COLOURIZED PEN WITH HIGH ELASTICITY AND PLASTICITY AND MANUFACTURING PROCESS THEREOF

Abstract

A colorized pen with high elasticity and plasticity is composed of 20-40 wt % of a high molecular polymer as a main part, 20-38 wt % of a white or colorless solid powder as a part for the color carrier, 2-20 wt % of a pigment as a coloration part, and 2-20 wt % of a suitable regulator as an auxiliary part. A process for manufacturing a colorized pen with high elasticity and plasticity comprises the following steps: mixing raw materials uniformly, then extrusion molding the same at 120 C.-250 C., cooling, curing and then cutting the same. The pen of the present invention has high elasticity and plasticity, is environmentally friendly and safe, and possesses a clear color during writing; its manufacturing process is simple and environmentally friendly, and it has a wide applicability and reliable safety.

Claims

1. A method for preparing a solid elastic-plastic color pen comprising the steps of: (1) providing a uniform mixture of: (a) a high-molecular polymer comprising a mixture of one or more of a polyester, a polyurethane, a polyolefin, and a polyvinyl chloride; (b) a white or colorless solid powder comprising a mixture of one or more of a carbonate, a silicate, a natural mineral powder containing carbonate and/or silicate, a glass powder and a lignocellulose powder; a color pigment comprising a mixture of one or more natural or synthetic monochromatic pigments; and (c) a conditioning agent comprising a mixture of one or more: a chlorinated paraffin, paraffin, dibutyl sebacate, diethyl phthalate, polyisobutylene succinimide, sorbitan monooleate, sorbitan monostearate, polycarbonate and abietin; (2) loading the uniform mixture into an extrusion molding device; (3) heating, extruding and stretching the extrusion at a temperature 100-250 C.; and (4) cooling the extruded stretched product whereby to form a solid extruded, self supporting elongate self supporting uniform body having sufficient elasticity to be bent in a U-shape without breaking.

2. The method of claim 1, wherein the uniform mixture comprises 20-40 wt. % high-volume molecular powder; 10-40 wt. % white or colorless solid powder; 2-20 wt. % color pigment; and 2-20 wt. % of said conditioning agent.

3. The method of claim 1, wherein the color pigment is selected from a group consisting of: red, pink, mauve, orange, saffron yellow, light yellow, grass green, green, sapphire, blue, purple and brown.

4. The method of claim 1, wherein the white or colorless solid powder further comprises a mixture of one or more of kaoline, diatomite, talcum powder, marble powder or montmorillonite.

5. The method of claim 1, wherein the white or colorless solid powder consists of a mixture of one or more of silicate and natural mineral powder containing silicate.

Description

DESCRIPTION OF FIGURES

[0014] FIG. 1 is a process schematic showing the method for preparing the high elastic-plastic color pen according to the present invention.

[0015] FIG. 2 is a process schematic showing the method for preparing the high elastic-plastic black pen according to the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0016] The high elastic-plastic color pen of the present invention uses 2040% high-molecular polymer as the main body, 2038% white or colorless solid powder as the chromatophore, 220% pigment as the chromosome and 220% conditioning agent; after mixing them to uniformity and then extrusion molding of the mixture at 120250 C., after being cooled, solidified and cut, the product of the present invention is obtained.

[0017] Wherein, high-molecular polymer is a mixture of one or more of polyester, polyurethane, polyolefin, polyvinyl chloride and rubber; solid powder is any one of carbonate, silicate, mineral powder (e.g. kaoline, diatomite, talcum powder, montmorillonite, etc.) containing carbonate and (or) silicate, glass powder or lignocellulose powder with the particle size less than 100 m; pigment is natural or synthetic monochromatic pigment of different color systems; conditioning agents are organic additives used to adjust elasticity and plasticity or improve processing performance, including bonding agents (e.g. organic ester compounds etc.), surfactants (e.g. stearic acid and its salts, alkane amine and its salts, etc.) and other additives (e.g. paraffin, chlorinated paraffin, polyamide, etc.).

[0018] The principle of the present invention is as follows: use white or colorless solid power as the chromatophore and the compound pigment mixed by monochromatic (base color) pigment as the chromosome; they are uniformly dispersed in high-molecular polymer through mixing and extrusion by means of the dispersity and cohesiveness of some organic additives at a certain temperature, so as to form a high-molecular composite material; after being cooled, solidified, shaped and cut, a color pen of the invention which has high elasticity, weather resistance and bright color and can be used for direct writing is formed.

[0019] The high elastic-plastic black pen of the invention can be obtained by using the above method, i.e. mixing three primitive colors, such as red, yellow and blue, to obtain black pigment, or by using the following method: use 2050% natural or/and artificial carbon-containing solid powder expressed in weight percentage as the pigment, 3060% high-molecular polymer as the carrier and 020% conditioning agent.

[0020] The steps of the method for preparing a high elastic-plastic black pen are as follows: firstly mix pigment, high-molecular polymer and conditioning agent in a high speed mixer to uniformity, then add the mixture into an extrusion molding device for heating, extrusion and stretching at 120250 C., and form a strip product with certain specification and size; after cooling and cutting of the strip product, a high elastic-plastic black pen can be obtained.

[0021] Wherein, carbon-containing powder is any one of coal dust, carbon powder, graphite powder, active carbon, carbon black and powdered charcoal with the particle size less than 100 m; high-molecular polymer is a mixture of one or more of polyester, polyurethane, polyolefin, polyvinyl chloride and rubber; conditioning agents are organic additives used to adjust elasticity and plasticity or improve processing performance, such as organic ester compounds, surfactants, etc.

[0022] The principle of the present invention is as follows: carbon-containing powder is a sort of natural or artificial black pigment; the pigment is uniformly dispersed in high-molecular polymer through mixing and extrusion by means of the dispersity and cohesiveness of some; organic additives at a certain temperature, so as to form a high-molecular composite material; after being cooled, solidified and shaped, a black pen which has elasticity, plasticity and weather resistance and can be used for direct writing is formed.

[0023] Hereunder the present invention will be further detailed with reference to the accompanying drawings.

[0024] FIG. 1 is a process schematic showing the method for preparing the high elastic-plastic color pen according to the present invention. As shown in FIG. 1, embodiments 1 to 15 are completed.

Embodiment 1

[0025] The formulation of a high elastic-plastic red pen is as follows:

[0026] 40 portions of polyvinyl chloride; 38 portions of calcium carbonate; 2 portions of pigment red; 10 portions of chlorinated paraffin; 5 portions of paraffin.

[0027] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 250 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic red pen is obtained.

Embodiment 2

[0028] The formulation of a high elastic-plastic pink pen is as follows:

[0029] 20 portions of polypropylene; 20 portions of polyethylene; 25 portions of calcium carbonate; 12 portions of talcum powder; 10 portions of pigment pink; 8 portions of chlorinated paraffin; 5 portions of stearic acid.

[0030] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 100 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic pink pen is obtained.

Embodiment 3

[0031] The formulation of the high elastic-plastic mauve pen is as follows:

[0032] 20 portions of polyethylene; 32 portions of talcum powder; 5 portions of diatomite; 13 portions of pigment mauve; 12 portions of stearic acid; 8 portions of abietin.

[0033] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 150 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic mauve pen is obtained.

Embodiment 4

[0034] The formulation of a high elastic-plastic orange pen is as follows:

[0035] 40 portions of polypropylene chloride; 10 portions of polyethylene glycol; 10 portions of calcium carbonate; 10 portions of kaoline; 7 portions of pigment orange; 5 portions of sodium stearate; 3 portions of paraffin.

[0036] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 200 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic orange pen is obtained.

Embodiment 5

[0037] The formulation of a high elastic-plastic saffron yellow pen is as follows:

[0038] 15 portions of polyisobutene; 25 portions of polyvinyl chloride; 15 portions of talcum powder; 15 portions of kaoline; 8 portions of pigment red; 12 portions of pigment yellow; 10 portions of polycarbonate.

[0039] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 220 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic saffron yellow pen is obtained.

Embodiment 6

[0040] The formulation of the high elastic-plastic yellow pen is as follows:

[0041] 20 portions of polyethylene; 10 portions of Ethylene Propylene Rubber (EPR); 25 portions of talcum powder; 12 portions of montmorillonite; 13 portions of pigment yellow; 5 portions of chlorinated paraffin; 15 portions of dibutyl sebacate.

[0042] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 180 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic yellow pen is obtained.

Embodiment 7

[0043] The formulation of a high elastic-plastic light yellow pen is as follows:

[0044] 23 portions of polyethylene; 10 portions of Ethylene Propylene Rubber (EPR); 22 portions of talcum powder; 15 portions of montmorillonite; 15 portions of pigment light yellow; 5 portions of chlorinated paraffin; 15 portions of dibutyl sebacate.

[0045] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 160 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic light yellow pen is obtained.

Embodiment 8

[0046] The formulation of a high elastic-plastic grass green pen is as follows:

[0047] 20 portions of polyethylene; 20 portions of polyurethane; 20 portions of glass powder; 18 portions of diatomite; 8 portions of pigment yellow; 12 portions of pigment green; 2 portions of polyisobutylene succinimide.

[0048] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 120 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic grass green pen is obtained.

Embodiment 9

[0049] The formulation of a high elastic-plastic green pen is as follows:

[0050] 20 portions of polyvinyl chloride; 20 portions of polyisobutylene; 26 portions of calcium carbonate; 10 portions of kaoline; 6 portions of pigment green; 9 portions of chlorinated paraffin; 9 portions of diethyl phthalate.

[0051] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 190 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic green pen is obtained.

Embodiment 10

[0052] The formulation of a high elastic-plastic sapphire pen is as follows:

[0053] 20 portions of polyvinyl chloride; 20 portions of polyisobutylene; 20 portions of calcium carbonate; 10 portions of kaoline; 20 portions of pigment ultramarine; 5 portions of chlorinated paraffin; 5 portions of paraffin.

[0054] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 170 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic sapphire pen is obtained.

Embodiment 11

[0055] The formulation of a high elastic-plastic blue pen is as follows:

[0056] 25 portions of polyethylene; 15 portions of nitrile butadiene rubber (NBR); 20 portions of marble powder; 18 portions of kaoline; 10 portions of pigment blue; 7 portions of chlorinated paraffin; 5 portions of paraffin.

[0057] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 160 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic blue pen is obtained.

Embodiment 12

[0058] The formulation of a high elastic-plastic purple pen is as follows:

[0059] 30 portions of polypropylene; 10 portions of neoprene; 20 portions of talcum powder; 10 portions of wood flour, 15 portions of pigment purple; 5 portions of Span-60; 5 portions of paraffin.

[0060] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 160 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic purple pen is obtained.

Embodiment 13

[0061] The formulation of a high elastic-plastic brown pen is as follows:

[0062] 30 portions of polyvinyl chloride; 10 portions of polychloroprene; 30 portions of talcum powder; 6 portions of pigment red; 6 portions of pigment yellow; 6 portions of pigment blue; 5 portions of paraffin; 7 portions of Span-80.

[0063] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 170 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic coffee pen is obtained.

Embodiment 14

[0064] The formulation of a high elastic-plastic grey pen is as follows:

[0065] 30 portions of polyisobutene; 20 portions of talcum powder; 10 portions of glass powder; 10 portions of polyethylene glycol; 10 portions of pigment white; 5 portions of pigment black; 5 portions of hemp rod carbon; 10 portions of paraffin.

[0066] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 110 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic grey pen is obtained.

Embodiment 15

[0067] The formulation of a high elastic-plastic white pen is as follows:

[0068] 20 portions of polystyrene; 10 portions of polyvinyl chloride; 15 portions of talcum powder; 25 portions of big white powder; 15 portions of pigment white; 10 portions of calcium stearate; 5 portions of chlorinated paraffin.

[0069] After mixing the above raw materials in a high speed mixer to uniformity, add the mixture into an extrusion molding device; through heating, extrusion and stretching at 110 C., form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic white pen is obtained.

[0070] FIG. 2 is a process schematic showing the method for preparing the high elastic-plastic black pen according to the invention. As shown in FIG. 2, embodiments 16 to 21 are completed.

Embodiment 16

[0071] Firstly, accurately weigh 200 g of coal dust with 100 m in average particle diameter, 600 g of polyvinyl chloride, 150 g of chlorinated paraffin and 50 g of dimethyl succinate; then after mixing them in a high speed mixer to uniformity, add the mixture into an extrusion molding machine; through heating, extrusion and stretching at 250 C., and form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic black pen is obtained.

Embodiment 17

[0072] Firstly, accurately weigh 350 g of carbon powder with 50 m in average particle diameter, 150 g of carbon black with 25 m in average particle diameter, 300 g of polyethylene, 100 g of stearic acid, 50 g of zinc stearate and 50 g of polycarbonate; then after mixing them in a high speed mixer to uniformity, add the mixture into an extrusion molding machine; through heating, extrusion and stretching at 120 C., and form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic black pen is obtained.

Embodiment 18

[0073] Firstly, accurately weigh 250 g of graphite powder with 20 m in average particle diameter, 155 g of charcoal black with 25 m in average particle diameter, 285 g of polypropylene chloride, 165 g of polypropylene, 100 g of talcum powder, 25 g of octadecyl amine acetate and 25 g of cyclopentanecarboxylic acid dipropyl phthalate; then after mixing them in a high speed mixer to uniformity, add the mixture into an extrusion molding machine; through heating, extrusion and stretching at 150 C., and form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic black pen is obtained.

Embodiment 19

[0074] Firstly, accurately weigh 250 g of carbon black with 10 m in average particle diameter, 150 g of coal dust with 20 m in average particle diameter, 300 g of polyethylene, 200 g of polypropylene and 100 g of polyurethane; then after mixing them in a high speed mixer to uniformity, add the mixture into an extrusion molding machine; through heating, extrusion and stretching at 140 C., and form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic black pen is obtained.

Embodiment 20

[0075] Firstly, accurately weigh 700 g of polyvinyl chloride, 150 g of polyethylene, 800 g of calcium carbonate, 200 g of pigment black, 40 g of paraffin, 40 g of liquid paraffin and 70 g of chlorobutyl ester; then after mixing them in a high speed mixer to uniformity, add the mixture into an extrusion molding machine; through heating, extrusion and stretching at 120 C., and form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic black pen is obtained.

Embodiment 21

[0076] Firstly, accurately weigh 600 g of big white powder, 300 g of carbon powder, 80 g of pigment red, 80 g of pigment yellow, 80 g of pigment blue, 600 g of polyvinyl chloride, 120 g of liquid paraffin and 120 g of dibutyl sebacate; then after mixing them in a high speed mixer to uniformity, add the mixture into an extrusion molding machine; through heating, extrusion and stretching at 120 C., and form a strip product with certain specification, size and shape; after cutting, a high elastic-plastic black pen is obtained.

[0077] The high elastic-plastic pens prepared in embodiments 1 to 21 all can be bent into U shape without being broken.