Automobile undercarriage component

1. An automobile undercarriage component comprising at least three elongated arms, each of said arms comprising:

• a web; and
  
  a rib connected to the web in a direction parallel to the plane of the web and transverse to the direction of elongation of the web, the rib having an inner wall surface extending from the rib to terminate at a leading end which is the end of the rib farthest from the web in a direction perpendicular to the plane of the web;
  
  wherein one of said three elongated arms is a first arm having a first one of said ribs;
  
  wherein at least one of said three elongated arms is a second arm having a second one of said ribs;
  
  wherein for each of said second ones of said ribs, the leading end of the respective second one of said ribs has a width in the direction parallel to the plane of the web and transverse to the direction of elongation of the arm which is narrower than the width of a leading end of the first one of said ribs, as an inner wall surface is disposed closer to an opposing outer wall surface in the respective second one of said ribs as compared to the first one of said ribs;
  
  wherein the first one of said ribs includes a first inner wall surface formed and a first outer wall surface opposing the first inner wall surface, the first inner wall surface having an inclination angle θ
  
  of θ
  
  a (°
  
  ), an angular portion formed on the leading end of the first inner wall surface having a curvature radius R of Ra (mm), the first outer wall surface having an inclination angle θ
  
  of θ
  
  b (°
  
  ), an angular portion formed on the leading end of the first outer wall surface having a curvature radius R of Rb (mm), and a planar portion formed between the two angular portions having a width of ws (mm);
  
  wherein the second one of said ribs includes a second inner wall surface and a second outer wall surface, the second inner wall surface having an inclination angle θ
  
  of θ
  
  a′
  
  (°
  
  ), an angular portion formed on the leading end of the second inner wall surface having a curvature radius R of Ra′
  
  (mm), the second outer wall surface having an inclination angle θ
  
  of θ
  
  b′
  
  (°
  
  ), an angular portion formed on the leading end of the second outer wall surface having a curvature radius R of Rb′
  
  (mm), and a planar portion formed between the two angular portions having a width of ws′
  
  (mm); and
  
  wherein, when wa, wb, wa′
  
  , and wb′
  
  are defined to satisfy the equations wa=Ra×
  
  cos θ
  
  a−
  
  (Ra−
  
  Ra×
  
  sin θ
  
  a)×
  
  tan θ
  
  a, wb=Rb×
  
  cos θ
  
  b−
  
  (Rb−
  
  Rb×
  
  sin θ
  
  b)×
  
  tan θ
  
  b, wa′
  
  =Ra′
  
  ×
  
  cos θ
  
  a′
  
  −
  
  (Ra′
  
  −
  
  Ra′
  
  ×
  
  sin θ
  
  a′
  
  )×
  
  tan θ
  
  a′
  
  , and wb′
  
  =Rb′
  
  ×
  
  cos θ
  
  b′
  
  −
  
  (Rb′
  
  −
  
  Rb′
  
  ×
  
  sin θ
  
  b′
  
  )×
  
  tan θ
  
  b′
  
  , the difference L (mm) in width between the first one of said ribs and the second one of said ribs is expressed by the equation L={(wa−
  
  wa′
  
  )+(wb−
  
  wb′
  
  )+(ws−
  
  ws′
  
  )} and L>
  
  0.