Bimetal hardfacing wear plates are composite materials used in various industries to protect equipment and machinery from wear and abrasion.
Bimetal hardfacing wear plates are manufactured by bonding two different types of metals together, typically a low carbon steel base layer and a high carbon or high chromium alloy layer.
The low carbon steel base layer provides structural support and toughness, while the high carbon or high chromium alloy layer provides excellent wear resistance and hardness. The combination of these two metals creates a wear-resistant surface that can withstand high levels of abrasion, impact, and heat.
The bimetal hardfacing wear plates can be easily fabricated and shaped to fit different equipment surfaces, including chutes, hoppers, excavator buckets, and conveyor systems. They are commonly used in industries such as mining, cement, steel, power generation, and recycling.
1. Extended equipment life: These plates significantly increase the lifespan and durability of machinery, reducing maintenance and downtime costs.
2. Superior wear resistance: The high carbon or high chromium alloy layer provides excellent resistance against abrasion, erosion, and impact.
3. Easy installation and replacement: The plates can be easily welded or bolted onto equipment surfaces, and damaged plates can be quickly replaced.
4. Versatility: Bimetal hardfacing wear plates can be customized to fit different shapes and sizes, making them suitable for a wide range of applications.
5. Cost-effective: The extended lifespan of equipment and reduced maintenance requirements translate into cost savings for businesses.
Overall, bimetal hardfacing wear plates are a reliable and effective solution for protecting equipment and machinery in high-wear environments, ensuring optimal performance and longevity.
Bimetallic wear plates are chosen for their unique advantages in various industrial applications.
The combination of different materials in these plates provides enhanced wear resistance and durability.
Bimetallic wear plate is an overlay weld resistant to the formation of a wear-resistant layer based on Cr7C3 carbide with a volume fraction of 50% or more on a common steel plate (Q235(A3) or heat-resistant steel (15CrMo, 12Cr1MoV, etc.) or stainless steel plate.
Bimetallic wear plate has high wear resistance, impact resistance, deformable and weldable performance characteristics, like steel plates can be directly rolled plate deformation, cutting and punching and other processes, processing into wear-resistant parts.
Chute Liner
Coal Pulverizers Wear Liner
Crusher Liner
Anti low stress chromium carbide plate
Raw mill guide cone wear liner
Placas bimetalicas al alto cromo (Cr)
Placas bimetalicas al cromo niobio (CrNb)
Placas bimetalicas al cromo niobio, vanadio, tungsteno (CrNbVW)
Placas ultraligeras tipo CCMAX de alta dureza y resistencia a abrasión/erosión
304 Stainless is a low carbon (0.08% max) version of basic 18-8 also known as 302.
Type 316 is more resistant to atmospheric and other mild environments than Type 304.
310S Stainless Steel has excellent resistance to oxidation under constant temperatures to 2000°F.
317L is a molybdenum bearing austenitic chromium nickel steel similar to type 316, except the alloy content in 317L is somewhat higher.
Alloy 321 (UNS S32100) is a titanium stabilized austenitic stainless steel with good general corrosion resistance.
Type 410 is a martensitic stainless steel which is magnetic, resists corrosion in mild environents and has fairly good ductility.
ASTM A213 ASME SA-213 TP347H Seamless Steel Tubes contains NB-Cr-Ni austenitic stainless steel.
Duplex 2205 (UNS S31803), or Avesta Sheffield 2205 is a ferritic-austenitic stainless steel.
Duplex 2507 (UNS S32750) is a super duplex stainless steel with 25% chromium, 4% molybdenum..
Material to UNS S32760 is described as a super duplex stainless steel with a microstructure of 50:50 austenite and ferrite.
ASTM A269 / A269M Standard Specification for Seamless and Welded Austenitic Stainless Steel Tubing for General Service
ASME SA 249 Standard Specification for Welded Austenitic Steel Boiler, Superheater, Heat-Exchanger, and Condenser Tubes.
904L stainless steel consists of chromium, nickel, molybdenum and copper contents, these elements give type 904L...
06Cr19Ni10 stainless steel is a grade of stainless steel produced in accordance with the American ASTM standard.
Ceramic lined pipe is made through self-propagating high-temperature synthesis (SHS) technique.
Cast basalt lined steel pipe is composed by lined with cast basalt pipe, outside steel pipe and cement mortar filling between the two layers.
Ceramic tile lined pipes have very uniform coating of specially formulated ceramic material that is affixed to the inner of the pipe.
The material of the rare earth alloy wear-resistant pipe is ZG40CrMnMoNiSiRe, which is also the grade of rare earth alloy steel.
Tubes Erosion Shields are used to protect boiler tubing from the highly erosive effects of high temperatures and pressures thereby greatly extending tube life.
The ASTM A213 T91 seamless tubes are primarily used for boiler, superheater, and heat-exchanger.
