A selection of the high-quality materials we handle is introduced here.
Additional materials and specialty items not listed are also available, so please feel free to contact us for further information.
1.chemical fiber
Features
Known for its excellent wear resistance, elasticity, and flexibility, this is the most common bristle material among synthetic fibers. It comes in 6, 66, 610, and 612 types, each with distinct characteristics.
Resistance
- Dissolves in concentrated hydrochloric acid and sulfuric acid
- Resistant to alkalis (except in highly alkaline environments)
- Dissolves in phenols and formic acid
- Expands in glacial acetic acid
- Maximum operating temperature: 80°C
Applications
- Precision cleaning of FPD (LCD and OLED) glass and wafers
- Degreasing and dewatering cleaning in steel sheet pickling lines
- Edge polishing of semiconductors and multilayer substrates (with polishing compound).
- Dust removal in tile manufacturing lines
- Cleaning of solar panels
- Egg washing machines
- Cleaning of long pipes, chillers, and heat exchangers
- Spraying and cleaning mechanisms in printing machines and rotary presses
- Insect prevention brushes for shutters
- Splash guards for machine tools
- Lubrication or sealing of rotating mechanisms
- Lubrication of gears, sliding parts, and rotating components
Features
Compared to nylon, it has lower water absorption, with excellent stiffness, bend recovery, and elasticity.
The lightest specific gravity among synthetic fiber bristle materials
Prolonged use may cause the bristle tips to split vertically.
Resistance
- Resistant to acids and alkalis
- Dissolves in common solvents
- Maximum operating temperature: 60°C
Applications
- Cleaning of food processing and manufacturing line conveyor belts Floor cleaning in facilities
- Cleaning of public infrastructure such as tunnels and guardrails.
- Pipe cleaner
- Cleaning of various containers
- Cleaning of bottle washing and drinking water conveyor systems in the food and pharmaceutical industries
- Ultrapure water cleaning of precision parts and IPA cleaning of glass sheets
- Covers around dust collectors
Features
Compared to PP, it has stronger stiffness and excellent abrasion resistance.
Resistance
- Resistant to concentrated hydrochloric acid, sulfuric acid, and nitric acid
- Resistant to mineral oils and methanol
- Insoluble in common solvents
- Maximum operating temperature: 100°C
Applications
- Cleaning of the interiors of cylinders and other cylindrical surfaces
- Cleaning of various containers.
- Cleaning of bottle washing and drinking water conveyor systems in the food and pharmaceutical industries
Features
Polyester-based fiber
Stronger and less prone to breaking compared to PP.
Resistance
- Strong against concentrated hydrochloric acid, sulfuric acid, and nitric acid
- Resistant to mineral oils and methanol
- Insoluble in common solvents
- Maximum operating temperature: 100°C to 120°C
Applications
- Egg yolk application brushes
- Brushes for applying solvents and chemicals, and for painting
- Food hygiene brushes
- Cleaning of sprockets and gears
Features
Polyester-based fiber
Stronger and with excellent abrasion resistance compared to PP.
Resistance
- Strong against concentrated hydrochloric acid, sulfuric acid, and nitric acid
- Resistant to mineral oils and methanol
- Insoluble in common solvents
- Maximum operating temperature: 100°C to 120°C
Applications
- Cleaning of various containers
- Cleaning of bottle washing and drinking water conveyor systems in the food and pharmaceutical industries
- Cleaning of the interiors of cylinders and other cylindrical surfaces
- Shoe cleaners for use before and after entering rooms
Features
The base material is nylon, which contains abrasive particles such as alumina, silicon carbide, and diamond, eliminating the need to use additional abrasive materials unlike other brushes.
Resistance
- Dissolves in concentrated hydrochloric acid and sulfuric acid
- Resistant to alkalis (excluding strong alkali regions)
- Dissolves in phenolic compounds and formic acid
- Expands in glacial acetic acid
- Maximum operating temperature: 80°C
Applications
- Deburring of automotive parts
- Chamfering, edge treatment, R-breaking, and removal of cutter marks after machining
- Deburring after drilling and tapping
- Deburring of battery cases, inverter cases, and fins of heat exchangers
- Removal of burrs after pressing or fine blanking
- Sanding and grain finishing of wooden furniture
- Surface preparation and roughness adjustment for mating and sealing surfaces, as well as surface treatment
Features
A chemical fiber made from a composite yarn of nylon 6 and 66, blended with conductive carbon black
Effective for static electricity removal and dust elimination
Applications
- Removal of paper dust and static electricity
- Static prevention for substrates, films, and discharging before product packaging
- Discharging of workpieces
- Removal of chips and residual foreign matter after machining
Features
A chemical fiber with a nylon base material coated with an elevai emulsion
Effective for static electricity removal and dust elimination
Applications
- Removal of paper dust and static electricity
- Static prevention for substrates, films, and discharging before product packaging
- Discharging of workpieces
- Removal of chips and residual foreign matter after machining
Features
A chemical fiber that combines copper sulfide with an acrylic fiber base material.
Effective for static electricity removal and dust elimination
Non-contact discharging is possible
Applications
- Deionization of substrates, OA equipment, and electronic devices
- Static prevention for substrates, films, and discharging before product packaging.
- Discharging of workpieces
Features
Usable in high-temperature environments
Low water absorption results in minimal changes in hair stiffness
Stiffer than nylon
Resistance
- High heat resistance, acid resistance, and alkali resistance
- Insoluble in general solvents
- Maximum usage temperature: 200℃
Applications
- Cleaning and washing in high-temperature environments
2.metal wire
Features
冷Hard steel wire with hardness achieved through cold drawing.
Strength varies based on carbon content.
Wires that are purple in color, such as quenched or oil-tempered wires, tend to be brittle and less usable.
When recovering broken bristles as foreign objects using magnetic force, SW is used instead of SUS.
Resistance
- Usable at high temperatures.
Applications
- Deburring after cutting shafts or pipes
- Surface preparation before painting, including roughening and priming of various materials
- Rust removal from metal parts and iron sheets, as well as paint stripping
- Removal of oxide layers and mill scale
- Cleaning of burn marks after welding, bead treatment, and spatters removal
- Deburring of motor input shafts and reduction gear gears
Features
Used in humid environments or when rust is a concern.
When dealing with non-ferrous metals, it is better to use SUS to prevent rust caused by iron filings emitted from SW.
Note: During the processing of bristle materials, magnetism may occur due to transformation.
Resistance
- Usable at high temperatures.
- High heat resistance, acid resistance, and alkalinity resistance.
- Available in SUS304 and SUS316, with SUS316 offering higher acid and corrosion resistance.
Applications
- Deburring after cutting shafts or pipes.
- Deburring of automotive parts.
- Deburring and polishing of aluminum die-cast products.
- Deburring of synthetic rubber.
- Removing chips from bolts and nuts.
- Hairline finishing on sheet metal products.
- Cleaning of vacuum deposition and sputtering equipment.
- Coating and varnish removal from coils.
Features
Made of brass, it is softer compared to SW and SUS, which reduces the risk of scratching other metals.However, due to its softness, it may wear off and adhere to the target object.
Resistance
- Usable at high temperatures.
Applications
- Cleaning of casting lines and removal of sand from molds.
- Application and removal of release agents on aluminum die-casting molds.
- Cleaning inside extruder cylinders.
- Cleaning of molds and copper plates.
- Handling of gate remnants and stringing on injection-molded products.
3.animal/plant fibers
Features
A fiber made from dried Tampico leaves.
In a dry state, the fibers are stiff, but they become softer when moisture is absorbed.
Good water absorption and high cleaning effectiveness
Resistance
- Degrades in the presence of acids and alkalis
- Significant degradation occurs at temperatures above 80℃
- Compared to synthetic fibers, they are less prone to static electricity.
Applications
- Steel plate cleaning brushes
- Dehydration brushes during synthetic fiber production
- Cleaning brushes
- Polishing brushes
Features
A fiber made from the dried fruit of the Nagi tree
Stiff bristles when dry, but becomes soft when moistened
It has good water absorption and high cleaning effectiveness
Resistance
- Degrades in acidic and alkaline environments
- Significant degradation occurs at temperatures above 80°C
- Compared to synthetic fibers, it is less prone to static electricity
Applications
- Cleaning brushes (such as scrubbing brushes)
- Steel plate cleaning brushes
- Brushes for dewatering during synthetic fiber production
Features
The base is thick, while the tip becomes thinner.
Flexibility and elasticity, used for cleaning or as bristles
Resistance
- It deteriorates in alkaline environments.
- Compared to synthetic fibers, it is less likely to accumulate static electricity.
Applications
- Removal of paper dust and static electricity
- Polishing of plated products
- Used as a toothbrush
- Suitable for painting brushes
Features
The base is thick, tapering to a finer tip.
Flexible and elastic, used for cleaning or as bristles
Resistance
- Degrades in alkaline environments
- Compared to synthetic fibers, it is less prone to static electricity.
Applications
- Removal of paper dust and static electricity
- Polishing of plated products
- Paintbrushes
- Removal of cutting chips and residual foreign materials after machining
Features
Flexible, often used as a brush.
Resistance
- It deteriorates in alkaline environments.
- Compared to synthetic fibers, it is less likely to accumulate static electricity.
Applications
- Brushes for food use
- Brushes for painting