invention containing a novel color acceptor combination.

Heat-sensitive and color-responsive recordable thermal recording materials have been known for many years and enjoy a generally unbroken popularity, due, among other things, to the great advantages associated with their use for the ticket and / or purse issuing businessman. Because the color-forming components, dye precursors and heat-responsive color acceptors, also called (color) developers, are incorporated in the recording material itself in such a heat-sensitive recording process, the toner and color-cartridge-free thermal printers known in the art may Function no longer need to be regularly controlled by anyone, be set up in large numbers. Thus, this innovative technology has largely prevailed, especially in public transport and retail.

• Bisphenol-A, das ist 2,2 bis (4-hydroxyphenyl)-Propan, und
• Bisphenol-S, das ist 4,4'-Dihydroxydiphenylsulfon,

enthaltende wärmeempfindliche Aufzeichnungsmaterialien in der Kritik, was in erster Linie zu einem verstärkten Einsatz von

• Pergafast® 201, das ist N-(p-toluensulphonyl)-N'-3-(p-toluensulphonyl-Oxy-phenyl)-harnstoff, der Firma BASF Corporation, und
• D8, das ist 4-[(4-(1-methylethoxy)phenyl)sulfonyl]phenol,

führte. In Berücksichtigung dieser in kürzester Zeit völlig veränderten Marktlage erkannten die Erfinder die Notwendigkeit nach weiteren wärmeempfindlichen Aufzeichnungsmaterialien, bei denen einerseits der Farbakzeptor innerhalb der wärmeempfindlichen Aufzeichnungsschicht möglichst vollständig biologisch abbaubar und die Umwelt nicht belastend ist und die andererseits wirtschaftlich zumindest noch vertretbar hergestellt werden können, denn schließlich müssen auch die besten Produkte für den Auftraggeber und/oder für den Endverbraucher bezahlbar bleiben.In the recent past, however, increased concerns have emerged against the environmental compatibility of certain color acceptors, which are on the one hand by no means scientifically justified, on the other hand, however, can not be ignored by industry and especially by trade. So are in particular

• Bisphenol A, that is 2,2 bis (4-hydroxyphenyl) propane, and
• Bisphenol-S, which is 4,4'-dihydroxydiphenylsulfone,

containing heat-sensitive recording materials in the criticism, which is primarily to an increased use of

• Pergafast® 201, which is N- (p-toluenesulphonyl) -N'-3- (p-toluenesulphonyl-oxy-phenyl) urea, from BASF Corporation, and
• D8, that is 4 - [(4- (1-methylethoxy) phenyl) sulfonyl] phenol,

led. In consideration of this completely changed market situation in a very short time, the inventors recognized the need for further heat-sensitive recording materials, where on the one hand, the color acceptor within the heat-sensitive recording layer as fully biodegradable as possible and the environment is not burdensome and on the other hand can be economically produced at least justifiable, because Finally, even the best products must remain affordable for the client and / or the end user.

• Bisphenol-A, das ist 2,2 bis (4-hydroxyphenyl)-Propan,
• Bisphenol-S, das ist 4,4'-Dihydroxydiphenylsulfon,
• Pergafast® 201, das ist N-(p-toluensulphonyl)-N'-3-(p-toluensulphonyl-Oxy-phenyl)-harnstoff, der Firma BASF Corporation,
• D8, das ist 4-[(4-(1-methylethoxy)phenyl)sulfonyl]phenol,

jedoch wird eine solche Kombinationsmöglichkeit mit Bezug auf Bisphenol-A und Bisphenol-S in der Praxis weniger eine Rolle spielen, weil ja das Marktinteresse nach wärmeempfindlichen Aufzeichnungsmaterialien gerade in eine Richtung zielt, bei denen die Farbakzeptoren in einem besonderen Maße umweltfreundlich sind. Der ansonsten sehr aussagekräftigen Schrift ist keinerlei Anregung hinsichtlich der Kombination von Farbakzeptoren auf der Basis von Oligomeren der Polymilchsäure mit weiteren Farbakzeptoren jenseits der oben aufgelisteten Komponenten zu entnehmen.The closest prior art is from the perspective of the inventors EP 2 574 645 A1 Which proposes as the present proposal, a thermosensitive recording material formed thereon with a substrate and a thermosensitive recording layer comprising a dye precursor and a color acceptor, the latter being a molecule consisting of an n-valent acid and n-fold clustered around these acid oligomers of the polylactic acid or formed by this molecule. It can be seen from the disclosure of this document that, as appropriate, a color acceptor as described above is to be combined with other color acceptors which are then selected from the list, comprising:

• Bisphenol-A, which is 2,2 bis (4-hydroxyphenyl) propane,
• Bisphenol-S, which is 4,4'-dihydroxydiphenylsulfone,
• Pergafast® 201, which is N- (p-toluenesulphonyl) -N'-3- (p-toluenesulphonyl-oxy-phenyl) urea, BASF Corporation,
• D8, that is 4 - [(4- (1-methylethoxy) phenyl) sulfonyl] phenol,

however, such a combination possibility with respect to bisphenol-A and bisphenol-S will in practice play less of a role, since the market interest for heat-sensitive recording materials is aimed in a direction in which the color acceptors are environmentally friendly to a particular extent. The otherwise very meaningful writing is no suggestion regarding the combination of color acceptors based on oligomers of polylactic acid with other color acceptors beyond the components listed above.

From the US 2005 282,704 A1 is the indication of the possible use of copolymers of polylactic acid as an energy absorber in heat-sensitive recording materials refer to. The German patent application DE 22 53 772 A1 Finally, proposes a recording sheet with a color developer layer containing, in addition to an acidic polymer, a metal salt or an organic carboxylic acid, for example an aliphatic carboxylic acid, here among others called 2-hydroxy-2,4-dimethylpentanoic acid.

The US 2004 / 258,857 A1 finally proposes a non-reactive recording material whose elastic substrate contains polylactic acid. From the US 2005 / 112,302 A1 Again, an ink-jet recording element is known, of which an ink-permeable coating contains a polylactic acid-based material.

• □ ein bahnförmiges Substrat, aufweisend eine Vorderseite und eine ihr gegenüberliegende Rückseite
• □ mindestens eine wärmeempfindliche Aufzeichnungsschicht auf mindestens einer der beiden Seiten des bahnförmigen Substrats,

dadurch gekennzeichnet, dass die wärmeempfindliche Aufzeichnungsschicht als Farbakzeptor eine Kombination enthält, mindestens bestehend

• aus einer, zwei, drei oder mehr als drei Farbakzeptor(-Verbindungen) der Formel (1)
  
  mit R ist eine Alkylgruppe,
• und aus mindestens einem Sekundär-Farbakzeptor, enthaltend Oligomere der Milchsäure entsprechend Formel (3)
  

The solution of the above-mentioned object is made taking into consideration and appreciation of the above prior art by means of a heat-sensitive recording material proposed herein, comprising

• □ a web-shaped substrate, having a front side and a rear side opposite it
• At least one heat-sensitive recording layer on at least one of the two sides of the web-shaped substrate,

characterized in that the heat-sensitive recording layer contains, as a color acceptor, a combination at least

• from one, two, three or more than three color acceptor (compounds) of formula (1)
  
  with R is an alkyl group,
• and at least one secondary color acceptor containing oligomers of lactic acid corresponding to formula (3)
  

Preferably, the R in formula (1) is an alkyl group comprising 1 to 25 carbon atoms, most preferably 10 to 20 carbon atoms. Known and for the purposes of the present invention also very particularly preferred is such a color acceptor compound under the name Gallussäurestearylester or stearyl gallate. Compounds of the formula (1) are substances which are composed of naturally occurring substances and which are used, in particular, as antioxidants in foods, for example ethyl gallate (E 313), propyl gallate (E 310), octyl gallate (E 311) and dodecyl gallate ( E 312) for use, among others, in baked goods, margarine, marzipan, nougat, dry soups and chips.

• □ ein bahnförmiges Substrat, aufweisend eine Vorderseite und eine ihr gegenüberliegende Rückseite
• □ mindestens eine wärmeempfindliche Aufzeichnungsschicht auf mindestens einer der beiden Seiten des bahnförmigen Substrats,

dadurch gekennzeichnet, dass die wärmeempfindliche Aufzeichnungsschicht als Farbakzeptor eine Kombination enthält, mindestens bestehend

• aus einer, zwei, drei oder mehr als drei Farbakzeptor(-Verbindungen) der Formel (1)
  
  mit R ist eine Alkylgruppe,
• und aus mindestens einem Sekundär-Farbakzeptor, enthaltend ein Molekül oder gebildet aus einem Molekül aus
  einer n-wertigen Säure und aus n-fach um diese Säure gruppierte Oligomere der Milchsäure entsprechend Formel (3).
  

In a very particularly preferred embodiment of the invention, the solution of the underlying object by means of a heat-sensitive recording material, comprising

• □ a web-shaped substrate, having a front side and a rear side opposite it
• At least one heat-sensitive recording layer on at least one of the two sides of the web-shaped substrate,

characterized in that the heat-sensitive recording layer contains, as a color acceptor, a combination at least

• from one, two, three or more than three color acceptor (compounds) of formula (1)
  
  with R is an alkyl group,
• and from at least one secondary color acceptor containing a molecule or formed from a molecule
  an n-valent acid and oligomers of lactic acid grouped n times around this acid according to formula (3).
  

To further understand the present invention, it should first be stated that lactic acid can be prepared in accordance with formula (2)

Polylactic acid is characterized in that it is a fully biodegradable plastic as a specific embodiment of the polyester, which is particularly true when the polylactic acid is a compound of dextrorotatory lactic acids (L + lactic acid), which in the context of the present invention as very particularly preferably. Since polylactic acid contains an unusable hydroxyl group and also only one carboxyl group which is reactive with the color precursor precursors at the two ends of the long polymer molecules, it constitutes a preferred embodiment of the invention when oligomers of lactic acid are used as secondary color acceptor or as part of the secondary polymer. Color acceptor are used. The oligomers of lactic acid are representable according to formula (3):

After intensive investigations underlying this invention, the inventors now recognized that it is particularly advantageous to increase the number of useful carboxyl groups by the oligomers of lactic acid are n-fold grouped around an n-valent acid, which - as stated above - as a whole Particularly preferred embodiment of the present invention is to be regarded.

• Oxalsäure, Malonsäure, Bernsteinsäure, Glutarsäure, Adipinsäure, Pimelinsäure, Korksäure, Azelainsäure, Sebacinsäure, Undecandisäure, Dodecandisäure, Tridecandisäure, Tetradecandisäure, Hexadecandisäure.

Examples of the preferred dibasic acids within this most preferred embodiment are acids selected from the list comprising:

• Oxalic, malonic, succinic, glutaric, adipic, pimelic, suberic, azelaic, sebacic, undecanedioic, dodecanedioic, tridecanedioic, tetradecanedioic, hexadecanedioic.

Such a molecule can be represented according to formula (4):

• Maleinsäure, Fumarsäure, Apfelsäure, Weinsäure, Glutaminsäure, Asparaginsäure, Phthalsäure, Isophthalsäure, Terepthalsäure.

Further examples of a dibasic acid are those acids selected from the list comprising:

• Maleic acid, fumaric acid, malic acid, tartaric acid, glutamic acid, aspartic acid, phthalic acid, isophthalic acid, terephthalic acid.

A very particularly preferred example of a dibasic acid which is very useful in the context of the present invention is oxalic acid, which leads to a molecule as a secondary color acceptor from a central oxalic acid molecule and two oligomers of lactic acid. Such a molecule is considered to be a particularly preferred example of a secondary color acceptor of the present invention capable of forming, together with a color acceptor compound represented by the formula (1), especially and most preferably, together with a gallic acid stearyl ester and a dye precursor to react to a visually recognizable color. In addition to a color acceptor compound according to formula (1) and a secondary color acceptor of a central Oxalsäuremolekül and two oligomers of lactic acid are as additional constituents of the heat-sensitive recording layer in the present invention also additional, then, for example, classic color acceptors, as in paragraph Be mentioned, possible.

For the purposes of the present invention, it is furthermore very particularly preferred to group the oligomers of lactic acid in triplicate by a trivalent acid, for which the citric acid in particular lends itself, resulting in a molecule as a secondary color acceptor consisting of a central citric acid molecule and three oligomers of lactic acid , Such a molecule is considered to be a particularly preferred example of a secondary color acceptor of the present invention capable of forming, together with a color acceptor compound represented by the formula (1), especially and most preferably, together with a gallic acid stearyl ester and a dye precursor to react to a visually recognizable color. In addition to a color acceptor compound according to formula (1) and a secondary color acceptor of a central citric acid molecule and three oligomers of lactic acid are as additional constituents of the heat-sensitive recording layer in the present invention also additional, then, for example, classic color acceptors, as in paragraph Be mentioned, possible.

Representable is a molecule of a central citric acid molecule and three oligomers of lactic acid according to formula (5):

• aus einer, zwei, drei oder mehr als drei Farbakzeptor(-Verbindungen) der Formel (1)
  
  mit R ist eine Alkylgruppe,
• und aus einem ersten Sekundär-Farbakzeptor, enthaltend ein Molekül oder gebildet aus einem Molekül aus
  einer n-wertigen Säure und aus n-fach um diese Säure gruppierte Oligomere der Milchsäure
• und aus mindestens einem zweiten Sekundär-Farbakzeptor, enthaltend ein Molekül oder gebildet aus einem Molekül aus
  einer m-wertigen Säure und aus m-fach um diese Säure gruppierte Oligomere der Milchsäure

mit der Bedingung m ≠ n. In einem solchen bevorzugten Fall können rheologische Faktoren der Beschichtungsmasse zur Ausbildung der wärmeempfindlichen Aufzeichnungsschicht und deren Empfindlichkeit gegenüber der farbauslösenden Wärme gezielt eingestellt werden. Eine solche Ausführungsform der Erfindung mit mindestens zwei, stofflich verschiedenen Sekundär-Farbakzeptoren gilt gleichsam als eine weitere besonders bevorzugte Ausführungsform der Erfindung. Auch hier ist es vorstellbar, dass neben einer Farbakzeptor-Verbindung entsprechend der Formel (1) und den beiden Sekundär-Farbakzeptoren gemäß obiger Ausführungen als weiterer Bestandteil der wärmeempfindlichen Aufzeichnungsschicht im Rahmen der vorliegenden Erfindung noch zusätzliche, dann beispielsweise klassische Farbakzeptoren, wie sie auch in Absatz [0003] erwähnt werden, eingesetzt werden.For the purposes of the present invention, a heat-sensitive recording layer is conceivable which contains a combination as color acceptor

• from one, two, three or more than three color acceptor (compounds) of formula (1)
  
  with R is an alkyl group,
• and a first secondary color acceptor containing a molecule or formed from a molecule
  an n-valent acid and oligomers of lactic acid grouped n times around this acid
• and from at least one second secondary color acceptor containing a molecule or formed from a molecule
  an m-valent acid and oligomers of lactic acid grouped m times around this acid

with the condition m ≠ n. In such a preferable case, rheological factors of the coating composition for forming the heat-sensitive recording layer and its sensitivity to the color-triggering heat can be specifically adjusted. Such an embodiment of the invention with at least two materially different secondary color acceptors is considered as another particularly preferred embodiment of the invention. Again, it is conceivable that in addition to a Farbakzeptor connection according to the formula (1) and the two secondary Farbakzeptoren according to the above statements as a further component of the heat-sensitive recording layer in the present invention still additional, then, for example, classic color acceptors, as in Paragraph [0003] are used.

• Farbakzeptor-Verbindungen entsprechend der Formel (1) zu Sekundär-Farbakzeptoren, enthaltend Oligomere der Milchsäure entsprechend Formel (3) zunächst durchaus in einem bevorzugten Bereich von 10 : 1 bis 1 : 1,25, besser in einem Bereich von 3,25 : 1 bis 1 : 1,25 einzustellen ist. Optimal zur Erzielung der besten Ergebnisse insbesondere hinsichtlich der dynamischen Druckdichte und einer Farbort-Stabilität ohne übermäßige Vergilbung des vorgeschlagenen wärmeempfindlichen Aufzeichnungsmaterials auch und insbesondere in feuchter Umgebung gilt ein ganz besonders bevorzugter Bereich von 3,25 : 1 bis 1 : 1 und noch besser in einem Bereich von 2,5 : 1 bis 1,25 : 1.

The here proposed combination of one, two, three or more than three color acceptor (compounds) of the formula (1) and secondary color acceptors based on oligomers of lactic acid according to formula (3) in all of the above and in particular in all Embodiments shown preferred allows a heat-sensitive recording material, in which on the one hand, the entirety of the Farbakzeptorkomponente within the heat-sensitive recording layer largely completely biodegradable and the environment is not burdensome and on the other hand can be produced economically justifiable. While the color acceptor compounds according to the formula (1) assure a fully convincing dynamic printing density of the thermosensitive recording material, but entail the disadvantage of discernible and in many cases unacceptable yellowing of the thermosensitive recording material, the secondary color acceptors prevent on the basis of Oligomers of lactic acid according to formula (3) this yellowing surprisingly largely, so that a proposed heat-sensitive recording material completely convincing both in terms of its heat sensitivity as well as in terms of its Farbort-stability. In many of the research sources on which this paper was based, it was found that a ratio by weight of (%) of

• Color acceptor compounds according to formula (1) to secondary color acceptors containing oligomers of lactic acid according to formula (3) Initially, it is well within a preferred range of 10: 1 to 1: 1.25, more preferably in the range of 3.25: 1 to 1: 1.25. Optimal for obtaining the best results, particularly in terms of dynamic printing density and color locus stability without excessive yellowing of the proposed thermosensitive recording material also and particularly in a humid environment, is a most preferred range of 3.25: 1 to 1: 1 and more preferably in one Range from 2.5: 1 to 1.25: 1.

The thermosensitive recording material proposed herein preferably has at least one substance selected from the list as possible dye precursors in the thermosensitive recording layer, comprising: 3-diethylamino-6-methyl-7-anilinofluoran, 3-dibutylamino-6-methyl-7 Anilinofluoran, 3- (N -methyl-N-propyl) amino-6-methyl-7-anilinofluoran, 3- (N-ethyl-N-isoamyl) amino-6-methyl-7-anilinofluoran, 3- (N-methyl -N-cyclohexyl) amino-6-methyl-7-anilinofluoran, 3- (N-ethyl-N-tolyl) amino-6-methyl-7-anilinofluoran and 3- (N-ethyl-N-tetrahydrofuryl) amino-6 methyl-7-anilinofluoran. Very particular preference is given to 3-dibutylamino-6-methyl-7-anilinofluoran - also known as ODB-2.

• Farbstoffvorläufer auf Fluoranbasis zu den Farbakzeptor-Verbindungen entsprechend der Formel (1)
• in einem Bereich von 1 : 1,5 bis 1 : 2,5
• und noch besser in einem Bereich von 1 : 1,55 bis 1 : 2

eingestellt ist.To ensure a convincing dynamic print density, the heat-sensitive recording layer has an amount of fluoran-based dye precursors, especially 3-dibutylamino-6-methyl-7-anilinofluoran, ranging from 0.25 g / m ² to 0.7 g / m ² lies. At the same time, it is considered to be very particularly preferred if, independently of this and even better at the same time, a ratio by weight of (atro) of

• Fluoranase-based dye precursor to the color acceptor compounds according to formula (1)
• in a range of 1: 1.5 to 1: 2.5
• and even better in a range of 1: 1.55 to 1: 2

is set.

Alone for environmental reasons but also technologically possible by the present invention, the heat-sensitive recording material according to the invention can completely dispense with sensitizers, which is considered in the context of the present invention as preferred and consistent. Still want to Sensitisers which may be used to increase the thermal sensitivity are used in such a case, in particular sensitisers such as: 2- (2H-benzotriazol-2-yl) -p-cresol, benzyl p-benzyloxy-benzoate , Methylolstearamide, stearic acid amide, p-benzylbiphenyl, 1,2-di (phenoxy) ethane, 1,2-di (m-methylphenoxy) ethane, m-terphenyl, dibenzyl oxalate, benzyl naphthyl ether, dimethyl terephthalate and diphenylsulfone.

Suitable binders for incorporation into the heat-sensitive recording layer are, for example, water-soluble binders such as starch, hydroxyethylcellulose, methylcellulose, carboxymethylcellulose, gelatin, casein, polyvinyl alcohols, modified polyvinyl alcohols, ethylene-vinyl alcohol copolymers, sodium polyacrylates, acrylamide-acrylate copolymers, acrylamide-acrylate-methacrylate Terpolymers and alkali salts of styrene-maleic anhydride copolymer or ethylene-maleic anhydride copolymer, which binders can be used alone or in combination with one another; Water-insoluble latex binders such as styrene-butadiene copolymers, acrylonitrile-butadiene copolymers and methyl acrylate-butadiene copolymers are also suitable as binders for incorporation into the heat-sensitive recording layer. For the purposes of the present invention are polyvinyl alcohol, ethylene-vinyl alcohol copolymers or polyvinyl alcohol in conjunction with ethylene-vinyl alcohol copolymers as particularly preferred binders which together, based on the total weight of the recording layer, in a range of 10 to 20 wt .-% in the heat-sensitive recording layer is incorporated.

In order to improve the sliding properties on a thermal head and to prevent excessive wear of the thermal head, the heat-sensitive recording layer may further contain lubricants and release agents such as metal salts of higher fatty acids, for example, zinc stearate, calcium stearate and waxes such as paraffin, oxidized paraffin, polyethylene, polyethylene oxide, Stearamide and castor wax.

• der Farbakzeptorkombination,
• mindestens einem Farbstoffvorläufer,
• einem Bindemittel

ein oder mehrere Pigmente, bevorzugt anorganische Pigmente und ganz besonders bevorzugt ein oder mehrere Pigmente, ausgesucht aus der Liste, umfassend Kaolin und Aluminium(hydr)oxid, wobei hier insbesondere Kaolin als besonders geeignet angesehen wird. Weniger geeignet, jedoch nicht ausgeschlossen im Rahmen der vorliegenden Erfindung, sind

• in erster Linie Kalziumkarbonat, das die Wirkung des Sekundär-Farbakzeptors zur Farbort-Stabilisierung schwächt, und
• auch Silizium(di)oxid, das mitunter Ablagerungen an den Thermo-Druckköpfen begründen kann, ansonsten aber durchaus gute Restergebnisse generierte. Mit entsprechenden Maßnahmen kann deshalb auch Silizium(di)oxid zum Kreis der besser geeigneten Pigmente aufrücken.

Further components of the heat-sensitive recording layer are in addition to a preferred embodiment

• the color acceptor combination,
• at least one dye precursor,
• a binder

one or more pigments, preferably inorganic pigments and most preferably one or more pigments selected from the list comprising kaolin and aluminum (hydr) oxide, in which kaolin is considered particularly suitable here. Less suitable, but not excluded in the context of the present invention, are

• primarily calcium carbonate, which weakens the effect of the secondary color acceptor for color locus stabilization, and
• also silicon (di) oxide, which can occasionally cause deposits on the thermal printheads, but otherwise generated quite good residual results. With appropriate measures can therefore silicon (di) oxide to move up to the circle of more suitable pigments.

With regard to the amount of pigment in the heat-sensitive recording layer, a range of from 8 to 18% by weight (atro), which is narrowed down by the increasing danger of possible thermal printhead deposits, is particularly suited to the total weight of the heat-sensitive recording layer upward by an increasing reduction in sensitivity to the print image causing heat of the thermal printheads.

Roller coater, knife coater, curtain coater or air brush are particularly suitable as coating apparatus for applying the heat-sensitive recording layer. The basis weight of the heat-sensitive recording layer is preferably between 2 and 6 g / m ^2, and more preferably between 2.2 and 4.8 g / m ² .

In a very particularly preferred embodiment, the heat-sensitive recording material according to the invention comprises a pigment-containing intermediate layer, which is arranged between the substrate and the heat-sensitive recording layer.

Suitable pigments of the intermediate layer are both organic void pigments and inorganic pigments, the latter preferably selected from the group comprising natural and calcined kaolin, silica and in particular bentonite, calcium carbonate and aluminum hydroxide and here especially boehmite. On the one hand, such an intermediate layer can make a positive contribution to the leveling of the surface to be coated, which reduces the amount of coating color necessarily to be applied for the heat-sensitive recording layer. For this reason, offer to coat the pigment-containing intermediate layer leveling coating, such as Walzenstreichwerke, doctor blade and (roll) doctor blade coating. On the other hand, the pigments of this intermediate layer can absorb the heat-liquefied wax constituents of the thermosensitive recording layer in the typeface formation and thus promote a safe and rapid operation of the heat-induced recording. The basis weight of the pigment-containing intermediate layer is preferably between 5 and 20 g / m ² and more preferably between 7 and 11 g / m ² .

Although not limited to paper as a substrate, paper and here especially a non-surface treated base paper is the substrate that has prevailed on the market with regard to the good environmental compatibility because of good recyclability and is preferred for the purposes of the invention. A non-surface treated base paper is to be understood as meaning a base paper which has not been treated in a size press or in a coating device. For the invention, films of, for example, polypropylene, polyolefin and polyolefin-coated papers as substrate are possible to the same extent, without such an embodiment having an exclusive character.

The measures given in the specification and in the claims for basis weight,% by weight (% by weight) and parts by weight (parts by weight) are each based on the "atro" weight, i. absolutely dry parts by weight. In the comments on the organic pigments of the pigment-containing interlayer, the relevant figures are calculated from the "lutro" weight, i. air-dry parts by weight, minus the proportion by weight of water around and inside the pigments in their form of delivery.

The invention will be further clarified by means of the following examples according to the invention and the comparative examples:

For forming a paper web as a web-shaped substrate for both inventive and comparative heat-sensitive recording materials a paper pulp of eucalyptus pulp and other pulp fibers with fillers and water is applied in a mixing chest. Further constituents of the pulp to be added are resin size for engine sizing with an amount of 0.6% by weight (atro), based on the total weight of the pulp, and also other customary additives, such as, for example, pigments and / or optical brighteners. After completion of the pulp this is then fed to a fourdrinier paper machine, where it is processed into a paper web with a basis weight of 69 g / m ² .

• □ eine Pigmentmischung aus Hohlkörperpigment und kalziniertem Kaolin,
• □ Styrol-Butadien-Latex als Bindemittel,
• □ Stärke als Cobinder

und weitere Hilfsmittel auf.After a slight calendering, the paper web is fed into a roller blade coater integrated in the paper machine, where it is coated on the front side with a pigmented intermediate layer having a basis weight of 9 g / m ² . In this case, the coating composition used for the formation of the intermediate layer

• □ a pigment mixture of hollow body pigment and calcined kaolin,
• □ styrene-butadiene latex as a binder,
• □ starch as cobinder

and other aids.

The paper web is dried within the paper machine by means of radiant heaters and in contact with hot rolls, smoothed here in a Mehrwalzenglättwerk and then rolled up as Halbfertigpapiertambour.

The thus prepared Halbfertigpapiertambour is fed to a coating machine, where the continuously rewound paper web is fed to a doctor blade coater, where the application of prepared coating compositions each for forming heat-sensitive recording layers each having a basis weight of 4.2 g / m ² on the previously applied and already dried pigmented intermediate layer happens. As components of the coating composition used for forming the heat-sensitive recording layer, there are used:

The heat-sensitive recording layer is then dried by means of a hot-air float dryer and in contact with hot rolls and smoothed in a Mehrwalzenglättwerk. Finally, the reeling of the now completed inventive and comparative heat-sensitive recording materials takes place.

To assess the thus completed inventive and comparative heat-sensitive recording materials samples are taken as a smaller paper strips and prepared for further testing.

For metrological detection of the dynamic printing density in ODU (= Optical Density Units, according to DIN 16536-1, May 1997 issue) is in each case a black and white squared-designed Thermoprobeausdruck with a device of the type Atlantek 400 from Printrex (USA) using a thermal head with a resolution of 300 dpi and an energy per unit area of 11.7 mJ / mm ² . The print density even of the black-colored areas are measured with the densitometer Gretag MacBeth TYPE D19C NB / U (Gretag MacBeth, 8105 Regensdorf, Switzerland), where the dynamic printing densities are measured at three points for each measured value and the arithmetic mean is formed from the three individual values becomes. The values thus obtained can be found in the penultimate row of Table 1; they show a still good dynamic print density in the inventive examples 1 to 3 and a conspicuous, but not yet completely clarified additional effect of the pigments: while the use of calcium carbonate, the dynamic printing density to a quite acceptable level breaks, is the use of Kaolin the dynamic printing density very good. When the gallic acid stearyl ester is omitted as a representative of the color acceptor (compounds) of formula (1) in Comparative Example 2, the dynamic printing density decreases unacceptably, with the elimination of the secondary color acceptor in Comparative Example 1, the dynamic printing density increases significantly.

The Elrepho 3000 (illuminant D 65/10) was used as a measuring instrument when considering the color loci of the thermoprobographical printouts already examined with regard to the dynamic print density. The thermoprobographical prints were measured twice, once before and once after a seven-day storage at 40.degree 95% humidity. Of interest is the change in the color locus, which is easily recognizable when considering the individual values of the L * a * b * color space (as defined in DIN EN ISO 11664-4), because the L * value is more likely to be the Brightness of a measurement site, the a * value reflects its red / green orientation and the b * value its blue / yellow orientation. The difference values with regard to the b * components of the L * a * b * values can be found in the last row of Table 1. They show an unacceptable yellowing in the Thermoprobeausdrucken of Comparative Example 1, here lacks the effect of the secondary Farbakzeptors, Comparative Example 2 has virtually no yellowing, here lacks Gallussäurestearylester as a representative of the color acceptor (compounds) according to formula (1). In the examples according to the invention, one sees the negative influence of calcium carbonate - the samples turn yellow quite intensively, aluminum hydroxide is already very well suited as a pigment, kaolin is outstanding in this context.

In summary, the examples fully confirm the expectations and demonstrate the advantages of a thermosensitive recording material as claimed.

Claims (13)

Heat-sensitive recording material comprising □ a web-shaped substrate, having a front side and a rear side opposite it At least one heat-sensitive recording layer on at least one of the two sides of the web-shaped substrate, characterized in that the heat-sensitive recording layer contains, as a color acceptor, a combination, at least from one, two, three or more than three dye acceptor compounds of formula (1)

with R is an alkyl group, and at least one secondary color acceptor containing oligomers of lactic acid corresponding to formula (3)

A heat-sensitive recording material according to claim 1, characterized in that the R in formula (1) is an alkyl group comprising 1 to 25 carbon atoms. Heat-sensitive recording material according to one of claims 1 and 2, characterized in that the heat-sensitive recording layer as a color acceptor contains a combination, at least from one, two, three or more than three dye acceptor compounds of formula (1)

with R is an alkyl group, and at least one secondary color acceptor containing one molecule or formed from one molecule
an n-valent acid and oligomers of lactic acid grouped n times around this acid according to formula (3).

A heat-sensitive recording material according to any one of claims 1 to 3, characterized in that the heat-sensitive recording layer as a color acceptor contains a combination, at least from gallic acid stearyl ester - And from a molecule as a secondary color acceptor from a central Oxalsäuremolekül and two oligomers of lactic acid. A heat-sensitive recording material according to any one of claims 1 to 3, characterized in that the heat-sensitive recording layer as a color acceptor contains a combination, at least from gallic acid stearyl ester - And from a molecule as a secondary color acceptor from a central citric acid molecule and three oligomers of lactic acid. Heat-sensitive recording material according to one of Claims 1 to 5, characterized in that the ratio (% by weight) of
Color acceptor compounds according to formula (1) to secondary color acceptors containing oligomers of lactic acid according to formula (3)
in a range of 3.25: 1 to 1: 1
lies. A heat-sensitive recording material according to any one of claims 1 to 6, characterized in that the heat-sensitive recording layer has as dye precursor at least one substance selected from the list comprising: 3-diethylamino-6-methyl-7-anilinofluoran, 3-dibutylamino-6 -methyl-7-anilinofluoran, 3- (N -methyl-N-propyl) amino-6-methyl-7-anilinofluoran, 3- (N-ethyl-N-isoamyl) amino-6-methyl-7-anilinofluoran, 3 (N-methyl-N-cyclohexyl) amino-6-methyl-7-anilinofluoran, 3- (N-ethyl-N-tolyl) amino-6-methyl-7-anilinofluoran and 3- (N-ethyl-N- tetrahydrofuryl) amino-6-methyl-7-anilinofluoran. A heat-sensitive recording material according to claim 7, characterized in that the ratio by weight of (atro) of
Fluoranase-based dye precursor to the color acceptor compounds according to formula (1)
in a range of 1: 1.5 to 1: 2.5
lies. A heat-sensitive recording material according to any one of claims 1 to 8, characterized in that the heat-sensitive recording layer contains as binder a substance selected from the list comprising: polyvinyl alcohol, ethylene-vinyl alcohol copolymer or a combination of polyvinyl alcohol and ethylene-vinyl alcohol copolymer. Heat-sensitive recording material according to one of the claims 1 to 9, characterized in that the heat-sensitive recording layer next to the color acceptor combination, at least one dye precursor, - a binder additionally contains a pigment. A heat-sensitive recording material according to claim 10, characterized in that the pigment in the heat-sensitive recording layer is a pigment selected from the list comprising kaolin and aluminum (hydr) oxide. A heat-sensitive recording material according to any one of claims 10 and 11, characterized in that the amount of the pigment in the heat-sensitive recording layer based on the total weight of the heat-sensitive recording layer is in a range of 8 to 18% by weight (atro). A heat-sensitive recording material according to any one of claims 1 to 12, characterized in that the heat-sensitive recording material further comprises a pigment-containing intermediate layer disposed between the substrate and the heat-sensitive recording layer.