Hardfacing process and parts produced thereby

We claim: 1. A manufacturing process for a component subject to wear, comprising: depositing a clad layer having a thickness greater than about 0.5 mm (0.02 in) on a steel body of the component using a hardfacing process, the steel body having a hardness between about 43 HRC and 60 HRC; and heat treating the component after the cladding, the heat treating including; austenizing the component by exposing the component to an austenizing temperature between about 875 C (1607 F) and about 900 C (1652 F); quenching the component in a liquid bath at a quenching temperature between about 35 C (95 F) and about 41 C (106 F); and removing the component from the liquid bath; tempering the component after the removing by exposing the component to a tempering temperature between about 143.3 C (290 F) and about 154 C (309 F); and cooling the component to room temperature after the tempering. 2. The manufacturing process of claim 1 , wherein depositing a clad layer includes depositing a clad layer having a thickness of about 5 mm (0.2 in) on a wear component. 3. The manufacturing process of claim 1 , wherein depositing the clad layer includes creating a heat affected zone (HAZ) directly below the clad layer due to the depositing, the HAZ being a region of the body where a lowest hardness before the heat treating is more than about 40% lower than a base hardness of the steel, and wherein the heat treating restores hardness of the HAZ such that, after the heat treating, a lowest hardness in the HAZ is to within about 10% of the base hardness. 4. The manufacturing process of claim 1 , wherein austenizing the component includes maintaining a temperature of the component at an the austenization temperature for about 60 minutes. 5. The manufacturing process of claim 1 , wherein quenching the component includes transferring the component, at the austenizing temperature, into a water bath maintained at the quenching temperature. 6. The manufacturing process of claim 5 , wherein removing the component from the liquid bath includes removing the component from the water bath when the component is at a temperature between about 100 C (212 F) and about 300 C (572 F). 7. The manufacturing process of claim 1 , wherein removing the component includes removing the component from the liquid bath after a time of about 40 to 60 seconds. 8. The manufacturing process of claim 1 , wherein tempering the component includes transferring the component from the liquid bath into a temper furnace maintained at the tempering temperature. 9. The manufacturing process of claim 1 , wherein tempering the component further includes maintaining a temperature of the component at the tempering temperature for about 85 to about 90 minutes. 10. The manufacturing process of claim 1 , wherein cooling the component includes cooling the component to room temperature in air. 11. The manufacturing process of claim 1 , wherein quenching the component in a liquid bath includes quenching the component in an oil or a polymer bath. 12. The manufacturing process of claim 1 , wherein the steel body of the component includes a low alloy boron steel. 13. The manufacturing process of claim 12 , wherein the low alloy boron steel is SAE51B27. 14. A manufacturing process for a component subject to wear, comprising: depositing a clad layer on a component made of a low alloy boron steel using a hardfacing process; and heat treating the component after depositing the clad layer, the heat treating including; austenizing the component by exposing the component to an austenizing temperature between about 875 C (1607 F) and about 900 C (1652 F); quenching the component in a liquid bath; removing the component from the liquid bath when a temperature of the component is between about 100 C (212 F) and 300 C (572 F); tempering the component after the removing by exposing the component to a tempering temperature between about 143.3 C (290 F) and 154 C (309 F); and cooling the component to room temperature after the tempering. 15. The manufacturing process of claim 14 , wherein austenizing the component includes exposing the component to the austenizing temperature for about 60 minutes, and quenching the component includes quenching the component in a liquid bath at a quenching temperature between about 35 C (95 F) and 41 C (106 F). 16. The manufacturing process of claim 14 , wherein the low alloy boron steel is SAE51B27, and the liquid bath includes water. 17. The manufacturing process of claim 14 , wherein tempering the component further includes exposing the component to the tempering temperature for about 85 to about 90 minutes. 18. A manufacturing process for a component subject to wear, comprising: depositing a clad layer on a component made of a low alloy boron steel using a hardfacing process; and heat treating the component after depositing the clad layer, the heat treating including; austenizing the component by exposing the component to an austenizing temperature for about 60 minutes; quenching the component in a liquid bath maintained at a quenching temperature of between about 35 C (95 F) and about 41 C (106 F); removing the component from the liquid bath when a residual temperature of the component is between about 100 C (212 F) and 300 C (572 F); tempering the component after the removing by exposing the component to a tempering temperature between about 143.3 C (290 F) and 154 C (309 F) for about 85 to about 90 minutes; and cooling the component to room temperature after the tempering. 19. The manufacturing process of claim 18 , wherein the austenizing temperature is between about 875 C (1607 F) and about 900 C (1652 F). 20. The manufacturing process of claim 18 , wherein the austenizing temperature is between about 879 C (1582 F) and 889 C (1664 F) and the tempering includes placing the component after quenching in a tempering furnace maintained at the tempering temperature.