Rail road car truck and fitting therefor

What is claimed is: 1. A rail road car truck comprising: a truck bolster mounted transversely between a pair of first and second sideframes, said truck bolster having first and second ends, each of said first and second sideframes having a sideframe window into which a respective one of said first and second ends of said bolster is received; a first spring group, said first spring group being mounted in said window of said first sideframe, said first spring group including a first array of side-by-side coil springs upon which said first end of said truck bolster is carried; a second spring group, said second spring group being mounted in said window of said second sideframe, said second spring group including a second array of side-by-side coil springs upon which said second end of said truck bolster is carried; said first sideframe having a first end and a first pedestal fitting defined thereat, said first pedestal fitting including a pair of first and second opposed pedestal jaw thrust lugs and a pedestal roof; said second sideframe having a first end and a second pedestal fitting defined thereat, said second pedestal fitting including a pair of first and second opposed pedestal jaw thrust lugs and a pedestal roof; said sideframes being mounted on wheelsets, said wheelsets including a first wheelset, said first wheelset having an axle; said axle having a first end and a second end; said wheelset having first and second bearings mounted on said first and second ends thereof, said bearings having substantially cylindrical bearing casings; said first bearing being mounted in said first sideframe pedestal fitting of said first sideframe and said second bearing being mounted in said second sideframe pedestal fitting of said second sideframe; a first bearing adapter and a second bearing adapter, said first and second bearing adapters being mounted upon the casings of said first and second bearings respectively; each of said bearing adapters having a pair of axially spaced arches, longitudinally spaced end walls and pairs of corner abutments, said pairs of corner abutments being axially spaced to bracket respective ones of said thrust lugs, and each of said end walls of each said bearing adapter extending axially between a respective one of said pairs of said corner abutments; said first sideframe being mounted to yaw appreciably relative to said truck bolster, and said second sideframe being mounted to yaw appreciably relative to said truck bolster; a first elastomeric pad member mounted to overlie at least a portion of said first bearing adapter between said first bearing adapter and said first sideframe pedestal roof of said first sideframe; a second elastomeric pad member mounted to overlie at least a portion of said second bearing adapter between said second bearing adapter and said first sideframe pedestal roof of said second sideframe; and a first set of friction dampers mounted to work between said first end of said truck bolster and said first sideframe; a second set of friction dampers mounted to work between said second end of said truck bolster and said second sideframe; said first set of dampers including a first damper and a second damper; said first damper and said second damper being driven independently of each other; said first damper being mounted transversely inboard of said second damper; said first spring group has a lateral shear stiffness, k spring shear ; each of said sideframes has a sideways swinging stiffness, k sideframe ; and k spring shear is greater than k sideframe when the truck is loaded to its rated gross weight on rail. 2. The rail road car truck of claim 1 wherein said first elastomeric pad member is a passive self-steering pad. 3. The railroad car truck of claim 1 wherein said first elastomeric pad member includes at least one end portion formed to seat between one said end wall of said first bearing adapter and said first sideframe pedestal jaw. 4. The rail road car truck of claim 1 wherein said first elastomeric pad member is made from one of (a) a polyurethane; (b) rubber; and (c) an elastomeric material. 5. The rail road car truck of claim 1 wherein said truck is free of unsprung lateral cross-bracing between said first and second sideframes. 6. The rail road car truck of claim 1 wherein said truck bolster has four damper pockets at each end thereof and respective dampers seated therein. 7. The rail road car truck of claim 6 wherein said damper pockets, and those respective dampers have both primary and secondary wedge angles. 8. The rail road car truck of claim 1 and said dampers include damper wedges having at least one non-metallic friction face. 9. The rail road car truck of claim 1 wherein said dampers include a set of damper wedges, said damper wedges including at least one non-stick slip damper wedge. 10. The rail road car truck of claim 1 and a set of damper wedges for a rail road car truck, said damper wedges having primary damper wedge angles of greater than 35 degrees. 11. The rail road car truck of claim 1 wherein said first set of friction dampers includes a set of friction damper wedges, said wedges having a primary damper angle, and, in up-and-down motion, said dampers having respective up and down forces, said up force being in the range of ⅔ to 3/2 of said down force. 12. The rail road car truck of claim 11 wherein the down force when the bolster is moving downward is less than 3000 lbs. 13. The rail road car truck of claim 1 and a set of damper wedges, said damper wedges having a friction face for mating frictional sliding engagement with a bearing face of said truck, said friction face having a coefficient of static friction and a coefficient of dynamic friction, said coefficients of friction being within 20% of each other. 14. The rail road car truck of claim 1 wherein: said truck has a rolling direction, and, when the truck is at equilibrium on tangent track, said first and second sideframes have respective longitudinal axes parallel to the rolling direction; said sideframe windows of said first and second sideframes are bounded longitudinally by respective first and second sideframe columns; said sideframe columns have respective sideframe column wear plates against which said friction dampers work; said first sideframe column of said first sideframe has a first sideframe column wear plate region against which said first friction damper works, and a second sideframe column wear plate region against which said second friction damper works; said first and second wear plate regions having respective first and second normals, said first and second normal being parallel to each other and to the longitudinal axis of their respective sideframe. 15. The rail road car truck of claim 14 wherein said first sideframe column wear plate of said first sideframe is substantially planar and includes both of said first and second wear plate regions. 16. The rail road car truck of claim 14 wherein: said first sideframe column of said first sideframe column wear plate includes said first sideframe column wear plate region; said first spring group includes rows of springs, said first spring group has a width in the transverse direction, and said first sideframe column wear plate is wider than said width of said first spring group. 17. The rail road car truck of claim 1 wherein said first spring group includes four cornermost coil springs, and a friction damper is mounted over each of said cornermost coil springs. 18. The rail road car truck of claim 17 wherein said cornermos