WEARTECH SHS®8000HV
SHS8000HV is a glass forming iron based alloy that forms a nanocomposite comprised of a mixed amorphous and nanoscale microstructure when sprayed as a coating. SHS8000HV features exceptionally high wear resistance exceeding chrome plating, and approaching CerMets and carbides.
- Excels in high abrasion, erosion environments, both wet and dry
- Very good metal to metal (two body) wear resistance
- Superior bond strength without necessity of bond coat
- Can be finished to very high surface specifications
- Hardness and corrosion and wear resistance is superior to hard chrome
PROPERTIES
SHS8000HV coatings exhibit excellent wear resistance and superior bond strength. Superior bond strength values signify that this material has exceptional adhesion and cohesion. This also highlights the material’s extremely low residual stress (even at high thicknesses) inherent in this coating type. The probability of “pull-out” of individual particles during The ability to withstand high impact and resist extreme abrasion and corrosion makes SHS9172HV an excellent hard chrome alternative.
SHS9192U is an iron based steel alloy with a near nanoscale (submicron) microstructure that features extreme abrasion resistance with high toughness, high volume of hard phases and superior high temperature hardness. SHS9192U is an alternative to chrome and tungsten carbides.
- 69 – 72 HRc in a single pass weld deposit
- ASTM G65-04 Procedure A typical mass loss 0.10g
- Extreme resistance to abrasion while maintaining high toughness
- Alternative weld material to tungsten carbides, chrome and complex carbides
- Maintains high hardness at high temperatures
PROPERTIES
SHS9192U represents a breakthrough in the development of hardfacing wires due to its ability to survive in extreme environments. SHS9192U is a patented multicomponent, glass-forming iron-based steel alloy designed to replace and be superior to existing cored wire products including chrome carbide, complex carbides and tungsten carbides; stick weld material loaded with carbides; and tungsten carbide laden Teflon® sheet overlays traditionally used for high abrasion environments. When applied as a weld overlay, SHS9192U deposits provide extreme resistance to abrasion while maintaining high toughness. While conventional weld overlay materials are macrocomposites containing hard particles and general carbides in a binder, SHS9192U is unique since it starts with a uniform glass-forming melt chemistry which allows high undercooling to be achieved during welding. This results in considerable refinement of the microstructure down to the micron and submicron range.
HIGH HARDNESS
SHS9192U has been engineered so that while the same levels of dilution can be expected (~ 30%) based on the application method, the dilution layer itself retains maximum hardness and wear resistance after a short distance from the weld overlay interface (i.e. within 100 µm). This allows maximum hardness/wear resistance to develop in the first weld overlay pass while conventional weld materials need two or more passes to generate their best wear characteristics. Elevated temperature hardness measurements have shown 680 Vickers hardness (60 HRC) is maintained at 1100°F showing that SHS9192U exhibits superior elevated temperature hardness. SHS 9192U overlays should be limited to two layers for typical applications
EXTREME ABRASION/EROSION RESISTANCE
SHS9192U exhibits extreme abrasion resistance through the in situ formation of high volume fractions (i.e. 60% – 70%) of complex borocarbide phases. Conventional approaches to wire design incorporate hard particles in the core of the wire and are limited volumetrically to much lower fractions of hard particles which limit their wear performance. In wear resistance testing, typical mass loss of 0.10g in ASTM G65-04 abrasion tests for SHS9192U is revolutionary in a weld wire product. This unmatched wear performance allows SHS9192U to be used as an alterative for some severe wear applications currently dominated by 60% tungsten carbide PAW materials, the previous benchmark weld material for wear performance.
DAMAGE TOLERANCE
Superior wear resistance of SHS9192U occurs from the in situ formation of high volume fraction of refined complex borocarbide phases. The borocarbide phases, which form during solidification, are completely wetted by the matrix and prevent premature pull-out delamination and crack nucleation. The refined nature of the borocarbide phases allows the reduction of stress concentration sites and the ductile matrix, which consists of α-Fe and α-Fe phases, supplies effective crack blunting and bridging.