DD200109A1 - MAGNETIC ONE-COMPONENT DEVELOPER AND METHOD FOR THE PRODUCTION THEREOF - Google Patents

Abstract

The invention relates to a magnetic Einkomponentenentwickler. This developer is a dry developer that can be used in magnetic brush development in printing and copying machines. iel the invention is to provide a magnetic Einkomponentenentwicklers with homogeneously distributed soft magnetic pigments in a thermoplastic. The technical object of the invention is to disperse or dissolve the soft magnetic pigments and all necessary additives in a suitable monomer or monomer mixture or solvent and subsequently to produce magnetizable polymer particles by suspension polymerization or by spray drying or mechanical reduction of block polymer. The object is achieved in that the developer consists of 5-20 parts of thermoplastic polymers and / or oligomers, of 1-10 parts of carbon black and / or dyes, from 5-20 parts of special additives, such as plasticizers, anti-offset agents, antistatic agents and 1- 10 parts of protective colloids.

Description

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Title of the invention

One-component magnetic developer and method for its production 5

Field of application of E ^ find ^ n ^ q

The invention relates to a magnetic Einkomponentenentwickler. This developer is a dry developer that can be used in magnetic brush development in printing and copying machines,

Characteristic of the beka nt n e n technical solutions

The one-component magnetic developers consist of a physical mixture containing thermoplastic binders, magnetic pigments, colorants and other additives such as lubricants, anti-offset agents and charge control additives .

As magnetic pigments are usually Fe ₃ O ₄ or ^ -Fe ₃ O ₃ with particle sizes of 10 to 100, to, as thermoplastic. Binder-z. As epoxy resin, polyester, polyamides, polyolefins, polystyrene or vinyl resins used as coloring ingredients are pigments such as carbon blacks or synthetically prepared dyes, eg. As Sudan dyes, as lubricants SiO2 and as a plasticizer fatty acid esters, such as butyl stearate used

 There have already been macromolecular masses with superparamag

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netic properties proposed, which consist of polymers in which soft magnetic fillers are included (DD-WP C08K / 210814).

However, the products are not suitable as developer material in the described composition. The developer particles are produced either by spray-drying a solvent suspension or by grinding a hardened polymer-dye mixture with possibly subsequent particle forming in a stream of hot air. The methods follow a particle size classification. The spray drying is carried out either with an aqueous dispersion containing modified magnetic pigments and all necessary additives (DE-OS 2,649,940, DE-OS 2,649,591), or lüit a suspension whose dispersion medium is an organic solvent, usually carbon tetrachloride, methylene chloride ( DE-OS 2,648,258, DE-OS 2,818,825), acetone, toluene and chloroform (DE-OS 2,648,258)

 After the milling process, the magnetic pigments and the additives are incorporated by kneading into the heated binder. After cooling, the mass is pulverized and then sieved (DE-OS 2 644 850, DE-OS 2 834 309). A special process is the coating of FBgO 2 particles in a magnetic field controlled fluidized bed with sprayed binder particles {DE-OS 2 849 644).

The disadvantages of the method consist in _t that a high expenditure on equipment, energy and in some cases is necessary to organic solvents. Furthermore, complicated and thus possibly prone to failure technologies are necessary.

The processed solvents make great demands on occupational safety, fire and explosion protection and environmental protection.

Object of the invention

The aim of the invention is to provide a magnetic

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One-component developer with homogeneously distributed soft magnetic pigments in a thermoplastic.

Essence of the invention 5

Technical task

The technical object of the invention is to disperse or dissolve the soft magnetic pigments and all necessary additives in a suitable monomer or monomer mixture or solvent and then to produce polymerizable polymer particles by suspension polymerization or by spray drying or mechanical comminution of block polymer

Features of the invention

According to the invention, this object is achieved in that the developer comprises 5-20 parts of soft magnetic particles, 30-60 parts of thermoplastic polymers and / or oligomers, 1-10 parts of carbon black and / or dyes, 5-20 parts of special additives, such as plasticizers, anti-offset agents, antistatic agents and 1-10 parts protective colloids.

Execution example

The invention will be explained below with reference to exemplary embodiments

 30

Example 1:

The starting point is a stable magnetizable dispersion of magnetite particles in styrene. The preparation is carried out by precipitation of iron salts with concentrated alkalis and subsequent hydrophobization of the iron oxide particles, in order to start polymerization of the monomer phase in the

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To prevent transfer of the hydro ^ tabierten particles is carried out under inert gas atmosphere and at temperatures below 50 ° C.

To 60 ml of a freshly prepared stable, low viscosity magnetite dispersion in styrene (30-40% by weight of Fe 2 O 3), 5 g of carbon black (Orga E), 2 ml of n-butyl stearate and 0.7 g of benzoyl peroxide are added and mixed thoroughly * The filler-containing monomer phase is distributed at a constant stirring speed of 500 rpm in 500 ml of an aqueous polyvinyl alcohol solution {20 g PVA / 1). »The aqueous medium additionally contains 0.5 g of sodium dodecylsulfonate and 10 ml of concentrated ammonium hydroxide solution carried out at a temperature of 70 ° C under a nitrogen atmosphere * After 5 hours, the reaction is complete. The iron oxide-containing polystyrene particles slowly settle on the vessel. soil and are separated by means of a permanent magnet of the aqueous phase. The polymer is washed 1-2 times with warm water (T <. 70 ^° C.), dried and classified. The magnetizable polymer contains more than 50% by weight of magnetite.

Example 2;

The monomer phase consists of a stable, magnetisable magnetite dispersion based on styrene and methacrylic acid butyl ester in a ratio of 1: 1 with a solids content of 45 % by weight of magnetite.

To 60 ml of monomer are added 0 _f 48 g of azobisisobutyronitrile and 0.1 g of lauric acid and distributed in 500 ml of an aqueous .PVA solution (10 g PVA / l). The polymerization proceeds Ьѳі! Б5 ° C and under a nitrogen atmosphere. After 7 hours is. the reaction ends. The polymer is removed from the aqueous phase, washed and dried. The solid content of the polymer particles is 60% by weight of magnetite and the average particle diameter is 20 μm.

Example 3;

100 ml of a stable magnetic text dispersion in styrene (30 -

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35 wt .-% ^Fe 3 ^ 4 ^ WS '"' ¹ ' ⁶¹¹ 2 g of carbon black and 2 g of neozaphone and subjected to a suspension polymerization as in Examples 1 and 2. The polymerized magnetisable end product is dissolved in 100 ml.Methylenchlorid and with the aid The content of the polymer particles varies between 40 and 50% by weight of magnetite with an average particle size of 30 μm.

Example 4 j

100 ml of a stable Magnetitdispersion in carbon tetrachloride (40 - 50 wt -.% Fe ₃ O ₄₎ 1.3 g of Sudan "B and 50 g of polyvinylidene chloride are mixed with 1.5 g of carbon black were mixed and spray-dried particles are created with 50 wt. % Magnetite and particle diameter of 5 - 50 μm.

Example 5;

From 100 ml of a stable magnetite suspension based on benzene (50 wt .-% Fe ₃ O ₄ ), the benzene is evaporated and then the solid, 5 g of carbon black and 5 ml Diisooctyladipinat in a copolymer of polystyrene and n-methyl methacrylate (monomer ratio 1: 3) incorporated by means of a kneading machine. Thereafter, the solid mass is crushed and refinished to particle formation in a hot air stream.

In the first process step, a stable, concentrated suspension with magnetizable particles, such as Fe ~ p _A »is prepared as a disperse phase and liquid organic monomers or monomer mixtures, as described in the patent (DD-WP HOlF / 224 754). In order to prevent an uncontrolled, early polymerization, the sol is obtained under a protective gas atmosphere, such as N, for the end product suitable monomers are z. For example, olefins such as vinyl chloride, styrene, vinylidene chloride and Alky! Methacrylate, such as n-butyl methacrylate, and mixtures of several components. To this sol having a pigment content of 30 to 60% by weight, preferably 40 to 55% by weight, necessary additives such as

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ζ. B. Spilon or oil black or lubricants, ^ _e w butyl stearate and initiators such Benzylpeгox id or isobutyronitrile admixed * These substances should _n no surfactant properties and must be readily soluble in the monomer, otherwise the starting sol coagulates _{un (j} for the subsequent second process step is not operational.

The thus prepared, containing all the necessary additives in homog _ener distribution, stable sol is then ^ _n <j _he second stage of suspension polymerization _un _ terworfen * For this purpose, the suspension, for example divided by means of _a egg _nes Rührere in an aqueous medium. To a _high degree of division. to reach the water surface-active compounds and _CLOSE g _e "macromolecular stabilizers are set. As a result, on the one hand, the interfacial tension sol / water is reduced and, on the other hand, agglomeration of the droplets formed is prevented. As surface-active substances are Noniontcs, such as. B, nonylphenol with 20 äthpxylierten groups or anionics such as long chain sulfonates ді ₈ macromolecular stabilizers may be used PolyvinyIaIkOh _0] ^ _0- ρ lyvinylpyrrolidon or gelatin. The Zertei, i _un g _S _ degrees is further enhanced if the aqueous Phas ^ is alkalized weak using ammonium hydroxide, because d _ann may occur a spontaneous emulsification * The inventive measures average Teilehg _n sizes below 20 to, surprisingly even at 5, to obtain _s »Although the sol has a higher viscosity than the pure monomer due to the high solids content, which counteracts animal fragmentation. It is also possible to carry out the dicing process in _{such a} way that a subsequent classification of the resulting polymer particles is unnecessary, Z _- в. the by adding small quantities of lauric acid i _n i ^ ₆ monomer can be achieved. After the division i _n droplets of the desired diameter, has _occurred , wi _rc | canceled 80 ⁰ C.The polymerization at a specific degree of polymerization, _we ± i, the oligomer good performance characteristics _De _ - by increasing the temperature to 60

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sitting. The polymerization can be stopped when an approximately 1% hydroquinone solution in hexane is added to the suspension. If the monomer is completely polymerized, this process is complete after about 5-7 hours. Thereafter, the particles are separated from the aqueous solvent, which can be carried out by filtration, expediently under the influence of a magnetic field, wherein a lot of washing water is followed by a successive dissolution of the polyvinyl alcohols. The sorbed amount of the protective colloid determines the degree of flowability of the dry product, so that in this way the flowability is adjustable.

The process of suspension polymerization has economic advantages over conventional methods such as spray-drying a solvent suspension or incorporating the magnetic solid into a molten polymer. However, this does not exclude that the usual methods are also used for the preparation of one-component developers with soft magnetic pigments. It can be advantageously assumed that concentrated, stable magnetic sols whose use brings advantages in any case. Thus, when using spray-drying, the magnetol is expediently prepared on the basis of suitable solvents, such as chlorinated hydrocarbons. * If the dispersion medium of the magnetic brine is evaporated, the soft-magnetic pigment is obtained as a solid. The solid particles are enveloped by a layer of surface-active substances whose physical properties are matched to those of the polymer. This makes it easier to incorporate the particles into molten polymers and the properties of the polymer are largely retained even at high solids contents. The invention advantageously leads to magnetizable one-component developers with improved properties, which is achieved by the advantages of the magnetic material used and by the homogeneous distribution of the pigment.

Claims (14)

-v-232263 8 Invention claim A one-component magnetic developer for electrophotographic development composed of ferromagnetic particles, thermoplastics and additives having particle sizes of 5 to 40 μm, characterized in that the developer consists of 5-20 parts of soft magnetic particles of 30-60 parts thermoplastic polymers and / or oligomers _e from 1-10 parts
Soot and / or dyes, from 5-20 parts more special
Additives »such as plasticizers, anti-offset agents, antistatic agents, and consisting of 1-10 parts protective colloids * 2- Magnetic monocomponent developer according to item 1, characterized in that the magnetizable particles are preferably made of. Fs "0 ₄ or!" - Fe-Og with particle diameters between 5 and 20 nm. 3. Magnetic one-component developer according to item 1, characterized in that the thermoplastic polymers or * oligomers of polystyrene, polyvinyl chloride, polyvinylidene chloride, polyalkyl methacrylate or from copolymers η of individual components led to
Connections exist «
25 4. Magnetic one-component developer according to item I ₁ . characterized in that the magnetizable particles, carbon black and other additives are homogeneously distributed in the polymeric phase. Magnetic monocomponent developer according to item 1, characterized in that as plasticizers higher esters, such as butyl phthalate, and as dyes, e.g. 1,4-dimethylamino anthrachione, Sudan. Black, oil black, Spi lon black, to be used   6. A process for the preparation of the magnetic one-component developer according to item 1, starting from stable, con -232263 8 centered sols with magnetisable particles as disperse phase and liquid, organic monomers or monomer mixtures as dispersion medium, characterized in that the sol is arranged in fine distribution after addition of initiators and optionally dyes and plasticizers in an aqueous medium and that the droplets formed at temperatures between 40 and 90 C, preferably between 60 and 80 ⁰ C, and n is at ReaWtionszait & 5-10 hours polvmerisieren and that subsequently the separation of the particles from the aqueous medium, 7. Method nac, h point 6, characterized in that is provided as an initiator benzoyl peroxide, 8, method according to item 6, characterized in that it is provided as an initiator Bisisobutyronitril. 9, method according to item 6 _a, characterized in that the aqueous medium contains surface-active compounds, 10 * Process according to item 6 and 9 », characterized in that mixtures of surfactants and protective colloids are provided as surface-active compounds. 25 11 * Method according to item 10, characterized in that ethoxylated nonionic phenols are provided as surfactants * 12 · Method according to item 10, characterized in that polyvinyl alcohol is provided as the protective colloid. 13. The method according to item 10, characterized in that ^ Is protective colloid Gelaηtine is provided 14 · Method according to item 10, characterized in that the protective colloid is polyvinylpyrrolidone.