LINK-US Co., Ltd.

BLOG

Challenge to Difficult-to-Bond Materials: Breaking the Thickness and Multi-Layer Barrier — Single-Pass Bonding of Thick Plates, Zero Misalignment

  • Lithium-ion battery
  • Difficult bonding
  • Bev
  • Electronic components
  • EV

Joining thick metal plates and multi-layered materials is...

Challenge to Difficult-to-Bond Materials: Single-Pass Multi-Point Bonding for Coated Metals — Zero Deformation, Guaranteed Mass Production

  • Difficult bonding
  • Heat exchanger
  • Semiconductor
  • AI Data Center
  • Electronic components

As noted in our previous article, "Breaking the Polymer C...

Challenge to Difficult-to-Bond Materials: A New Standard for Low-Heat, Low-Energy Bonding That Preserves the Resin Layer in Composite Substrates

  • Semiconductor
  • AI Data Center
  • Electronic components
  • EV
  • Difficult bonding
  • Lithium-ion battery
  • Heat exchanger

Continuing our discussion on polymers, this time we focus...

Challenge to Difficult-to-Bond Materials: Breaking the Polymer Coat Barrier — Achieving High-Quality Bonding by Displacing the Polymer Layer

  • Semiconductor
  • AI Data Center
  • Electronic components
  • EV
  • Difficult bonding
  • Lithium-ion battery
  • Heat exchanger

Many metal components are coated with metal or resin for ...

Challenge to Difficult-to-Bond Materials: Breaking the Tin Plating Barrier — Bonding While Leveraging the Plating Layer

  • Semiconductor
  • Electronic components
  • EV
  • Difficult bonding
  • Lithium-ion battery

Tin (Sn) plating is widely used in electronic components,...

The EV Battery Revolution: From Tab to Foil — Low-Energy Bonding Unlocks New Battery Manufacturing Processes

  • Bev
  • EV
  • Cylindrical can
  • Difficult bonding
  • Lithium-ion battery

The performance of an EV battery isn't solely defined by ...

The EV Battery Revolution: Solving Cell Contamination Issues — LINK-US Technology Boosts EV Battery Yield

  • Bev
  • EV
  • Cylindrical can
  • Difficult bonding
  • Lithium-ion battery

For the Electric Vehicle (EV) market to grow sustainably,...

The EV Battery Revolution: Internal bonding for EV Charging Infrastructure—Achieving Low Resistance for High Current Transmission

  • Bev
  • EV
  • Electronic components
  • Difficult bonding
  • Lithium-ion battery

As EV adoption accelerates, not only batteries but also c...

The EV Battery Revolution: Enhanced Reliability through Low-Heat Cu–Al Bonding

  • EV
  • Electronic components
  • Difficult bonding
  • Lithium-ion battery
  • Cylindrical can
  • Semiconductor
  • Bev

As Electric Vehicles (EVs) rapidly gain global adoption, ...

Solved by Ultrasonic Specialists.

Trouble with Bonding or Design? Solved by Ultrasonic Complex Vibration.