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Microcrystalline wax is mainly used in the electronics industry for the following purposes:
Electronic insulation materials
Microcrystalline wax has excellent insulation properties and is often used as a packaging material and coating agent for electronic devices, which can protect electronic components from moisture and dust erosion.
Electronic component sealing
Its heat resistance and stability make it a sealing material for electronic components, such as batteries, capacitors, and other devices.
Electronic product casing and packaging
Microcrystalline wax is commonly used in the manufacture of electronic product casings such as phone cases and headphone covers, as well as packaging materials such as food packaging paper boxes and paper containers. It has waterproof, moisture-proof, and oil resistant properties.
Precision component lubrication
In the manufacturing of precision bearings, medical devices, and other components, microcrystalline wax as a lubricant can reduce friction and improve equipment operating efficiency.

Microcrystalline wax is primarily used for non-damaging metal surface polishing. Its core advantage lies in its ability to penetrate the micro-textures of metal surfaces with its fine particles for polishing, while also providing filling, cleaning, and rust-preventing functions.
Polishing Characteristics
Microcrystalline wax particles are typically micron-sized, capable of filling in microscopic grooves on metal surfaces to enhance gloss and smoothness. Its non-damaging properties prevent the scratches or deformation issues caused by traditional polishing methods, making it particularly suitable for precision metal products (such as automotive components and jewellery).
Applications
Automotive industry: Repairing body scratches and maintaining body gloss.
Home appliances: Polishing stainless steel kitchenware and bathroom fixtures. Jewellery: Enhancing the gloss of gold and silver jewellery.
Industrial applications: Surface treatment of mechanical parts.

Microcrystalline wax is mainly used in the field of industrial lubrication, characterized by excellent lubricating properties, the specific applications are as follows:
Industrial lubrication:
Microcrystalline wax as a lubricant, can reduce the friction between mechanical parts, to extend the service life of equipment. Its lubricity energy in its unique molecular structure: n-alkane content is low, the main component is cyclic hydrocarbons (such as cycloalkanes), the larger the molecular weight, the higher the content of isomeric alkanes and cycloalkanes with a long side chain, the structure of this tendency to plastic flow under force, elongation, high strength of the oil gel.
Rubber & Plastics Processing:
In rubber and plastics processing, microcrystalline wax is used as a softening agent to improve processing performance, improve the flexibility and aging resistance of products. For example, in plastics processing, it enhances the fluidity and abrasion resistance of plastics while maintaining the stability of the products.

Microcrystalline waxes are mainly used in the polishing process. Their properties include high hardness, low water absorption and good lubricity for metal surface treatment.
Polishing characteristics: Microcrystalline wax has fine particles (micron size), which can fill in fine scratches on metal surfaces while enhancing gloss and smoothness. Its non-destructive properties prevent surface abrasion caused by traditional polishing, and it is suitable for high-precision products such as automotive parts and jewelry.
Application Scenarios
Automotive industry: repairing scratches on the bodywork and improving the gloss of the paintwork.
Home care: Maintain stainless steel kitchenware and bathroom equipment, keep the mirror effect.
Industrial products: Eliminate surface defects of mechanical parts, enhance anti-wear ability.
Operation Points
Tool selection: with polishing wheel or sponge to ensure even application.
Environmental control: operate in a windless and dust-free environment to avoid secondary pollution.
Stage treatment: Rough polishing, medium polishing and fine polishing need to be operated in stages to avoid excessive wear.

Micronized wax is an important additive in plastics processing, mainly used to improve the surface properties, processing fluidity and mechanical properties of plastics.
(1) Lubrication
Internal lubrication: reduce the viscosity of the melt, improve the processing fluidity, reduce energy consumption (e.g. injection moulding, extrusion).
External lubrication: prevent the melt from adhering to the mould, reduce precipitation and scaling, and improve mould release.
(2) Surface modification
Improvement of gloss: make the surface of products smoother and brighter (e.g. PVC film, sheet).
Anti-scratch: added to engineering plastics (e.g. ABS, PC) to reduce surface scratches.
(3) Dispersing additives
Help pigments and fillers to disperse evenly (e.g. colour masterbatch, functional masterbatch).
(4) Anti-adhesion
Prevent film and sheet from sticking between layers (e.g. PE cling film, BOPP film).
(5) Abrasion resistance
Improve the abrasion resistance of engineering plastics (e.g. nylon, POM).

As a raw material for candle manufacturing, Fischer-Tropsch wax offers the following significant advantages, which can enhance candle performance and manufacturing efficiency:
1. High melting point and thermal stability
Wide melting point range (60â??120�°C): Fischer-Tropsch wax with different melting points can be selected according to requirements, suitable for making candles used in high-temperature environments (such as outdoor candles), reducing the risk of deformation or melting.
High-temperature stability: It is not easy to drip during combustion, reducing the risk of fire, especially suitable for pillar candles with containerless design.
2. Excellent combustion performance
Smokeless and odorless: The fully hydrogenated hydrocarbon structure ensures clean combustion, suitable for environments sensitive to odors (such as aromatic candle substrates).
Long burning time: The high carbon number molecular structure (C20â??C60) makes the burning rate 10â??20% slower than that of paraffin wax, prolonging the service life.High brightness: The flame is bright during combustion, with luminous flux superior to soy wax and close to traditional paraffin wax.
3. Material compatibility and processing advantages
Low viscosity (molten state): Easy to mix with dyes and fragrances, with dispersion uniformity 30% higher than paraffin wax, avoiding color difference or uneven aroma.
Low shrinkage rate (

As a raw material for candle manufacturing, Fischer-Tropsch wax offers the following significant advantages, which can enhance candle performance and manufacturing efficiency:
1. High melting point and thermal stability
Wide melting point range (60â??120�°C): Fischer-Tropsch wax with different melting points can be selected according to requirements, suitable for making candles used in high-temperature environments (such as outdoor candles), reducing the risk of deformation or melting.
High-temperature stability: It is not easy to drip during combustion, reducing the risk of fire, especially suitable for pillar candles with containerless design.
2. Excellent combustion performance
Smokeless and odorless: The fully hydrogenated hydrocarbon structure ensures clean combustion, suitable for environments sensitive to odors (such as aromatic candle substrates).
Long burning time: The high carbon number molecular structure (C20â??C60) makes the burning rate 10â??20% slower than that of paraffin wax, prolonging the service life.High brightness: The flame is bright during combustion, with luminous flux superior to soy wax and close to traditional paraffin wax.
3. Material compatibility and processing advantages
Low viscosity (molten state): Easy to mix with dyes and fragrances, with dispersion uniformity 30% higher than paraffin wax, avoiding color difference or uneven aroma.
Low shrinkage rate (

Micronized wax is a key additive in printing inks, primarily used to enhance surface properties, improve rub resistance, and modify slip & abrasion resistance. Here's a detailed breakdown of its role, types, and benefits in printing ink formulations:
1. Functions in Printing Inks:
Abrasion & Scratch Resistance: Forms a protective layer on the ink surface, reducing wear during handling.
Slip Improvement:� Reduces friction, preventing blocking (sticking) of printed surfaces.
Matting Effect: Can adjust gloss levels (depending on particle size).
Rub Resistance: Prevents ink from smudging during post-printing processes.
Water & Chemical Resistance: Enhances durability in wet or harsh environments.
2. Common Types of Micronized Waxes for Inks:
Polyethylene (PE) Wax: Most widely used; offers excellent rub resistance and slip.
Polypropylene (PP) Wax: Higher hardness, used for tougher abrasion resistance.
PTFE-modified Waxes: Adds exceptional lubricity (e.g., for high-speed printing).
Carnauba Wax (Natural): Used for high-gloss inks and food-contact applications.
Fischer-Tropsch Wax: Synthetic alternative to carnauba with consistent quality.
Paraffin & Microcrystalline Waxes: Lower-cost options for specific applications.

Polypropylene wax (PP wax) is widely used in powder coatings to enhance surface properties, processing flowability, and mechanical performance.
1. Key Functions
Lubricant & Leveling Agent:
Reduces melt viscosity, improves flow during curing, and minimizes defects (e.g., orange peel, craters) for a smoother surface.
Lowers friction between screws and materials during extrusion, boosting production efficiency.
Anti-Scratch & Abrasion Resistance:
Migrates to the coating surface, forming a protective layer to enhance scratch resistanceâ??ideal for demanding applications (e.g., automotive parts, furniture).
Anti-Blocking Agent:
Prevents coating layers from sticking during stacking or transport, especially in high-temperature environments (e.g., tropical climates, dense packaging).
Matting Effect� (synergistic with matting agents):
Adjusts surface light reflection via microcrystalline structures to achieve semi-gloss or matte finishes (e.g., matte powder coatings).
Dispersant & Hydrophobic Agent:
Promotes uniform dispersion of pigments/fillers, reducing agglomeration.
Hydrophobicity improves water resistance and anti-stain properties.

The application of micronized waxes in can coatings is mainly used as an additive to improve the surface properties, processability and durability of the coating. The following are its specific roles:
1. Main functions
Lubrication and abrasion resistance: micronized wax added to the coating can reduce the coefficient of friction, enhance the abrasion resistance of the can body in the process of high-speed stamping and molding, and prevent the coating from breaking.
Anti-adhesion: prevent the coating surface from sticking when the tanks are stacked or transported, especially under high temperature and high humidity environment.
Surface smoothness: Improve coating leveling, reduce surface defects (e.g. orange peel, pinholes), enhance printing or appearance quality.
Chemical resistance: Some waxes (e.g. PTFE wax) enhance the coating's resistance to contents (acidic beverages, alcohol, etc.).
2. Advantages and challenges
Advantages: low cost, low dosage but significant effect.
Enhance production efficiency (reduce equipment wear and tear, lower scrap rate).
Challenges: Particle size and dispersion need to be strictly controlled to avoid affecting coating adhesion or appearance.
Food safety approvals (e.g. migration tests) are required.
3. Common Wax Types
Polyethylene wax: cost-effective and versatile.
PTFE waxes: temperature resistant, chemically inert, suitable for high performance requirements.
Amide waxes: enhanced slip, but compatibility with resins is important.

I. Main components of micronized wax
The raw materials of micronized wax are varied, and the common ones include:
Natural wax
Brazilian carnauba wax: high hardness, good gloss, commonly used in food, cosmetics.
Beeswax: with moisturising properties, used in skin care products and ointments.
Synthetic waxes.
Polyethylene wax: high temperature resistant, used in coatings, plastic processing.
PTFE wax: excellent lubrication, used in engineering materials.
Fischer-Tropsch Wax: high melting point, used for inks, hot melt adhesives.
Modified waxes
Oxidised polyethylene wax: improved polarity, used for pigment dispersion.

II. Main applications of micronized wax
Coatings and inks
Improve surface abrasion resistance and scratch resistance.
Improve levelling and prevent pigment settling.
Plastics and Rubber
As lubricant or mould releasing agent, improve processing efficiency.
Enhance surface gloss of products.
Cosmetics and skin care products
Used in foundations, lipsticks, etc. to improve spreading and setting effects.
Provides a matte or silky feel.

We supply microcrystalline wax from China,Korea,Thailand and so on.

Advantages:
1)High melting point and thermal stability for high-temperature applications.
2)Excellent water resistance for protection.
3)Chemically inert for safety and stability.
4)Highly blendable for versatile formulations.

Applications:
1)Used in lipsticks, creams, and lotions for thickening and moisturizing.
2)Used in rust prevention, cable insulation, and precision instrument lubrication.
3)Enhances candle hardness, burn time, and gloss.
4)Used in polishes to protect surfaces and enhance shine.

The application of micronized waxes in wood coatings is mainly used to enhance the smoothness, scratch resistance and feel of the coatings, as well as to provide a matting effect. The following are specific application scenarios:
Application Scenarios
Enhancement of smoothness and scratch resistance: Micronized wax can improve the leveling of wood coatings, reduce surface imperfections, and enhance abrasion resistance and scratch resistance.
Optimization of feel: Some micronized waxes (e.g. polypropylene waxes) provide a soft touch and, in combination with silica matting powders, a matte effect can be achieved.
Matting effect: The particle size and distribution of the micronized waxes influence the matting effect of the coating film and are suitable for wood finishes that require a matt appearance.

The application of wax micronized powder in road marking is mainly used as a functional additive to improve the performance of marking coatings. The following are its specific uses and advantages:
1. Anti-fouling and anti-adhesion
Anti-adhesion: wax micropowder (such as polyethylene wax, Fischer-Tropsch wax, etc.) added to hot melt road marking coatings can form a fine wax layer on the surface of the coatings, reduce the adhesion of dust and oil, and reduce the wear and tear of vehicle tires on the markings.
Anti-pollution: especially in rainy and snowy weather, the hydrophobicity of wax can delay the penetration of pollutants and keep the reflectivity of the marking line.
2. Abrasion resistance and durability
Wax micropowder can enhance the hardness and abrasion resistance of the paint, reduce the wear and tear caused by long-term vehicle crushing, and extend the life of the marking line.
Synergize with resin, glass beads and other ingredients to enhance mechanical strength.
3. Optimization of construction performance
Fluidity and dispersion: Wax micropowder can improve the fluidity of the paint in the high temperature molten state, making the construction smoother and the marking line more level.
Anti-settling: Prevent fillers (such as titanium dioxide, glass beads) in the paint from settling when stored, and maintain uniformity.
4. Reflective performance aid
The wax layer on the surface can protect the reflective glass beads from falling off easily and maintain the reflective effect at night.
5. Environmental protection and cost
Part of the wax micropowder (such as vegetable-based wax) can replace petroleum-derived components, reducing the burden on the environment. Reduce the cost of frequent maintenance of marking.

Water-soluble micronized waxes are mainly used to enhance the scratch resistance, abrasion resistance and surface smoothness of paints, printing inks and other materials, and at the same time have the characteristics of uniform dispersion, non-toxicity and environmental protection. Specific function
Enhance scratch resistance and abrasion resistance
Water-soluble micronized wax can significantly enhance the hardness and abrasion resistance of the surface of the paint film or ink, reduce the coefficient of friction, and avoid scratches and sticking. For example, it can be added to automobile paint and furniture paint to enhance the durability of the coating. Improve surface smoothness
Its regular particle form can reduce friction resistance and give a smoother surface effect to the touch, suitable for surface treatment of plastic, metal and other materials. Enhance dispersion and stability
Micronized wax is easy to disperse in water-based system, which can evenly mix pigments and fillers, prevent settling, and enhance the fluidity and stability of coatings or inks. Environmental friendliness and applicability
Non-toxic, odourless and solvent-resistant, it is suitable for water-based coatings, inks and adhesives, especially for industrial scenarios with high environmental requirements.

1. Excellent burning performance
Smoke-free and odourless: almost no black smoke and odour when burning, suitable for indoor use.
Stable flame: the wax is pure and burns evenly, not easy to drip or collapse.
Long burning time: high calorific value, more resistant to burning than ordinary paraffin wax.
2. Strong compatibility
Easy to mix colour and aroma: good fusion with dyes and flavours, bright colour and long lasting aroma (5-8% of flavour is recommended).
It can be mixed with other waxes: it can be compounded with soya wax, beeswax, coconut wax, etc. to adjust the hardness or reduce the cost.
3. Exquisite appearance
Fine texture: smooth surface after cooling, no crystalline particles, suitable for high-end candle craft.
Transparency is optional: some Fischer-Tropsch waxes are translucent, which can be used to make ice candles and other special effects.
4. High stability
Strong oxidation resistance: it is not easy to yellow or produce rancid flavour after long-term storage.
Good moisture resistance: low water absorption, not easy to deteriorate under humid environment.

Fischer-Tropsch waxes are used in candle manufacturing to improve product performance and reduce costs. Its properties include high purity, low viscosity, moderate melting point and good melting properties to optimise the burning characteristics and appearance of candles.
Optimisation of combustion properties: Fischer-Tropsch wax burns with a stable flame and emits less black smoke, which effectively reduces pollution during the combustion process. Its high carbon content prolongs the burning time, making it suitable for religious ceremonies or emergency lighting scenarios. In addition, the stable molecular structure reduces the shrinkage rate when the candle cools down, reducing the problem of surface depression or unevenness.
Enhancement of appearance: Fischer-Tropsch Oxide can make the surface of candles smoother, the colour more evenly dispersed, and present a brighter visual effect when burning, especially suitable for decorative candles.
Cost reduction: Compared with natural wax, Fischer-Tropsch wax is cheaper and less expensive to add, which reduces raw material costs and improves production efficiency.

The application of microcrystalline wax in insulation is mainly in the electronic industry as a sealant and insulating material for electronic components. Microcrystalline wax has good insulating properties and stability, can protect electronic components from moisture and dust erosion, provide electrical insulation and barrier properties.
Specific applications of microcrystalline wax in the electronics industry
Sealant: Microcrystalline wax can be used as a sealant for electronic components to prevent moisture and dust from entering and protect the stable operation of electronic components.
Insulating material: In the manufacturing process of electronic products, microcrystalline wax can be used as an insulating material to provide electrical insulation and barrier performance to ensure the normal operation and prolong the service life of electronic equipment.

OPE (Oxidized Polyethylene) Wax is a versatile additive used in various industries.� It acts as a lubricant, dispersant, and release agent, especially in plastic processing.� OPE wax is� commonly used in PVC, hot melt adhesives, paints, coatings, and textiles.� 
Plastic Processing:OPE wax is a popular lubricant in PVC products, helping to improve production efficiency and reduce costs.� It's also used in PE, PVC cable materials, and PVC pipes.� 
Adhesives:OPE wax can enhance the bond strength and moisture resistance of hot melt adhesives.� 
Paints and Coatings:It can be used as a dispersant in water-based paints, improving gloss, smoothness, and scratch resistance.� 
Textiles:OPE wax can be used as a softener and anti-puncturing agent for textiles.� 
Other Applications:It's also used in car wax, leather auxiliaries, and as an internal dispersant in color processing.� 
Benefits:OPE wax can improve toughness, surface smoothness, and pass rates in plastic products.� It also reduces power consumption during resin mixing and minimizes adhesion between resin and mold.
Key Properties:OPE wax has low viscosity, a high softening point, good thermal stability, and excellent external lubricity.

OPE (Oxidized Polyethylene) Wax is a versatile additive used in various industries. It acts as a lubricant, dispersant, and release agent, especially in plastic processing. OPE wax is commonly used in PVC, hot melt adhesives, paints, coatings, and textiles. 
Plastic Processing: OPE wax is a popular lubricant in PVC products, helping to improve production efficiency and reduce costs. It's also used in PE, PVC cable materials, and PVC pipes. 
Adhesives: OPE wax can enhance the bond strength and moisture resistance of hot melt adhesives. 
Paints and Coatings: It can be used as a dispersant in water-based paints, improving gloss, smoothness, and scratch resistance. 
Textiles: OPE wax can be used as a softener and anti-puncturing agent for textiles. 
Other Applications: It's also used in car wax, leather auxiliaries, and as an internal dispersant in color processing. 
Benefits: OPE wax can improve toughness, surface smoothness, and pass rates in plastic products. It also reduces power consumption during resin mixing and minimizes adhesion between resin and mold. 
Key Properties: OPE wax has low viscosity, a high softening point, good thermal stability, and excellent external lubricity.