technical ceramic solutions

Ceramic Tipped Tweezers Are Widely Used For E-cigarette Industry

Publish Date: by Innovacera

Building a good contact (micro, nano etc) coil involves compressing the wraps while they’re hot. Usually, it’s a matter of fire-release-squeeze-repeat.

With Ceramic Tipped tweezers it becomes fire-and-squeeze-till-done.

So the ceramic tweezers are widely used for contact coil building in the E-cigarette industry.

The ceramic tweezers are made of zirconium oxide ceramics and stainless steel, it is Ceramic pointed tip tweezers

Zirconia ceramic tweezers Advantages:

  • Long time usage
  • Static, no magnetic
  • Strong heat resistance
  • Acid and alkali resistant
  • Can continue to operate

Zirconia ceramic tweezers Application:

  • E-cigarette Industry
  • Chemical Industry
  • Pharmaceutical And Medical Industry
  • Precision sensitive electronic components of the operation

    Ceramic Tipped tweezers are widely used for E-cigarette Industry

    Ceramic Tipped tweezers are widely used for E-cigarette Industry


Declaration: This is an original article of INNOVACERA®. Please indicate the source link when reprinting: https://www.innovacera.com/news/ceramic-tipped-tweezers-are-widely-used-for-e-cigarette-industry.html.

Related Products

  • Mud Pump Ceramic Liner

    ZTA Ceramic Composite Mud Pump Liner

    INNOVACERA's ZTA ceramic composite pump cylinder liner is a core wear resistant component for the hydraulic end of the pump, specifically designed for extreme working conditions such as oil drilling a…

  • Aluminum Nitride Ceramic Heater

    Aluminum Nitride Ceramic Heater

    INNOVACERA is your partner for intelligent product and service solutions in industrial thermal technology. We develop, produce and supply industrial heating elements for semiconductor, healthcare, aut…

  • Zirconia Ceramic Grinding Media Balls

    Zirconia Ceramic Grinding Balls

    Zirconium oxide grinding balls (also known as zirconium oxide beads) are high performance industrial grinding media made from zirconium oxide (ZrO₂) through high temperature sintering. With an extreme…

Enquiry