3M™ VHB™ GPH-060GF (0.6mm) Expand

3M™ VHB™ GPH-060GF (0.6mm)

3M 3M

New

3M™ VHB™ GPH 060GF is the next generation of 3M™ VHB™ double sided tapes
  • The tape 0.6mm thick
  • High temperrature resistance (up to 230 °C)
  • Enables multi-material bonding of substrates like metal, glass ABS plastics, rigid PVC and polycarbonate
  • High tack for initial handling strength
Units per 1 roll

More details

£ 10.80

Volume discounts

QuantityDiscountYou Save
2 2.5% Up to £ 0.54
4 5% Up to £ 2.16

The VHB™ GPH 060GF tape is designed for bonding product parts with precision, reliability, and strength.

VHB stands for very high bond and the new GPH series is a general purpose, high temperature, conformable, double coated acrylic foam tape with a high initial tack and a soft foam.

The 3M GPH is used extensively as a number one choice for many indoor and outdoor applications, often as an alternative to liquid adhesives and mechanical fasteners (see related posts for more details). This could be in industries such as metal fabrication, signage, white goods and specialty vehicles.

This is because of its capability to bond to a variety of substrates, making it a good fit for multi material bonding. This includes those substrates that have a high or medium surface energy including many metals (e.g. stainless steel) and plastics (e.g. Polyamide, PMMA, ABS).

KEY FEATURES OF 3M GPH (3M VHB DOUBLE SIDED TAPE)

  • Multi Material Bonding
  • Conformable Foam
  • High temperature resistance (short term +230° C; long term +150° C)
  • High Initial Tack
  • Good balance of high temperature and peel & shear performance
  • Soft foam enables stress relaxation and an easy application
  • Good sealing properties
  • For indoor and outdoor use
The next generation of 3M  VHB. The 3M GPH Series. Infographic of the tapes unique features -

3M VHB GPH Tape Infographic

We'd love to hear from you

If you have any questions about any of our products please call a member of our friendly team on 0844 4438 389 or send us an enquiry using the form below.

Accept Site use cookies