Wear-resistant iron-based alloy compositions comprising nickel

The invention claimed is: 1 . An iron-based alloy composition consisting of: boron (B): 1.6-2.4 wt. %; carbon (C): 1.7-3.0 wt. %; molybdenum (Mo): 16.0-19.5 wt. %; nickel (Ni): more than 4 wt % and up to 6.5 wt %; manganese (Mn): below 0.8 wt. %; silicon (Si): more than 1 wt % and up to 3.0 wt. %; vanadium (V): 10.8-13.2 wt. %; chromium (Cr): up to 0.3 wt %; and balanced with iron (Fe) and unavoidable impurities, wherein the alloy has a microstructure comprising primary boride and eutectic matrix, wherein a ratio of an amount of primary boride by volume to an amount of eutectic matrix by volume is below 0.3. 2 . The iron-based alloy composition according to claim 1 , wherein the amount of silicon is more than 1 wt % and up to 2 wt. %. 3 . The iron-based alloy composition according to claim 1 , wherein the amount of boron is 1.8-2.3 wt. %. 4 . The iron-based alloy composition according to claim 1 , wherein the amount of nickel is 4.2-5.2 wt. %. 5 . The iron-based alloy composition according to claim 1 , wherein a total amount of impurities in the iron-based alloy composition is below 1 wt. %. 6 . The iron-based alloy composition according to claim 1 , wherein the iron-based alloy composition is formed from a powder composition, wherein at least 95 wt. % of the powder composition has a particle size of up to 300 μm, and/or wherein at least 95 wt. % of the powder composition has a particle size of at least 5 μm. 7 . An item comprising a substrate portion and a coating bonded to the substrate portion, wherein the coating is made using an iron-based alloy composition as a coating material, wherein the iron-based alloy composition consists of: boron (B): 1.6-2.4 wt. %; carbon (C): 1.7-3.0 wt. %; molybdenum (Mo): 16.0-19.5 wt. %; nickel (Ni): more than 4 wt % and up to 6.5 wt. %; manganese (Mn): below 0.8 wt. %; silicon (Si): more than 1 wt % and up to 3.0 wt. %; vanadium (V): 10.8-13.2 wt. %; chromium (Cr): up to 0.3 wt %; and balanced with iron (Fe) and unavoidable impurities, wherein the coating has a microstructure comprising primary boride and eutectic matrix, wherein a ratio of an amount of primary boride by volume to an amount of eutectic matrix by volume is below 0.3. 8 . The item according to claim 7 , wherein the coating is applied by an overlay welding process. 9 . The item according to claim 7 , wherein a substrate material dilution is below 20%. 10 . The item according to claim 7 , wherein the coating has a Rockwell hardness HRC of at least 60. 11 . The item according to claim 7 , wherein the coating has an abrasive wear resistance as determined according to ASTM G65, procedure A, of, below 15 mm 3 . 12 . The item according to claim 7 , wherein the coating has an impact wear as determined according to the ball impact wear testing method of more than one strike for an impact energy per strike of 25J, more than 5 strikes for an impact energy per strike of 20J, and more than 15 strikes for an impact energy per strike of 10J. 13 . Method of hardfacing a substrate, the method comprising the steps of: providing a substrate; applying a coating to the substrate using an iron-based alloy composition as a coating material, wherein the iron-based alloy composition consists of: boron (B): 1.6-2.4 wt. %; carbon (C): 1.7-3.0 wt. %; molybdenum (Mo): 16.0-19.5 wt. %; nickel (Ni): more than 4 wt % and up to 6.5 wt. %; manganese (Mn): below 0.8 wt. %; silicon (Si): more than 1 wt % and up to 3.0 wt. %; vanadium (V): 10.8-13.2 wt. %; chromium (Cr): up to 0.3 wt %; and balanced with iron (Fe) and unavoidable impurities, wherein the coating has a microstructure comprising primary boride and eutectic matrix, wherein a ratio of an amount of primary boride by volume to an amount of eutectic matrix by volume is below 0.3. 14 . The method according to claim 13 , wherein the coating is applied by an overlay welding process. 15 . The iron-based alloy composition according to claim 1 , wherein the amount of silicon is more than 1 wt % and up to 1.5 wt. %. 16 . The iron-based alloy composition according to claim 1 , wherein the amount of nickel is 4.2 to 6.5 wt. %. 17 . The iron-based alloy composition according to claim 1 , wherein the amount of nickel is more than 4 wt % and up to 5.5 wt. %. 18 . The iron-based alloy composition according to claim 1 , wherein the iron-based alloy composition is formed from a powder composition. 19 . The item according to claim 7 , wherein the amount of silicon is more than 1 wt % and up to 1.5 wt. %. 20 . The method according to claim 13 , wherein the amount of silicon is more than 1 wt % and up to 1.5 wt. %. 21 . The item according to claim 7 , wherein the amount of nickel is 4.2 to 6.5 wt. %. 22 . The method according to claim 13 , wherein the amount of nickel is 4.2 to 6.5 wt. %.