PCB Prototype and Turnkey PCB Assembly

Your Best PCB & PCB Assembly Supplier

PCB Blog
Future Trends of Flexible Circuit Boards
Rigid-Flex PCB Stack-up for Impedance Controlled Designs
Control Impedance Between Rigid PCB and Flex PCB
Flex PCB Reliability and Bendability
Normal Flex PCB Specifications
Flex PCB Polyimide Coverlay and Solder Mask
Flex PCB Boards and Connectors
About RA Copper and ED Copper
Introduction of Flexible PCB
5 Tips For Designing Flexible PCB
Advantages of FPC (Flexible PCB)
Evolution of the Flex Printed Circuit Board
Benefits of Using Flex Circuit Boards
Why Rigid-Flex PCBs are Economical?
Flexible PCB vs Rigid PCB
Development of Flexible printed circuit board (FPC) market
Traditional Manufacture Engineering of FPC Substrate
Development Trend of FPC Board
Flex PCB and the Manufacturing
About Flex PCB design
About Flex PCB and Assembly
How to Ensure Flex PCB Design Success
How to Select the Appropriate FPC Materials?
The Differences In Rigid PCB, Flex PCB and Rigid-Flex PCB
Flex-Rigid PCB Design Guidelines
Beneficials for Polyimide Flex PCB Boards
About Stiffener on Flex PCB FPC circuit Boards
About ENIG and ENEPIG
PCB Surface Finish Comparison
Copper Thickness for FPC Boards
Interconnect Solutions for Flexible Printed Circuits and Etched Foil Heaters
Advantages and Disadvantages of Rigid-Flex PCB
About FPC Plating Process
About EMI shield design for Flex Printed Circuit Board
PCB Assembly Blog
About PCB Assembly
QFP and BGA and the Development Trend in PCB assembly
Why some components need be baked before reflow soldering
About Flex PCB Assembly
Manual Soldering in SMT Assembly Manufacturing Process
BGA Components and BGA Assembly
Quick Understanding for PCB Assembly Process
About SMT Assembly (Surface Mount Technology)
About THT Assembly (Through-Hole Technology)
About Reflow Soldering
About_Wave_Soldering
PCB Assembly Inspections and Tests
Panel Requirements for PCB Assembly
About SMT (Surface Mount Technology)

There are various materials used to make PCBs depending upon the application requirement. These include Paper, FR4, Aluminum, Copper, polyimide, Teflon, Ceramic, and so on. Polyimide and FR4 are very widely used; And polyimide offers many benefits. 

 

So, what is polyimide? It is a high-performing polymer made of imide monomers. They have good heat and electrical resistance and high mechanical strength, and hence find applications in PCBs, especially flexible boards. Certain properties of polyimide PCBs enable their usage in mission critical applications such as aerospace and defense. 

 

An Overview of Polyimide Material 

 

As mentioned, it is a polymer of imide monomers. Polyimide occurs naturally and it can also be made synthetically. Polyimides can be classified into three types— aliphatic, semi-aromatic, and aromatic compounds. They are most commonly produced by the reaction between dianhydride and a diamine. Synthetic polyimides find a wide application in flexible PCBs. Aside from PCBs, polyimide finds application in cables, displays, fuel cells, and insulation films. Kapton® is a common element used in thermal systems, which is a polyimide made from condensing pyromellitic dianhydride and 4,4′-oxydianiline. This polyimide was developed by DuPont in the 1960s. 

 

Beneficial Features of Polyimide PCBs

 

Here are some peculiar features of polyimide, which make them beneficial for certain PCB applications: 

 

1. They have a high dielectric, as well as tensile strength, and this makes them flexible as well as durable. 

 

2. They have a high heat, chemical, and electricity resistance, and hence offer stability over a wide temperature range. 

 

3. They have an arc resistance of almost 143 seconds. 

 

4. Integration and mounting of components is better on these boards compared to FR4 ones. 

 

5. Polyimide acts as a natural adhesive, and can withstand high temperatures and mechanical stresses. 

 

6. Being a natural adhesive, it offers a good bond strength even at high temperatures. 

 

7. They offer tight tolerances and have a high-quality surface with thin walls. 

 

8. With further advancements such as using oligomeric dianiline, polyimides can be made moisture resistant. 

 

9. Polyimides are not brittle like their other counterparts such as FR4. 

 

10. Polyimides have a specific gravity of up to 1.6 g/cm cube. 

 

11. At 1GHz, they have a dielectric constant of 4.2. 

 

So, do you think polyimide PCBs would suit your application requirements?

 

If you have any doubts, you can always consult a reliable PCB manufacturer and assembler to seek answers. We are always here to help you to figure the issues out. Also, ensure the PCBs are RoHS compliant, players like FPCway would not only help you to make the right decisions but also offer customized end-to-end PCB and PCB Assembly solutions. FPCway has been in custom flex and rigid-flex PCBs and rigid PCB and PCB assembly for 10years. Our professional engineers would be your assistant.

Contact us

  • Email: sales@semipcb.com
  • Tel: 086 18576671093
  • Skype: Downey.Jin_PCB&PCBA
  • Address: No.12, Shapuwei Industrial Road
  • Baoan District, Shenzhen, China

About us

  • Based in Shenzhen China, SemiPCB is professional at PCB
    and PCB Assembly for Rigid PCB, Flex PCB, Rigid-flex PCB.
  • PCB compliant ISO9001, ISO14001, TS16949, UL, RoHS.
    PCB Assembly compliant ISO9001, IATF16949, IPC-A-610E.
  • Our aim is to "become the best supplier for PCB prototype
    and Turnkey PCB Assembly".

Certifications

© 2023~2033 SemiPCB All Rights Reserved