High Performance
ENGINEERING PLASTIC
fasteners
Fasteners in plastic material
We provide engineering plastic solutions that address the evolving needs of our clients.
peek
Continuous Use Temp.: 260°C
Flammability: UL94V-0
- High temperature resistance
- Excellent strength, Impact resistance
- Concentrated sulfuric acid is the only general-purpose chemical that can dissolve PEEK
- High wear resistance, Fatigue resistant
- Good radiation resistance
PPS
Continuous Use Temp.: 180°C
Flammability: UL94V-0
- Excellent thermal resistance
- Excellent chemical resistance
- Good electrical properties
- Dimensional stability
- low coefficient of thermal expansion
PI (Polyimide)
Continuous Use Temp.: 300°C
Flammability: UL94V-0
- The ultimate temperature resistant polymer
- Low coefficient of friction and high wear resistance
- Low outgas properties, low particle generation
- Extraordinary dimensional stability
PVDF
Continuous Use Temp.: 140°C
Flammability: UL94V-0
- PVDF has the strongest toughness among fluoroplastics
- Chemically resistant to many harsh environments
- Resistance to weathering and fungi
- Good aging resistance and radiation resistance
- Low coefficient of friction
Nylon
Continuous Use Temp.: 75°C
Flammability: UL94V-2
- Small friction coefficient and high strength
- Excellent resistance to abrasion and Self-lubricating
- Good toughness and excellent impact resistance
- Its high hygroscopic properties must be considered during design.
RENY
Continuous Use Temp.: 105°C
Flammability: UL94HB
- Re-inforced with 50% glass fiber with polyamide MXD6
- Highest strength and coefficient of elasticity
- Excellent oil resistance and heat resistance
PTFE
Continuous Use Temp.: 250°C
Flammability: UL94-V0
- It is inactive to most of the chemicals and solvents
- Nonadhesiveness and excellent self-lubricating
- Excellent electrical characteristics
PP
Continuous Use Temp.: 65°C
Flammability: UL94HB
- The lightest one among all general purpose plastics
- Good elasticity and bending fatigue resistance
- Excellent hydrolysis resistance and electrical properties
- Chemical stability. Resistant to weak acid and alkali
PC
Continuous Use Temp.: 115°C
Flammability: UL94V-2
- Transparent and self-extinguishing
- Excellent impact resistance
- High strength and elasticity coefficient
- Low molding shrinkage and good dimensional stability
- Good heat aging resistance
PVC
Continuous Use Temp.: 55°C
Flammability: N/A
- Excellent water, acid, alkali and solvent resistance
- Excellent electrical properties
- PVC is inferior heat resistance, it generates hazardous substances like chlorine gas upon combustion
Ceramic
Continuous Use Temp.: 1500°C
- Good abrasion resistance, very high hardness and stable dimension
- Can be glued to metals with heat treatment
- Excellent corrosion resistance and absence of out gas in high temperature gases
APPLICATIONS OF
ENGINEERING PLASTIC FASTENERS
In the medical industry, maintaining a sterile environment is paramount. Engineering plastic fasteners exhibit exceptional resistance to various sterilization methods, including autoclaving, ethylene oxide (EtO) sterilization, and gamma irradiation. This resistance ensures that the fasteners can withstand the rigorous sterilization processes necessary for medical instruments and equipment, preventing contamination and ensuring patient safety.
Semiconductor manufacturing requires tools and equipment that can withstand high temperature, harsh chemical environments. Engineering plastic fasteners, known for their high temperature resistance, chemical resistance and durability, are well-suited for securing components in semiconductor processing equipment.
Automotive applications require fasteners that are not only durable and corrosion-resistant but also lightweight to contribute to fuel efficiency. Engineering plastic fasteners meet these criteria, providing reliable solutions for automotive assembly and components.
The machinery industry relies on fasteners that can handle heavy loads, resist wear, and provide reliable connections. Engineering plastic fasteners, known for their strength, durability, and resistance to wear, find applications in various machinery, contributing to overall equipment performance.
In the electronics industry, precision and electrical insulation are critical. Engineering plastic fasteners offer lightweight solutions, resist corrosion, and provide excellent electrical insulation, making them ideal for securing electronic components without interfering with their functionality.
Aerospace applications demand materials that can withstand extreme conditions, including temperature variations and exposure to chemicals. Engineering plastic fasteners, with their high-performance characteristics, are used in aerospace components where reliability is paramount.
BENEFITS OF ENGINEERING PLASTIC FASTERNERS
Light Weight | Corrosion Resistance | Thermal Insulation | Electrial Insulation | Non-Magnetic | High Purity
These benefits make them a versatile and reliable choice in various industries where specific material properties are required for optimal performance.
Lightweight – Significantly lighter than metal fasteners, making them ideal for applications where weight is a critical factor.
Corrosion Resistance – Resistant to corrosion, ensuring a longer lifespan and reducing the need for frequent maintenance and replacement
Thermal Insulation – Excellent thermal insulation properties, preventing heat transfer and maintaining stability in temperature-sensitive environments.
Electrical Insulation – Provides excellent electrical insulation, making them suitable for applications where electrical conductivity must be avoided.
Non-Magnetic – Non-magnetic properties make them ideal for applications where magnetic interference could be problematic.
High Purity: – Can be manufactured with high purity, meeting stringent cleanliness and hygiene standards, making them suitable for industries with strict requirements on contamination.