IMAGING APPARATUS AND TONER THEREFOR RELATED APPLICATIONS FIELD OF THE INVENTION The present invention relates to image forming and image transfer apparatus especially for use in electrostatic imaging using an intermediate transfer blanket and to toner materials especially useful for electrostatic imaging using an intermediate transfer member. BACKGROUND OF THE INVENTION The use of an intermedi ate trans fer member in electrostatic imaging is well known . Generally , toner materials for use with such blankets are similar to those used for direct transfer from a photoreceptor to a final substrate, such as paper. Various types of intermediate transfer members are known and are described , for example in U . S . Patents 3 , 862 , 848 , 4 , 684 , 238 , 4 , 690 , 539 , 4 , 531 , 825 , 4 , 984 , 025 , 5,047,808, 5,089,856, 5,335,054, US Patent applications USSN 08/116,198, METHOD AND APPARATUS FOR IMAGING USING AN INTERMEDIATE TRANSFER MEMBER, filed September 3, 1993; USSN 07/400,717, METHOD AND APPARATUS FOR IMAGING USING AN INTERMEDIATE TRANSFER MEMBER, filed August 30, 1989; USSN 08/115,803 LIQUID DEVELOPER IMAGING SYSTEM HAVING A HEATED INTERMEDIATE TRANSFER MEMBER, filed September 3, 1993; USSN 07/351,456 COLOR IMAGING SYSTEM, filed May 15, 1989 and a US patent application filed October 11, 1994 titled IMAGING APPARATUS AND INTERMEDIATE TRANSFER MEMBER THEREFOR to David EDAN et al. , the specifications of all of which are incorporated herein by reference. Removable intermediate transfer blankets for attachment to a drum for use in electrostatic images are described in a number of the above referenced patents and applications. It has been found that the lifetime of such blankets appears to be limited at least in part by loss of surface properties of the blanket. In particular, such blankets are generally coated with a release layer, preferably a silicone

release material. It appears that the release properties of the release material deteriorates with use. In U.S. Patent 5,192,638, the specification of which is incorporated herein in its entirety, Landa et al introduced a new liquid toner comprising a carrier liquid such as a light mineral oil and pigmented toner particles having fibrous extensions. The mineral oils described in the above referenced patent were Isopar L and M (TM) type saturated hydrocarbon liquids having a high Kauri-Butanol number and a high resistivity. Many other mineral oils such as Marcol 82 or other carrier liquids for liquid toner as are known in the art, are also suitable for the toner type of U.S. Patent 5,192,638, depending on the overall characteristics specified for the toner. Marcol 82 has a very low volatility and images produced from toners that use Marcol 82 generally have poor abrasion resistance. A characteristic of these toners is that they solvate the carrier liquid at elevated temperatures but are substantially insoluble in the carrier liquid at room temperature. Other patents and publications that describe preferred embodiments of this toner type and additives useful in the toner are U.S. Patents 5,300,390; 5,286,593; 5,208,130;, 5,266,435; 5,264,313; and 5,225,306 and in PCT publications WO 94/ 02887 the di sclosures of which are incorporated herein by reference . SUMMARY OF THE INVENTION The present invention seeks to provide , in one aspect thereo f , improved image trans f er apparatus u sing an intermediate transfer member and a liquid toner and having an improved longevi ty o f the intermedi ate trans f er member . The present invention further seeks to provide, in a second aspect thereof, an improved liquid toner that, when used with an intermediate transfer member results in an improvement in the life of the intermediate transfer member over what it would have been with prior art toners.

The present invention further seeks to provide, in a third aspect thereof, liquid toner components for use in the liquid toner of the invention. There is thus provided in accordance with a preferred embodiment of the invention, imaging apparatus comprising: an imaging surface having a liquid toner image formed thereon, said image comprising toner particles and carrier liquid, wherein the carrier liquid comprises as a major component, a liquid, preferably a liquid hydrocarbon, that evaporates relatively quickly at room temperature, and as a minor component, a liquid, preferably a liquid hydrocarbon, that evaporates relatively slowly at room temperature; and an intermediate transfer member having a release outer layer that receives the toner image from the imaging surface and from which it is subsequently transferred. Preferably, the release outer layer solvates the carrier liquid and is swelled by it. There is further provided in accordance with a preferred embodiment of the invention a liquid developer comprising : toner particles ; and carrier liquid, wherein the carrier liquid comprises as a maj or component , a l iquid , pref erably a l i quid hydrocarbon , that evaporates relatively quickly at room temperature, and as a minor component, a liquid, preferably a liquid hydrocarbon , that evaporates very slowly at room temperature. Preferably, said minor component comprises between 0.2 and 2% and wherein said major component comprises between 98% and 99.7% of the total amount of said carrier liquid. Preferably, the major component evaporates at least about an order of magnitude more quickly than the minor componen . Preferably, the major component has a vapor pressure at 100°F of greater than 0.05 psia when measured according to ASTM standard D 2879.

There is further provided, in accordance with a preferred embodiment of the invention, a mixture of liquid hydrocarbons substantially comprising between 0.5 and 4% of a substantially non-conducting liquid, preferably, a liquid hydrocarbon, that evaporates very slowly at room temperature and between 96% and 99.5% of a substantially non-conducting liquid, preferably a liquid hydrocarbon, that evaporates at least an order of magnitude more quickly. Preferably, the mixture further comprises a charge director for liquid toner particles. In a preferred embodiment of the invention, the carrier liquids are hydrocarbons wherein the hydrocarbon that evaporates relatively quickly has a vapor pressure at 100°F of greater than 0.05 psia when measured according to ASTM standard D 2879 and a 95% evaporation time at room temperature of less than 10 hours, preferably, less than 6 hours and the liquid hydrocarbon that evaporates relatively slowly has an evaporation time at least about an order of magnitude greater than 10 hours. Alternatively, other carrier liquids suitable for use in liquid toners such as fluorocarbons, silicones, etc. , may be used in the practice of the broadest aspects of the invention. In a preferred embodiment of the invention the release coating absorbs the carrier liquid and is swelled by it.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be understood and appreciated more fully from the following detai led description, taken in conj unction with the drawings in which: Fig . 1 is a simplified sectional illustration of electrostatic imaging apparatus constructed and operative in accordance with a preferred embodiment of the present invention; Fig. 2 is a simplified enlarged sectional illustration of the apparatus of Fig. 1; and Fig. 3 shows a layered intermediate transfer blanket in accordance with a preferred embodiment of the invention. DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Reference is now made to Figs. 1 and 2 which illustrate a multicolor electrostatic imaging system constructed and operative in accordance with a preferred embodiment of the present invention. As seen in Figs. 1 and 2 there is provided an imaging sheet, preferably an organic photoreceptor 12, typically mounted on a rotating drum 10. Drum 10 is rotated about its axis by a motor or the like (not shown), in the direction of arrow 18, past charging apparatus 14, preferably a corotron, scorotron or roller charger or other suitable charging apparatus as are known in the art and which is adapted to charge the surface of sheet photoreceptor 12. The image to be reproduced is focused by an imager 16 upon the charged surface 12 at least partially discharging the photoconductor in the areas struck by light, thereby forming the electrostatic latent image. Thus, the latent image normally includes image areas at a first electrical potential and background areas at another electrical potential. Photoreceptor sheet 12 may use any suitable arrangement of layers of materials as is known in the art, however, in the preferred embodiment of the photoreceptor sheet, certain of the layers are removed from the ends of

the sheet to facilitate its mounting on drum 10. This preferred photoreceptor sheet and preferred methods of mounting it on drum 10 are described in a co- pending application of Belinkov et al . , IMAGING APPARATUS AND PHOTORECEPTOR THEREFOR , f i led September 7 , 1994 , assigned serial number 08/301 , 775 , the disclosure of which i s incorporated herein by reference . Al ternatively , photoreceptor 12 may be deposited on the drum 10 and may form a continuous surface. Furthermore, photoreceptor 12 may be a non-organic type photoconductor based, for example, on a compound of Selenium. Imaging apparatus 16 may be a modulated laser beam scanning apparatus , an optical focusing device for imaging a copy on a drum or other imaging apparatus such as is known in the art . Also associated with drum 10 and photoreceptor sheet 12 , in the preferred embodiment of the invention , are a multicolor liquid developer spray assembly 20, a developing assembly 22 , color specific cleaning blade assemblies 34 , a background cleaning station 24, an electrified squeegee 26 , a background discharge device 28 , an intermediate transfer member 30 , cleaning apparatus 32 , and , opt ional ly , a neutralizing lamp assembly 36. Developing assembly 22 pref erably inc l udes a development roller 38. Development roller 38 is preferably spaced f rom photoreceptor 12 thereby f orming a gap therebetween of typically 40 to 150 micrometers and is charged to an electrical potential intermediate that of the image and background areas of the image. Development roller 38 is thus operative, when maintained at a suitable voltage, to apply an electric field to aid development of the latent electrostatic image . Development roller 38 typically rotates in the same sense as drum 10 as indicated by arrow 40. This rotation provides for the surface of sheet 12 and development roller 38 to have opposite velocities at the gap between them.

Multicolor liquid developer spray assembly 20 , whose operation and structure is described in detail in U . S . Patent 5 , 117 , 263 , the disclosure of which is incorporated herein by reference , may be mounted on axis 42 to allow assembly 20 to be pivoted in such a manner that a spray of liquid toner containing electrically charged pigmented toner particles can be directed either onto a portion of the development roller 38 , a portion of the photoreceptor 12 or directly into a development region 44 between photoreceptor 12 and development roller 38. Alternatively, assembly 20 may be f ixed . Preferably , the spray i s preferably directed onto a portion of the development roller 38. Color specific cleaning blade assemblies 34 are operatively associated with developer roller 38 for separate removal of residual amounts of each colored toner remaining thereon after development. Each of blade assemblies 34 is selectably brought into operative association with developer roller 38 only when toner of a color corresponding thereto is supplied to development region 44 by spray assembly 20. The construction and operation of cleaning blade assemblies is described in PCT Publication WO 90/14619 and in US patent 5,289,238, the disclosures of which are incorporated herein by reference. Each cleaning blade assembly 34 includes a toner directing member 52 that serves to direct the toner removed by the cleaning blade assemblies 34 from the developer roller 38 to separate collection containers 54, 56, 58, and 60 for each color to prevent contamination of the various developers by mixing of the colors. The toner collected by the collection containers is recycled to a corresponding toner reservoir (55, 57, 59 and 61). A final toner directing member 62 always engages the developer roller 38 and the toner collected thereat is supplied into collection container 64 and thereafter to reservoir 65 via separator 66 that is operative to separate relatively clean carrier

liquid from the various colored toner particles. The separator 66 may be typically of the type described in U.S. Patent 4,985,732, the disclosure of which is incorporated herein by reference. In a preferred embodiment of the invention, as described in U.S. Patent 5,255,058, the disclosure of which is incorporated herein by reference, where the imaging speed is very high, a background cleaning station 24 typically including a reverse roller 46 and a fluid spray apparatus 48 is provided. Reverse roller 46 which rotates in a direction indicated by arrow 50 is electrically biased to a potential intermediate that of the image and background areas of photoconductive drum 10, but different from that of the development roller. Reverse roller 46 is preferably spaced apart from photoreceptor sheet 12 thereby forming a gap therebetween that is typically 40 to 150 micrometers. Fluid spray apparatus 48 receives liquid toner from reservoir 65 via conduit 88 and operates to provide a supply of preferably non-pigmented carrier liquid to the gap between sheet 12 and reverse roller 46. The liquid supplied by fluid spray apparatus 48 replaces the liquid removed from drum 10 by development assembly 22 thus allowing the reverse roller 46 to remove charged pigmented toner particles by electrophoresis from the background areas of the latent image. Excess fluid is removed from reverse roller 46 by a liquid directing member 70 that continuously engages reverse roller 46 to collect excess liquid containing toner particles of various colors which is in turn supplied to reservoir 65 via a collection container 64 and separator 66. The apparatus embodied in reference numerals 46, 48, 50 and 70 is not required for low speed systems, but is preferably included in high speed systems. Preferably, an electrically biased squeegee roller 26 is urged against the surface of sheet 12 and is operative to remove liquid carrier from the background regions and to

compact the image and remove liquid carrier therefrom in the image regions . Squeegee roller 26 is preferably formed of resilient slightly conductive polymeric material as is well known in the art, and is preferably charged to a potential of several hundred to a few thousand volts with the same polarity as the polarity of the charge on the toner particles. Discharge device 28 is operative to flood the sheet 12 with light that discharges the voltage remaining on sheet 12, mainly to reduce electrical breakdown and improve transfer of the image to intermediate transfer member 30. Operation of such a device in a write black system is described in U.S. Patent 5,280,326, the disclosure of which is incorporated herein by reference. Figs. 1 and 2 further show that multicolor toner spray assembly 20 receives separate supplies of colored toner typically from four different reservoirs 55, 57, 59 and 61. Figure 1 shows four different colored toner reservoirs 55, 57, 59 and 61 typically containing the colors Yellow, Magenta, Cyan and, optionally, Black respectively. Pumps 90, 92, 94 and 96 may be provided along respective supply conduits 98, 101, 103 and 105 for providing a desired amount of pressure to feed the colored toner to multicolor spray assembly 20. Alternatively, multicolor toner spray assembly 20, which is preferably a three level spray assembly, receives supplies of colored toner from up to six different reservoirs (not shown) which allows for custom colored tones in addition to the standard process colors. Additionally, in response to measurements of the liquid toner in reservoirs 55, 57, 59 and 61, toner concentrate from concentrate containers 84, charge director concentrate from containers 82 and replenishment liquid from container 86 are added to the respective reservoirs. In particular, as is well known in the art, toner concentrate is added to the reservoirs in response to a reduced concentration of toner particles in the reservoirs. As is well known in the art,

such concentration is preferably measured optically. Charge director is added in response to reduced conductivity of the toner in the reservoirs . Replenishment liquid is added in response to a reduction in the volume of liquid in the reservoirs. A preferred type of toner for use with the present invention is that described in Example 1 of U.S. Patent 4,794,651, the disclosure of which is incorporated herein by reference or variants thereof as are well known in the art and as are described in the patents, applications and publications listed in the Background of the Invention. Preferably the liquid toner is manufactured by one of the methods described in these patents applications and publications. For colored liquid developers, carbon black is replaced by color pigments as is well known in the art. Other liquid toners may alternatively be employed. While the invention is useful for a wide range of toner types preferred toners of the present invention have the following formulations: Black toner- about 16% Nucrel 925 (ethylene copolymer by DUPONT), about 0.4% BT583D (blue pigment produced by Cookson Pigments), about 4% Mogul L carbon black (Cabot), approximately 0.45% aluminum tristearate and charge director as described in US patent application 07/915,291 (utilizing lecithin, BBP and ICI G3300B) and in WO 94/02887 in an amount equal to 40 mg/gm of solids and the remainder 99.5% Isopar L and 0.5% Marcol 82. Magenta toner- about 15.5% Bynell 2002 (ethylene terpolymer by DUPONT), about 2.8% Finess Re F2B magenta pigment (Toyo Ink), about 0.14% Sico Fast Yellow D1355DD yellow Pigment (BASK) approximately 0.45% aluminum tristearate and charge director as described in US patent application 07/915,291 (utilizing lecithin, BBP and ICI G3300B) and in WO 94/02887 in an amount equal to 40 mg/gm of solids and the remainder 99.5% Isopar L and 0.5% Marcol 82. Cyan toner has a composition similar to that of the

96/13760 PCIVNL95/00030

magenta toner except that 2.36% of BT583D pigment (Cookson replaces the magenta pigment and the yellow pigment is reduced to 0.03%. The composition of the yellow toner is similar to that of the black toner except that 3.13% of yellow pigment is substituted for the pigment and carbon black of the black toner. It should be understood that the invention is not limited to the specific type of image forming system used and the present invention is also useful with any suitable imaging system that forms a liquid toner image on an image forming surface and transfers the image to an intermediate transfer member for subsequent transfer to a final substrate. The specific details given above for the image forming system are included as part of a best mode of carrying out the invention, however, many aspects of the invention are applicable to a wide range of systems as known in the art for printing and copying using liquid toners. Intermediate transfer member 30, an especially preferred embodiment of which is described the above referenced application of EDAN et al. , may be any suitable intermediate transfer member having a multilayered transfer portion such as those described in the US patents and patent applications incorporated above by reference. Furthermore, the blanket may be replaceable as described in the EDAN et al. application and may be mounted by any convenient means on the drum. Preferred mounting means for the blanket is shown in the EDAN et al. application. Member 30 is maintained at a suitable voltage and temperature for electrostatic transfer of the image thereto from the image bearing surface. Intermediate transfer member 30 is preferably associated with a pressure roller 71 for transfer of the image onto a final substrate 72, such as paper, preferably by heat and pressure. Cleaning apparatus 32 is operative to scrub clean the surface of photoreceptor 12 and preferably includes a

cleaning roller 74, a sprayer 76 to spray a non polar cleaning liquid to assist in the scrubbing process and a wiper blade 78 to complete the cleaning of the photoconductive surface. Cleaning roller 74 which may be formed of any synthetic resin known in the art for this purpose is driven in the same sense as drum 10 as indicated by arrow 80, such that the surface of the roller scrubs the surface of the photoreceptor. Any residual charge left on the surface of photoreceptor sheet 12 may be removed by flooding the photoconductive surface with light from optional neutralizing lamp assembly 36, which may not be required in practice. In accordance with a preferred embodiment of the invention, after developing each image in a given color, the single color image is transferred to intermediate transfer member 30. Subsequent images in different colors are sequentially transferred in alignment with the previous image onto intermediate transfer member 30. When all of the desired images have been transferred thereto, the complete multi-color image is transferred from transfer member 30 to substrate 72. Impression roller 71 only produces operative engagement between intermediate transfer member 30 and substrate 72 when transfer of the composite image to substrate 72 takes place. Alternatively, each single color image is separately transferred to the substrate via the intermediate transfer member. In this case, the substrate is fed through the machine once for each color or is held on a platen and contacted with intermediate transfer member 30 during image transfer. Drum 102 is preferably heated by an internal halogen lamp heater or other heater to aid transfer of the image to and from the release layer 109 to a final substrate as is well known in the art. Other heating methods, or no heating at all may also be used in the practice of some aspects of the invention. The degree of heating will depend on the characteristics of the toner and or ink used in conjunction

with the invention. Fig . 3 illustrates the salient feature of intermediate transfer member 30 in accordance with a preferred embodiment of the invention . Fig 3 shows a cross section of a multi- layer intermediate transfer mounted on a drum 102. Transfer blanket 100 ( whose details are given in the above mentioned EDAN patent application , but which are not particularly relevant to the present invention ) has , as a salient feature , a layered base portion 116 and release layer 109 that receives the liquid toner images from the intermediate transfer member and from which they are transferred to the final substrate . In a preferred embodiment of the invention the release layer is formed by diluting 6- 12 grams of RTV silicone 236 (Dow Corning) release material with 2 grams of Isopar L (Exxon) and mixing the result with 0.72 grams of Syl-off 297 (Dow Corning). A wire rod (bar No. 1) coating system is used, with five or six passes, under clean conditions to achieve an 8 micrometer release layer thickness. The material is cured at 140°C for two hours. The cured release material has a resistivity of between about 10 and 10 ohm-cm. In a preferred embodiment of the invention, the liquid toner in reservoirs 55 , 57 , 59 and 61 ( " the toner reservoirs" ) comprise approximately l%-2% of toner particles by weight , addi t ives as are known in the art and a relatively volatile hydrocarbon carrier liquid . This liquid can be characterized as being composed mainly of a carrier liquid that evaporates quickly and having less than 2 . 0% , preferably 0 . 2%- 2% , more preferably 0 . 5%- l% , of a very slowly evaporating component . In a preferred embodiment of the invention, the carrier liquids are hydrocarbons wherein the hydrocarbon that evaporates relatively quickly has a vapor pressure at 100 ° F of greater than 0 . 05 psia when measured according to ASTM standard D 2879 and a 95% evaporation time at room temperature of less than 10 hours ,

preferably, less than 6 hours and the liquid hydrocarbon that evaporates relatively slowly has an evaporation rate much greater than 10 hours. In particular, the slowly evaporating hydrocarbon has an evaporation rate of about an order of magnitude slower than that of the relatively evaporating material. The present inventors have found that addition of such small percentages of a hydrocarbon with a low volatility results in a two to three fold increase in the lifetime of the release surface of the blanket. While this phenomena is not completely understood, it is believed that during transfer of the image, by the intermediate transfer member, to the final substrate, carrier liquid is absorbed onto the surface of the blanket. The heating of the blanket described above causes the higher volatility component to evaporate, while leaving a coating of the lower volatility component as a protective coating on the blanket surface. While the lower volatility component is also evaporated from the blanket, due to the differences in volatility, the layer is replenished by succeeding imaging cycles so that the layer remains substantially of lower volatility component. The use of higher proportions of low volatility component is proscribed by its effect on the quality of the fusing of the image to the final substrate, and especially by the reduction in abrasion resistance that results. On the other hand as the proportion of low volatility component decreases, the increase in life of the blanket is believed to be reduced. In a preferred embodiment of the invention the relatively higher volatility component is Isopar L (EXXON) and the relatively lower volatility component is Marcol 82 (EXXON). Other high and low volatility components may be used, and the choice of component volatility and percentage in the carrier liquid will depend in some measure on the speed of the imaging process, the amount of carrier liquid in the image and background portions of the image

transferred to and from the intermediate transfer member and the temperature of the member. The small percentage of low volatility component can be incorporated into the liquid toner in a number of ways. One way is to add the desired proportion of low volatility component to the carrier liquid present in the concentrate, in the charge director concentrate and in the replenishment liquid. Alternatively, a higher percentage of low volatility component can be added to either the toner concentrate or the replenishment liquid, preferably to the replenishment liquid. It has been found that a replenishment liquid having 1% of Marcol 82 to 99% Isopar L works well. Other proportions, such as 0.5% to 4% Marcol 82 are also believed to give satisfactory results, however, between 1% and 2% Marcol 82 is preferred. It will be appreciated by persons skilled in the art that the present invention is not limited by the description and example provided hereinabove. Rather, the scope of this invention is defined only by the claims which follow: