Cladding structure and method

What is claimed is: 1. A machine component comprising: a body including a one-piece core formed of a core material and having at least one fatigue sensitive region and at least one fatigue insensitive region, and a cladding formed upon the one-piece core and extending throughout the at least one fatigue sensitive region; the cladding being formed by a set of primary bands of cladding material deposited upon and bonded to the one-piece core in contact with the core material, and a set of secondary bands of cladding material deposited upon and bonded to the one-piece core in contact with the core material; each of the primary bands being adjacent to and abutting at least one other primary band; and each of the secondary bands being oriented transverse to a plurality of the primary bands to inhibit propagation of cracks within an inter-pass clad boundary formed between adjacent ones of the primary bands; and each of the secondary bands being spaced apart from one another and each oriented so as to interrupt at least one of the inter-pass clad boundaries. 2. The machine component of claim 1 wherein the body includes an elongate shaft defining a longitudinal axis extending between a first end of the elongate shaft and a second end of the elongate shaft, and wherein the at least one fatigue sensitive region includes an axial segment of the elongate shaft that extends circumferentially around the longitudinal axis, and at least one of the set of primary bands or the set of secondary bands has an axial extent not less than an axial extent of the at least one fatigue sensitive region. 3. The machine component of claim 2 wherein the one-piece core has a cylindrical section and a conical section, and the fatigue sensitive region is formed at least in part by a transition between the cylindrical section and the conical section. 4. The machine component of claim 3 wherein the secondary bands are parallel to the longitudinal axis within the cylindrical section and spaced circumferentially around the longitudinal axis, and wherein the secondary bands are inclined to the longitudinal axis within the conical section and spaced circumferentially around the longitudinal axis. 5. The machine component of claim 2 wherein the machine component is a strut having an opening formed in the second end of the elongate shaft. 6. A machine component comprising: an elongate body defining a longitudinal axis, the elongate body including a core formed of a core material, and a cladding upon the core, the cladding including a set of primary bands and a set of secondary bands, and each of the set of primary bands and the set of secondary bands being in contact with the core material; the primary bands being oriented adjacent to and abutting at least one other primary band, such that an inter-pass clad boundary extends between adjacent ones of the primary bands, the adjacent ones of the primary bands extending at least 360 degrees around the longitudinal axis such that the inter-pass clad boundary forms a continuous boundary around the machine component; the set of secondary bands being spaced apart from one another and each oriented so as to interrupt at least one of the inter-pass clad boundaries; and at least one of the inter-pass clad boundaries being uninterrupted by the set of secondary bands. 7. The machine component of claim 6 wherein an angle between each of the secondary bands and the at least one inter-pass clad boundary is from 45 degrees to 90 degrees. 8. The machine component of claim 6 wherein each of the primary bands wraps at least once around a perimeter of the machine component. 9. The machine component of claim 2 wherein an axial extent of the set of primary bands is greater than an axial extent of the set of secondary bands. 10. The machine component of claim 8 wherein an axial extent of the set of primary bands is not less than an axial extent of the set of secondary bands. 11. The machine component of claim 6 further including a fatigue sensitive region and a fatigue insensitive region, wherein the cladding extends throughout the fatigue sensitive region into the fatigue insensitive region such that at least one of the primary bands is upon the core within the fatigue insensitive region. 12. The machine component of claim 11 wherein the fatigue sensitive region includes a transition from a first type of material to a second type of material. 13. The machine component of claim 6 wherein the set of secondary bands are bonded to the core. 14. The machine component of claim 6 wherein the cladding includes a first type of segment and a second type of segment, the first type of segment having a patterned appearance and including the set of primary bands and the set of secondary bands, and the second type of segment having a substantially smooth appearance substantially free of patterning. 15. The machine component of claim 14 wherein the machine component is a remanufactured machine component having a core removed from service in a machine, the second type of segment of the cladding having the same composition as the core.