49 C.F.R. Appendix F to Part 238
As specified in § 238.209(b), the forward end of a cab car or an MU locomotive may comply with the requirements of this appendix in lieu of the requirements of either § 238.211 (Collision posts) or § 238.213 (Corner posts), or both. The requirements of this appendix are intended to be equivalent to the requirements of those sections and allow for the application of dynamic performance criteria to cab cars and MU locomotives as an alternative to the requirements of those sections. The alternative dynamic performance requirements are applicable to all cab cars and MU locomotives, and may in particular be helpful for evaluating the compliance of cab cars and MU locomotives with shaped-noses or crash energy management designs, or both. In any case, the end structure must be designed to protect the occupied volume for its full height, from the underframe to the anti-telescoping plate (if used) or roof rails.
The requirements of this appendix are provided only as alternatives to the requirements of §§ 238.211 and 238.213, not in addition to the requirements of those sections. Cab cars and MU locomotives are not required to comply with both the requirements of those sections and the requirements of this appendix, together.
Although the requirements of this appendix are stated in terms applicable to Tier I passenger equipment, they are also applicable to Tier III passenger trainsets under § 238.711. Specifically, the cab ends of Tier III trainsets shall comply with the requirements of this appendix to demonstrate the integrity of the end structure.
Alternative Requirements for Collision Posts
(4) The nominal weights of the object and the cab car or MU locomotive, as ballasted, and the speed of the object may be adjusted to impart the minimum of 135,000 foot-pounds of energy (0.18 megajoule) to be absorbed (Ea), in accordance with the following formula:
Ea = E0−Ef
Where:
E0 = Energy of initially moving object at impact = 1/2 m1*V0 2.
Ef = Energy after impact = 1/2 (m1 + m2)*Vf 2.
V0 = Speed of initially moving object at impact.
Vf = Speed of both objects after collision = m1*V0/(m1 + m2).
m1 = Mass of initially moving object.
m2 = Mass of initially standing object.
(Figure 1 shows as an example a cab car or an MU locomotive having a weight of 100,000 pounds and the impact object having a weight of 14,000 pounds, so that a minimum speed of 18.2 mph would satisfy the collision-energy requirement.)
Alternative Requirements for Corner Posts
(ii) After FRA review and approval of a plan, including acceptance criteria, to evaluate compliance with this paragraph (b), cab cars and MU locomotives utilizing low-level passenger boarding on the non-operating side of the cab may have two, full-height corner posts on that side, one post located ahead of the stepwell and one located behind it, so that the corner post located ahead of the stepwell is permitted to fail provided that—
(4) The nominal weights of the object and the cab car or MU locomotive, as ballasted, and the speed of the object may be adjusted to impart the minimum of 120,000 foot-pounds of energy (0.16 megajoule) to be absorbed (Ea), in accordance with the following formula:
Ea = E0−Ef
Where:
E0 = Energy of initially moving object at impact = 1/2 m1*V0 2.
Ef = Energy after impact = 1/2 (m1 + m2)*Vf 2.
V0 = Speed of initially moving object at impact.
Vf = Speed of both objects after collision = m1*V0/(m1 + m2).
m1 = Mass of initially moving object.
m2 = Mass of initially standing object.
(Figure 2 shows as an example a cab car or an MU locomotive having a weight of 100,000 pounds and the impact object having a weight of 14,000 pounds, so that a minimum speed of 17.1 mph would satisfy the collision-energy requirement.)


[75 FR 1230, Jan. 8, 2010, as amended at 83 FR 59228, Nov. 21, 2018]