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May 19, 2023Protection plate wear resistance revolution in Africa - African Mining Online
Embodying two complementary mechanical properties, the HX900 wear protection plate from Sandvik Rock Processing is about to take Africa by storm. Combining nodular iron and cemented carbides creates unprecedented resistance to both impact and abrasion, according to the company’s Phumi Motsamai, regional manager Screening Media & Wear Protection Africa at the company.
Sandvik Rock Processing’s HX900 wear protection plates are now being launched in Africa. Supplied by Sandvik Rock Processing Solutions South Africa
Having demonstrated a step-change in wear resistance on mines globally, the Sandvick’s wear protection plates are now being launched in Africa.
The company says that the results achieved by the HX900 plates have been remarkable, extending wear life by many multiples in real life mining applications. The plates are mainly used in applications such as feeders, feed chutes, transfer chutes, skirt liners, rock box edge liners, load-haul equipment and buckets – in countries including Australia, Brazil, Peru, Sweden and the US.
“What makes our wear protection plate so effective is the unique combination of two different mechanical properties in a single piece,” says Motsamai. “The nodular iron resists the high impact of material, while the cemented carbides provide outstanding resistance to abrasion.”
The performance of carbide, for instance, has been shown to last up to five times longer than white iron, and up to 20 times longer than quenched steel. The longer wear life means extended replacement intervals and lower total cost of ownership (TCO), says Motsamai. This brings a range of operational benefits including higher productivity through less downtime, and improved safety as maintenance technicians are less frequently in contact with equipment. There is also less need for high volumes of replacement inventory to be stored on site.
She explains that the nodular iron – also known as ductile iron – is a special type of cast iron with a characteristic microstructure that enhances its mechanical properties. It contains graphite in the form of nodules or spheroids, which impart ductility and toughness.
“Nodular iron has a higher tensile strength and can undergo significant deformation without failing,” she says. “It absorbs energy well and has good fatigue resistance, making it ideal for components that are subject to dynamic and cyclic loading conditions.”
The cemented carbides in HX900 consist of hard carbide particles bonded together by a metallic binder of primarily tungsten carbide. With a hardness of about nine on the Mohs scale, tungsten carbide is one of the hardest known materials, just behind diamonds and cubic boron nitride.
“This extreme hardness gives HX900 outstanding resistance to wear and abrasion,” she says.
“Compared to quenched and tempered 500 HB steels, cast-in-carbides can last up to 10 times longer; this improvement can be up to 50 times longer compared to regular chromium carbide overlays and white iron.”
Motsamai cites a case study in which HX900 replaced Hardox 400 plates lining a transfer chute in a Brazilian gold mine. After the Hardox 400 plates had worn through after only two weeks and just 108 000t of material throughput, the HX900 plates lasted 75 weeks – withstanding the passage of over 3.8 million tons of material. In a similar application, the HX900 replaced Hardox 500 wear plates – and extended wear life from 18 weeks to 52 weeks.
“In a copper mine in Sweden, the wear life of Hardox 500 in an accelerator chute was just two weeks – or 600 000t of production,” she says. “After they installed HX900 plates, the mine was able to achieve a wear life of 32 weeks or 9 million tons.”
This innovation also has important sustainability benefits for customers, she continues, as the carbide production makes a key contribution to the circular economy.
“Our HX900 plates embody high levels of good sustainability practice, as they utilise 99% recycled nodular iron and 100% recycled cemented carbides,” she says. “Research has shown that using recycled materials in this way consumes 70% less energy and cuts overall carbon dioxide emissions by 40%.”
Source: supplied by Sandvik Rock Processing
Case studies Source: