HEAT RESISTANT • ESD SAFE • INDUSTRIAL GRADE

Heat Resistant ESD Plastic
for the Electronics
Industry

Engineering-grade material designed to prevent electrostatic discharge while supporting high-temperature environments. Ideal for PCB Cleaning, SMT, Semiconductor, and Automation systems in modern industrial manufacturing.

Heat Resistant ESD PlasticESD PlasticPCB CleaningAnti Static Material

Why PCB Cleaning Processes
Require Heat Resistant ESD Plastic

PCB cleaning environments involve high temperatures, chemicals, humidity, and electrostatic discharge risks. Using standard plastic materials may negatively affect product quality, production stability, and long-term manufacturing efficiency.

Problems with Standard Plastic Materials

⚠

Static Charge Damages PCB Components

Electrostatic discharge can damage sensitive electronic components and increase the risk of defects during the production process.

⚠

Plastic Deformation from Heat

General plastic materials may warp under high temperatures, affecting the accuracy of jigs and fixtures.

⚠

Chemical Cracking and Material Degradation

Long-term exposure to PCB cleaning chemicals may cause cracking, weakening, and faster material deterioration.

⚠

Higher Risk in Cleanroom Environments

Materials not designed for electronics manufacturing may create contamination risks inside cleanroom production areas.

Advantages of Heat Resistant ESD Plastic

✓

Electrostatic Discharge Protection

Helps reduce damage to PCB and semiconductor components throughout the manufacturing process.

✓

Supports High-Temperature Processes

Maintains dimensional stability under continuous heat, ideal for SMT production and PCB cleaning applications.

✓

Chemical Resistance

Compatible with industrial cleaning solutions and chemical processing environments in electronics factories.

✓

Reduce Downtime and Production Defects

Improves production stability while lowering maintenance costs, product defects, and replacement frequency.

HEAT RESISTANT • ESD SAFE • ENGINEERING PLASTIC

Key Features of
Heat Resistant ESD Plastic

Heat Resistant ESD Plastic is specifically engineered for electronics manufacturing environments exposed to high temperatures, chemicals, and electrostatic discharge risks. It helps improve production stability while reducing damage to sensitive electronic components.

Electrostatic Discharge Protection
(ESD Safe Material)

The main advantage of Heat Resistant ESD Plastic is its ability to control surface resistivity within ESD-safe ranges, helping reduce damage to electrostatic-sensitive electronic components.

ICSemiconductorPCBElectronic Component

High Heat Resistance
for SMT and PCB Cleaning

The material can withstand a wide range of temperatures, making it ideal for continuous heat-process manufacturing and PCB cleaning applications in industrial environments.

Material Type	Temperature Range
ESD PVC	60–80°C
ESD PP	100–120°C
ESD PEEK	250°C+
ESD FR4	140–180°C

Chemical Resistance
for PCB Cleaning Processes

Heat Resistant ESD Plastic is designed to withstand industrial chemicals and PCB cleaning solutions, helping reduce cracking and extending service life compared to standard plastic materials.

IPAFlux CleanerAcidSolventPCB Detergent

Long Service Life
Stable ESD Performance

Unlike surface-coated ESD materials, ESD Engineering Plastics contain anti-static properties throughout the material structure, allowing stable ESD performance even during long-term industrial use.

Reduce Replacement Costs • Reduce Downtime • Improve Production Stability

ESD MATERIAL COMPARISON

ESD Material Comparison
for Industrial Applications

Heat Resistant ESD Plastic is available in multiple material types, each offering different levels of electrostatic protection, heat resistance, and chemical resistance to support various electronics manufacturing processes.

Material	ESD Protection	Heat Resistance	Chemical Resistance	Recommended Applications
ESD PVC	Good	Medium	Medium	Tray / Cover
ESD PP	Very Good	Good	Good	PCB Cleaning
ESD POM	Good	Good	Medium	Jig Automation
ESD FR4	Very Good	High	High	SMT Fixture
ESD PEEK	Excellent	Extreme	Extreme	Semiconductor

CASE STUDY • SMT FACTORY • PCB CLEANING

Real Factory Case Study
Reduce Defects by 37%

Example of Heat Resistant ESD Plastic implementation in an SMT factory that helped reduce electrostatic discharge issues, extend equipment lifespan, and lower production costs in electronics manufacturing environments.

Production Problems Identified

An electronics factory in an industrial estate was using standard plastic trays during the PCB cleaning process, resulting in continuous production line issues.

IC Damage from Static Charge

Tray Deformation from High Heat

Chemical Residue Accumulation

Frequent Tray Replacement Increased Costs

Solution and Results

The factory switched to Heat Resistant ESD Plastic materials including ESD PP and ESD FR4 for PCB cleaning processes and SMT fixtures.

37%

Defect Reduction

3X

Longer Service Life

↓

Reduced Downtime

SAVE

Lower Maintenance Cost

Why SMT Factories Are Switching to Heat Resistant ESD Plastic

Because ESD Engineering Plastics can withstand high temperatures, chemical exposure, and electrostatic discharge over long-term industrial use, they help reduce defects, minimize downtime, and improve production stability in PCB manufacturing environments.

INDUSTRIAL APPLICATION • CLEANROOM • SMT

Industries Suitable for
Heat Resistant ESD Plastic

Heat Resistant ESD Plastic is engineered for electronics manufacturing and semiconductor industries that require electrostatic discharge protection, cleanroom-level cleanliness, and strong resistance to chemicals and high temperatures.

Electronics Manufacturing

Used in electronics production processes that require electrostatic control and protection for sensitive PCB and IC components.

PCB Cleaning

SMT Line

IC Tray

Assembly Area

Semiconductor Industry

Ideal for semiconductor production and automation systems that require ESD-safe materials while supporting high-level cleanroom standards.

Wafer Handling

Semiconductor Jig

Automation Arm

Cleanroom Industry

CLEANROOM BENEFIT

Reduce Risks in High-Precision Manufacturing

Heat Resistant ESD Plastic helps reduce electrostatic buildup, chemical contamination, and particle generation in electronics manufacturing and semiconductor production environments.

Particle

Static Charge

Chemical Contamination

Cleanroom Standard

ESD MATERIAL SELECTION GUIDE

How to Select the Right
ESD Plastic Material

Selecting the right Heat Resistant ESD Plastic should consider temperature resistance, chemical exposure, and service life to ensure stable production performance while reducing defects in industrial manufacturing environments.

01

Select Based on Temperature

If the manufacturing process operates above 120°C, high heat-resistant materials should be selected to prevent deformation and extend equipment lifespan.

ESD FR4ESD PEEK

02

Select Based on Chemical Exposure

If the application involves IPA, flux cleaner, or PCB cleaning chemicals regularly, materials with strong chemical resistance should be used to reduce cracking and material degradation.

IPA ResistantFlux CleanerChemical Resistance

03

Select Based on Service Life

ESD Engineering Grade materials contain anti-static properties throughout the material structure, providing longer service life compared to standard surface-coated ESD materials.

Reduce Long-Term Cost • Reduce Replacement Frequency • Improve Production Stability

PROFESSIONAL RECOMMENDATION

Selecting the Right Material
Helps Reduce Defects and Downtime

Proper Heat Resistant ESD Plastic selection helps improve manufacturing stability, reduce electrostatic discharge issues, minimize contamination risks, and extend equipment lifespan in industrial production environments.

FAQ • HEAT RESISTANT ESD PLASTIC

Frequently Asked Questions
About Heat Resistant ESD Plastic

Common questions about Heat Resistant ESD Plastic for PCB Cleaning, SMT, Semiconductor, and electronics manufacturing industries.

What makes Heat Resistant ESD Plastic different from standard plastic materials?

Heat Resistant ESD Plastic is designed to prevent electrostatic discharge while supporting high-temperature environments and chemical resistance, making it ideal for electronics manufacturing applications.

What applications are suitable for Heat Resistant ESD Plastic?

Commonly used in electronics manufacturing and automation systems such as:

PCB CleaningSMT ProductionSemiconductorCleanroomAutomation

What is the difference between ESD PP and ESD FR4?

ESD PP is suitable for general PCB cleaning applications, while ESD FR4 is ideal for high-temperature environments that require precision jigs and SMT fixtures.

How long is the service life of ESD Plastic materials?

Engineering-grade ESD materials can provide long service life depending on operating temperature, chemical exposure, and production environment conditions.

How should I choose the right Heat Resistant ESD Plastic?

The material should be selected based on important factors such as:

TemperatureChemical ResistancePrecisionService Life

Consulting with ESD material specialists is recommended to ensure the best solution for your production process.

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Heat Resistant ESD Plastic for PCB Cleaning and Electronics Manufacturing

Heat Resistant ESD Plastic for the Electronics Industry

Why PCB Cleaning Processes Require Heat Resistant ESD Plastic