Tailor welded panel beam for construction machine and method of manufacturing

What is claimed is: 1 . A beam for use in a piece of construction equipment, the beam having a longitudinal axis and comprising: a) a top panel, a bottom panel and two side panels connected together into a body, with two top corners and two bottom corners; b) at least one of the panels being made from at least two pieces of material joined together, the two pieces of material having a different compressive strength per unit of length in a direction transverse to said longitudinal axis; c) the top panel being welded with full penetration welds to the two side panels to form the two top corners of the beam, with each top corner being made from an edge surface of the top panel butting up against an inside surface of one of the side panels, wherein a plane defined by the inside surface of the side panel is parallel to an outside surface of the side panel, with the welds occurring at the two top corners where the edge surface of the top panel butts up against the inside surface of a side panel; and d) the bottom panel being welded with full penetration welds to the two side panels to form the two bottom corners of the beam, with each bottom corner being made from an edge surface of one of the side panel butting up against an upper surface of the bottom panel, with the welds occurring at the two bottom corners where the edge surface of each side panel butts up against the upper surface of the bottom panel. 2 . The beam of claim 1 wherein the at least two pieces of material are joined together at a joint with the joint running parallel to the beam longitudinal axis. 3 . The beam of claim 1 wherein the at least two pieces of material are joined together by a weld at a joint with the joint running at an angle of between 0.1° and 2° with respect to a line intersecting the weld and parallel to the beam longitudinal axis. 4 . The beam of claim 1 wherein each of the panels is made from at least three pieces of steel, with at least two of the pieces of steel having different thicknesses than one another. 5 . The beam of claim 1 wherein the beam has a generally rectangular transverse cross-section. 6 . The beam of claim 1 wherein the beam has a generally trapezoidal transverse cross-section. 7 . The beam of claim 1 wherein at least the bottom panel and the two side panels are each made from at least two pieces of steel having a different compressive strength per unit of length in a direction transverse to said longitudinal axis. 8 . The beam of claim 1 wherein at least the bottom panel and the two side panels are each made from at least three pieces of steel constituting two adjoining outer pieces and a mid-portion on each panel, with the steel used on the adjoining outer pieces of each of the bottom and two side panels being thicker than the steel used in the mid-portion of the same panel, such that when the panels are welded together, each of the corners form a fabricated, reinforced corner. 9 . The beam of claim 1 wherein the piece of construction equipment is a crane and the beam is used as a telescoping section of a telescoping boom. 10 . The beam of claim 8 wherein the two adjoining outer pieces of steel in the bottom panel have a thickness that is at least 1.5 times the thickness of the mid-portion in the bottom panel. 11 . The beam of claim 1 wherein both of the side panels are stamped with a plurality of embossings to increase the stiffness of the side panels. 12 . The beam of claim 1 wherein the panels form a flush joint at each of the corners. 13 . The beam of claim 1 , wherein at least one weld on at least one of the top panel and the bottom panel is configured to support at least one of a shear load, a bending load, and a compressive load. 14 . The beam of claim 1 , wherein at least one weld on the bottom panel is configured to support a compressive load. 15 . The beam of claim 1 , wherein at least one weld on the top panel is configured to support at least one of a shear load and a bending load. 16 . The beam of claim 1 , wherein a weld root of at least one weld is configured to carry less tensile load than a weld face of the at least one weld when the beam is subject to a force. 17 . The beam of claim 1 configured for use as a section of a telescoping boom and further comprising at least two top wear pads connected to the top panel, at least two bottom wear pads connected to the bottom panel, and at least one side wear pad connected to each side panel, and wherein all of said wear pads are positioned such that a common transverse plane intersects at the longitudinal centerline of said wear pads. 18 . A boom section having a longitudinal axis for use in making a telescoping boom for a crane comprising: a) a top panel, a bottom panel and two side panels connected together into a body, with two top corners and two bottom corners; b) at least the bottom panel being made from at least first, second and third pieces of steel welded together with the first piece of steel in between the second and third pieces of steel, with the first piece of steel being thinner than the second and third pieces of steel, the first piece of steel of the bottom panel including a curved region extending away from the longitudinal axis when viewed in a cross-section perpendicular to the longitudinal axis of the boom section and running in the direction of the longitudinal axis of the boom section. 19 . The boom section of claim 18 wherein the second and third pieces of steel each provide a relatively flat region adjacent the bottom corners. 20 . A combination of panel members for use in making a boom section having a longitudinal axis for a telescoping crane boom comprising: a) a top panel; b) a bottom panel comprising at least three pieces of steel welded together, each weld running the length of a long side of the bottom panel, the three pieces constituting a first piece of steel in between a second piece and a third piece of steel, the second piece and the third piece each being coupled to the first piece with a butt weld, the first piece including a curved region extending away from the longitudinal axis when viewed in a cross-section perpendicular to the longitudinal axis of the boom section and running in the direction of the longitudinal axis of the boom section; c) a first side panel comprising at least two pieces of steel welded together, the weld running the length of a long side of the first side panel; and d) a second side panel comprising at least two pieces of steel welded together with a butt weld between adjoining pieces, each butt weld running the length of a long side of the second side panel. 21 . The combination of claim 20 wherein the bottom panel has three pieces of steel and the first piece has a smaller thickness than the thicknesses of the second and third pieces. 22 . The combination of claim 21 wherein the center piece of the bottom panel includes a plurality of bends in the steel running parallel to the long side of the bottom panel. 23 . A boom section having a longitudinal axis for use in making a telescoping boom for a crane comprising: a) at least a first panel member that forms a top shell for the boom section, the at least first panel member being formed into a curved shape that when viewed in cross-section includes at least two sections of different curvature; b) at least a second panel member that forms a bottom shell for the boom section, the at least second panel member being formed into a