Standard Procedure for PCB Cleaning with ESD Wipes

Anti-static cleanroom wipes are essential tools for cleaning PCBs (Printed Circuit Boards) in laboratory environments, where precision and cleanliness are critical. These wipes, designed to be lint-free and anti-static, prevent electrostatic discharge (ESD) from damaging sensitive components. The cleaning process begins with preparing the PCB area, followed by using a wipe pre-saturated with an appropriate solvent like isopropyl alcohol (IPA). Wiping should be done using single-direction strokes, ensuring not to disturb or redistribute contaminants. For optimal results, multiple passes may be required to remove flux, dust, and oils from the PCB surface. The use of anti-static wipes ensures that the cleaning process does not introduce static charges, which could affect the performance of the PCB in sensitive electronics applications. This procedure helps maintain the integrity and longevity of the PCBs in cleanroom conditions, particularly in Class 100–1000 environments.

Key Features:

  • Anti-static properties to prevent electrostatic discharge (ESD)

  • Lint-free for residue-free cleaning

  • Pre-saturated for convenience and efficient cleaning

  • Safe for delicate PCB surfaces and components

Application Scope:

  • PCB maintenance and cleaning in laboratories

  • Electronics manufacturing and testing

  • Class 100–1000 cleanroom environments

  • Sensitive electronic components and devices

Best Practices for Optics Cleaning with High-Density Wipes

High-density cleanroom wipes are essential for maintaining precision optical instruments, including microscopes, cameras, lenses, and spectrometers. Their tightly woven fibers offer superior absorbency, lint-free performance, and durability, allowing safe and effective removal of dust, fingerprints, oils, and microscopic residues. Proper application techniques include using single-direction strokes, applying controlled pressure, and selecting the appropriate wipe size to avoid particle redistribution and surface damage. High-density wipes enhance cleaning efficiency, reduce solvent usage, and maintain the accuracy and longevity of optical devices in Class 100–1000 cleanrooms and research laboratories.

Key Features:

  • High-density fibers for superior absorbency and durability

  • Lint-free and anti-static to protect delicate surfaces

  • Efficient removal of dust, oils, and residues

  • Reduces cleaning time and solvent consumption

Application Scope:

  • Laboratory optical instruments: microscopes, lenses, cameras

  • Precision research and semiconductor optical devices

  • Class 100–1000 cleanrooms and controlled environments

  • Industrial optical equipment maintenance

Using cleaning wipes on lab optical instruments.

Cleanroom wipes are widely used in laboratories for maintaining optical instruments such as microscopes, cameras, lenses, and spectrometers. Lint-free, anti-static, and pre-wetted or dry, these wipes efficiently remove dust, fingerprints, oils, and microscopic residues without damaging delicate surfaces. Typical application cases include daily cleaning of microscope lenses in Class 100 cleanrooms, maintenance of optical sensors in semiconductor labs, and periodic cleaning of high-precision cameras in research facilities. Proper single-direction wiping techniques, controlled pressure, and appropriate wipe sizes ensure optimal contaminant removal, reduce cleaning time, and prevent particle redistribution.

Key Features:

  • Lint-free and anti-static for safe cleaning

  • Pre-wetted or dry for flexible application

  • Removes dust, oils, and microscopic residues

  • Enhances cleaning efficiency and protects delicate surfaces

Application Scope:

  • Laboratory microscopes and cameras

  • Lenses and optical sensors in research facilities

  • Semiconductor and high-tech optical equipment

  • Class 100–1000 cleanroom environments

Improving Cleanroom Efficiency with Wipes

Cleaning wipes play a crucial role in maintaining high cleanliness standards in Class 100 laboratory cleanrooms. Pre-wetted or dry, lint-free wipes efficiently remove dust, oils, flux residues, and microscopic contaminants from surfaces and equipment. Their anti-static properties prevent electrostatic discharge (ESD), minimizing particle attraction and protecting sensitive components. Optimized wiping techniques, including single-direction strokes with controlled pressure, reduce cleaning time and solvent usage while maintaining uniform cleanliness. These wipes improve operational efficiency, extend equipment lifespan, and ensure consistent cleanroom performance across laboratories, semiconductor facilities, and precision electronics workshops.

Key Features:

  • Lint-free, anti-static wipes for safe and effective cleaning

  • Pre-wetted or dry options for flexible application

  • Reduces cleaning time and solvent consumption

  • Prevents ESD and maintains uniform cleanliness

Application Scope:

  • Laboratory and cleanroom surfaces and equipment

  • PCB assembly and semiconductor maintenance

  • Optical and precision instruments

  • Industrial and research cleanroom facilities

High-Density Cloth for Optical Equipment Efficiency

High-density cleanroom wipes are essential for maintaining optical instruments in laboratories, including microscopes, cameras, spectrometers, and lenses. Their ultra-fine, tightly woven fibers efficiently remove dust, oils, flux residues, and microscopic contaminants without scratching delicate surfaces. Lint-free and anti-static properties prevent electrostatic discharge (ESD) and particle redistribution, protecting sensitive components. Using pre-wetted wipes with high-purity solvents or dry wipes with controlled wiping techniques ensures thorough cleaning. Suitable for Class 100–1000 cleanrooms, these wipes improve workflow efficiency, maintain optical clarity, and extend the lifespan of precision instruments.

Key Features:

  • Ultra-fine, high-density fibers for scratch-free cleaning

  • Lint-free and anti-static for sensitive optical surfaces

  • Compatible with dry or solvent-assisted cleaning

  • Efficient removal of dust, oils, and microscopic contaminants

Application Scope:

  • Laboratory microscopes and optical lenses

  • Cameras and imaging systems

  • Spectrometers and precision optical instruments

  • Cleanroom optical assembly and maintenance

How to use IPA wipes in laboratory PCB cleaning

Isopropyl alcohol (IPA) wipes are essential for maintaining clean and functional PCBs in laboratory and electronics environments. Pre-wetted, lint-free wipes efficiently remove dust, oils, flux residues, and microscopic contaminants without scratching sensitive PCB surfaces. Single-direction wiping with controlled pressure minimizes particle redistribution, while anti-static properties reduce the risk of electrostatic discharge (ESD) that could damage delicate components. IPA’s rapid evaporation ensures residue-free cleaning and compatibility with metals, plastics, and other PCB materials. Applying proper IPA wipe techniques improves cleaning efficiency, reduces defects, and maintains compliance with Class 100–1000 cleanroom standards.

Key Features:

  • Pre-wetted with high-purity IPA for effective cleaning

  • Lint-free and anti-static to protect sensitive PCB surfaces

  • Rapid evaporation prevents streaks and residue

  • Safe for metals, plastics, and electronic components

Application Scope:

  • Laboratory PCB assembly and maintenance

  • Electronics inspection and testing zones

  • Semiconductor and precision PCB cleaning

  • Research and industrial electronic equipment

Improving Cleanroom Efficiency with Wipes

Cleaning wipes play a crucial role in maintaining Class 100 cleanroom cleanliness standards. Using high-quality pre-saturated wipes can significantly enhance cleaning efficiency by reducing airborne particles, eliminating surface contaminants, and minimizing cross-contamination. These wipes are made from polyester or microfiber materials with ultra-low lint release, ideal for sensitive laboratory environments. Pre-saturated options, typically containing a balanced mix of IPA and deionized water, provide consistent cleaning results without residue. Regular use of these wipes on workbenches, instruments, and containment areas ensures compliance with cleanroom protocols and improves workflow efficiency.

Features:

  • Low particle and fiber release

  • Compatible with solvents and disinfectants

  • High absorbency and durable texture

  • Suitable for frequent cleaning in controlled areas

Application Scope:

  • Class 100 cleanrooms and laboratories

  • Optical and electronic equipment cleaning

  • Biological and pharmaceutical labs

  • Semiconductor production environments

Application of IPA wipes in laboratory PCB cleaning

Isopropyl Alcohol (IPA) wipes are essential for maintaining PCB cleanliness in laboratory environments. These wipes effectively remove flux residues, dust, oil, and fingerprints from circuit boards without leaving lint or moisture marks. During use, the PCB surface should be wiped in one direction to prevent recontamination. IPA’s rapid evaporation minimizes static buildup and ensures no residue remains. For optimal results, pre-moistened wipes with 70% IPA concentration are recommended, as they provide strong cleaning power while being safe for sensitive electronic components. This method improves inspection accuracy, reduces electrical faults, and supports high-quality PCB production and research work.

Features:

  • Excellent solvent power for removing oils and flux residues

  • Fast-drying and residue-free surface cleaning

  • Anti-static and safe for precision electronic surfaces

  • Compatible with pre-moistened and dry wipe systems

Application Scope:

  • PCB assembly and rework stations

  • Laboratory electronics maintenance

  • Semiconductor and optical component cleaning

  • Precision instrument surface cleaning

Cleaning Wipes for Anti-Static Optical Cleaning

Cleaning wipes are essential for maintaining optical instruments in laboratories, providing both thorough cleaning and anti-static protection. Pre-moistened with high-purity solvents like isopropyl alcohol or deionized water, these wipes effectively remove dust, oils, fingerprints, and other contaminants without leaving lint or residues. Proper application involves gentle, unidirectional strokes, selecting the correct wipe size, and sequentially cleaning heavily soiled areas. Routine use of anti-static wipes prevents electrostatic discharge, preserves delicate optical coatings, ensures optimal instrument performance, and maintains compliance with strict laboratory cleanliness standards.

Features:

  • Anti-static, lint-free, and residue-free

  • Pre-moistened for enhanced cleaning efficiency

  • Gentle on delicate optical surfaces and coatings

  • Effective removal of dust, oils, and fingerprints

Application Scope:

  • Laboratory optical instruments and devices

  • Microscopes, cameras, sensors, and precision optics

  • ESD-sensitive equipment in controlled environments

  • Cleanrooms and laboratories requiring strict contamination control

How to use IPA wipes and alcohol in laboratory PCB cleaning

Isopropyl alcohol (IPA) wipes are widely used for cleaning printed circuit boards (PCBs) in laboratory and cleanroom environments. They efficiently remove dust, flux residues, oils, and other contaminants without generating lint or damaging sensitive components. Proper techniques include selecting the appropriate wipe size, using gentle unidirectional strokes along traces, and employing pre-moistened IPA wipes for consistent solvent coverage. Sequential wiping may be applied for heavily soiled areas. This method prevents particle redistribution, reduces ESD risks, and ensures reliable PCB performance. Regular use maintains cleanliness, enhances component lifespan, and supports precision laboratory operations.

Features:

  • Lint-free and residue-free for sensitive PCB surfaces

  • Pre-moistened with IPA for effective contaminant removal

  • Anti-static and safe for electronic components

  • Gentle yet thorough cleaning of soldering and trace areas

Application Scope:

  • Laboratory and cleanroom PCB cleaning

  • Semiconductor devices and microelectronics

  • Optical instruments and precision electronics

  • ESD-sensitive and controlled environment maintenance