0800 478 728
01427

STRATA 89 Nickel Alloy for Cast Iron

Enquire
High quality nickel coated alloy for gas welding manifolds, motor blocks, pump housings etc.....
Strata 89 is a break through for the joining of most types of castings and general purpose cast iron applications. It can be applied without porosity and is fully machinable.
Its corrosion resistance is equal to cast iron and the weld metal is a perfect colour match to cast iron.
 

Key Features:

  • Designed to flow just below the melting temperature of cast iron
  • Extremely soft and machineable due to minimal dilution
 

TYPICAL MECHANICAL PROPERTIES

Tensile Strength            Up to 310 MPa (45'000 psi)
Hardness: Rockwell      Brinell 200
Working Temperature 8150C

You might also be interested in ...

STRATA 507TS Tool Steel Filler Wire

TIG wire specially designed for repairing hot work tool steel i.e. forging dies, mandrels, plastic extrusion dies and hot shears.
Enquire for price

STRATA 885 Superior Strength for Cast Iron

For difficult position cast iron repairs with special no side arc characteristics
Enquire for price

STRATA 57F For High Strength Flux Coated Brazing

An exceptionally high strength flux coated brazing alloy for the joining of ferrous and non-ferrous metals
Enquire for price

STRATA 899 High Nickel Shallow Penetration

Very high nickel content providing ultimate machinability especially suitable for welding thin or eroded cast iron.
Enquire for price
GOT A WELDING CHALLENGE......?  Solve it with STRATA!  Btn Question
logo

STRATA INTERNATIONAL

0800 478 728
0800 4STRATA

sales@stratawelding.com

ABOUT US

STRATA International has been supplying welding electrodes to engineers throughout New Zealand for over 25 years and is pleased to support Proline Welding Supplies as the distributor for the South Pacific Region.
Trusted by many to weld in the most challenging applications, STRATA has proved itself to be 'better then the rest' when it comes to specialised welding products, a reputation not easily obtained, but strongly upheld.  Click here to read more.