Industrial grade petroleum jelly is a solid hydrocarbon based grease with good lubricity, chemical stability, water resistance and corrosion resistance, and has a wide range of uses, mainly including the following:
Lubrication and friction reduction
Lubrication of mechanical equipment: under the condition of temperature not higher than 45â?? and not much load, it can be used as the grease of light load machinery to reduce the friction and wear between mechanical parts.
Lubrication of zipper and slide rule: it can effectively reduce the friction resistance of zipper and slide rule and make them slide more smoothly.
Protection and anti-corrosion
Metal antirust: It can be coated on the surface of metal products, metal parts and machinery to form a layer of protective film to prevent metal from rusting. For example, it is applied to corrosion-prone metal jewelry, non-stainless steel knives and gun barrels before storage.
Industrial grade petroleum jelly is a solid hydrocarbon based grease with good lubricity, chemical stability, water resistance and corrosion resistance, and has a wide range of uses, mainly including the following:
Lubrication and friction reduction
Lubrication of mechanical equipment: under the condition of temperature not higher than 45â?? and not much load, it can be used as the grease of light load machinery to reduce the friction and wear between mechanical parts.
Lubrication of zipper and slide rule: it can effectively reduce the friction resistance of zipper and slide rule and make them slide more smoothly.
Protection and anti-corrosion
Metal antirust: It can be coated on the surface of metal products, metal parts and machinery to form a layer of protective film to prevent metal from rusting. For example, it is applied to corrosion-prone metal jewelry, non-stainless steel knives and gun barrels before storage.
Micronized waxes are used as internal and external lubricants to reduce friction between plastic particles and equipment and to improve the flow and processing properties of plastics. For example, in powder coating, adding 1%-5% of wax micronized wax can reduce screw torque by 10%-15%, reduce power consumption and increase production per unit time.
Micronized wax can improve the surface gloss and abrasion resistance of plastic products and reduce surface defects during processing. For example, PTFE micronized wax can reduce the surface properties of the material and effectively improve the lubricity and wear resistance of the material.
Micronized wax can also be used as a mold release agent to help plastic products release smoothly from the mold.
Micronized waxes play a lubricating role in coatings, reducing the coefficient of friction of the coating, thus improving the abrasion and scratch resistance of the coating. For example, the addition of 1% wax micropowder reduces the dynamic coefficient of friction of the coating film from 0.35 to 0.25.
When the coating film is cooled, the wax particles precipitate from the coating liquid and migrate to the coating surface, producing a matting effect. In addition, wax micropowders with different particle sizes create different texturizing effects.
Micronized wax can enhance the wetting and dispersion of pigment agglomerates, so that the pigment coloring strength is increased. Generally adding 1%~3% of wax micronized powder can increase the pigment coloring strength by 10%~30%.
Micronized wax gives the coating film a pleasant texture, anti-adhesion and stain resistance. Wax particles on the surface of the coating can reduce the adhesion of stains or make stains easier to wipe off.
Micronized waxes play a lubricating role in coatings, reducing the coefficient of friction of the coating, thus improving the abrasion and scratch resistance of the coating. For example, the addition of 1% wax micropowder reduces the dynamic coefficient of friction of the coating film from 0.35 to 0.25.
When the coating film is cooled, the wax particles precipitate from the coating liquid and migrate to the coating surface, producing a matting effect. In addition, wax micropowders with different particle sizes create different texturizing effects.
Micronized wax can enhance the wetting and dispersion of pigment agglomerates, so that the pigment coloring strength is increased. Generally adding 1%~3% of wax micronized powder can increase the pigment coloring strength by 10%~30%.
Micronized wax gives the coating film a pleasant texture, anti-adhesion and stain resistance. Wax particles on the surface of the coating can reduce the adhesion of stains or make stains easier to wipe off.
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Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes are used as internal and external lubricants to reduce friction between plastic particles and equipment and to improve the flow and processing properties of plastics. For example, in powder coating, adding 1%-5% of wax micronized wax can reduce screw torque by 10%-15%, reduce power consumption and increase production per unit time.
Micronized wax can improve the surface gloss and abrasion resistance of plastic products and reduce surface defects during processing. For example, PTFE micronized wax can reduce the surface properties of the material and effectively improve the lubricity and wear resistance of the material.
Micronized wax can also be used as a mold release agent to help plastic products release smoothly from the mold.
Micronized waxes are used as internal and external lubricants to reduce friction between plastic particles and equipment and to improve the flow and processing properties of plastics. For example, in powder coating, adding 1%-5% of wax micronized wax can reduce screw torque by 10%-15%, reduce power consumption and increase production per unit time.
Micronized wax can improve the surface gloss and abrasion resistance of plastic products and reduce surface defects during processing. For example, PTFE micronized wax can reduce the surface properties of the material and effectively improve the lubricity and wear resistance of the material.
Micronized wax can also be used as a mold release agent to help plastic products release smoothly from the mold.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
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