Deficiencies Found in Many Marine Stairways and Ladders Resulting in Accidents

TASA ID: 674

After inspecting more than 100 marine stairways in which accidents occurred, we found several deficiencies in the steps and handrails of stairs that are consistently repeated.

The following comments are extractions from reports of inspections of stairs from large passenger vessels to small tugboats.


The Nosing:  The stairs of most passenger vessels are covered with luxurious plush carpets with thick padding, but sometimes there is excessive carpeting that is not properly attached to the solid portion of the step, primarily in the nosing area or step edge.  The excess of carpet or padding around the nose makes the tread depth appear greater than what it really is, resulting, in some cases, in a nose having 1 1/2" to 2 ½" radius, and consequently reducing by this amount the solid and flat portion of the tread depth.  Furthermore, the thick carpet and/or thick padding create a "bouncy" or spring-like tread surface for the moving foot, which can produce excessive forward motion of the shoe in the downward direction when a person is descending the stairs.

In one case, the plaintiff's metatarsal arch most probably stepped on the large 2 ½" unsupported step edge or soft nosing, resulting in false support or "undetected lack of support," and the plaintiff fell more than 20 steps downstairs.

Instead of a 2 ½" radius, the nosing should have had no more than a 1" to 1 ½" radius.

The Geometry of the Stairs:  There is a formula regarding step geometry, which is codified in various building codes and has been time-tested since it was developed around 1672 by the Royal Academy of Architecture of Paris, France.

The "Universal formula for total step geometry" requires the following relation between riser heights (r) and tread depths (t):  2r + t = 24 to 25 inches.

The average riser of the stair under discussion was 6 ¾ inches, and the solid portion of the step was 9 inches.

In the stairs related to the accident mentioned before, the relation between the riser heights (r) and the tread depths (t) resulted in:  2r + t = 22.5 inches. If the nosing would have been a one-inch nose radius instead of 2 ½  inches, the Universal formula would have been satisfied:  2r + t = 24 inches.

If instead of a 2 ½- inch nose radius, a 1- inch nose radius were used, and the solid part of the step would have been measured 10 ½ inches, the Universal formula would have been satisfied and the accident prevented.

The variation of riser heights:  Most building codes allow some variation in the riser dimensions, between 3/16 inches to 3/8 inches, but others require the risers to be uniform.  We have found that very often, the first and last steps do not meet the limitation on variation of riser heights.

After a person takes one or two steps when descending or ascending a stairway, the brain becomes "programmed" or automatically adjusted for the riser and tread depth dimensions and governs his gait.

If suddenly there is a change in the riser height, the person's brain gets confused, and the sole or the heel of his (or her) shoe will strike the step, and he (or she) will lose equilibrium, probably resulting in a fall.

The Code of Federal Regulations, 46CFR72.05-20 (0) requires that the sum of the riser height and the tread depth shall be at least 17 inches and no more than 18 inches.

When a pedestrian begins to descend on a stair system, the human gait is best suited to a seven-inch riser drop.

The angle of inclination of the stairs:  A common deficiency of incline stairs is the excessive angle of inclination or pitch.

Inclined stairs have angles with the horizontal varying from 20 degrees to 55 degrees.  The preferred angles for inclined stairs, according to most architectural standards, are in the range of 30 degrees to 35 degrees, because it requires less effort to climb.  The U.S.C.G. requires a maximum angle of 40 degrees for passengers and 50 degrees for crew, for interior stairways, but the rules indicate that they may allow special consideration for relief in the case of small vessels if it is shown to be unreasonable or impractical to meet the requirements.  OSHA indicates in Subpart D, part 1910.24 (e) Fixed Industrial Stairs, that the angles shall be between 30 degrees and 50 degrees, and defines the range between 60 to 75 degrees as "CRITICAL and SUBSTANDARD" (OSHA Part 1910.27).  Furthermore, the National Safety Council considers the angle of 50 degrees as "CRITICAL ANGLE," and indicates that the preferred angles for fixed ladders (vertical) are between 75 and 90 degrees.

If a stair has an apparent angle in excess of 60 degrees, the person attempting to go down on the stair must decide if the stair should be negotiated as a "vertical stair" or as an "inclined stair."

If the apparent angle of the stair is less than 60 degrees, most people arriving to the upper landing will descend the stair facing away from the stair.

Private industry studies in which the author of this article participated many years ago indicated that to reduce the possibility of accidents, inclined stairs should have handrails extending continuously beyond the upper end of the stairs (this is also recommended by the USCG), in order to allow the person attempting to go downstairs, to hold onto one of the handrails with one of his hands behind his advancing body. This leaves one arm in tension to support the weight of his body in case of a fall, rather than having both hands ahead of him, placing the arms in compression and in a position that may result in a pitch pooling effect.

Stairs with an angle in excess of 75 degrees should be considered vertical ladders, and should be negotiated facing the steps, for which two hands to hold the eccentric weight of the body are needed.

The U.S.C.G. (46 CFR 108.160) uses as reference the American National Standard Institute (ANSI) Standard 14.3 for most aspects of "ladders." ANSI A 143-1984 covers a range of ladders from 60 to 90 degrees.  U.S.C.G. refers to "inclined stairway" when the angle does not exceed 50 degrees.  From ANSI A 14.3, page 15, the preferred range for fixed (vertical) "ladders" is from 90 to 75 degrees.  Nevertheless, ANSI A 14.3 contains the following exception:  "Substandard fixed ladders shall be permitted only where it is found necessary to meet installation conditions ..."

Handrails: There are a number of building safety codes specifying the required minimum distance between the wall and the handrail, such as:

BOCA - Building Officials and Code Administrators International; Sec. 616.5.1 (1-4):  3-1/2"

S.B.C. - Southern Building Code Congress International; Sec. 1115.6 (a):  3-1/2"

L.S.C. -  Life Safety Code

American Insurance Association; Sec. 5- (a): 1-1/2"

NFPA -  The National Fire Protection Agency:  2-1/4"

ADAAG - American with Disability Act-Accessibility Guidelines; 4.9.4 - (3):   1-1/2"

OSHA Safety and Health Standards (29 CFR 1926/1910), OSHA 2207, in Chapter XVII, p. 103 indicates:  " (iii) All handrails and railings shall be provided with a clearance of approximately 3 inches between the handrail or railing and any other object."

In addition, the safest handrail is one that is between 1 ½ inches and 2 inches in diameter, as the human hand approximates a circle when it closes.

The handrails should start at least 18 inches before the upper and lower tread to guide the hands into the slope of the stairs, and preferably more than 20 inches to apply the "hand behind system" previously described.

Industrial Stairs:  The minimum requirements for industrial stairs can be found in 29 CFR 1910.24.  The stairs should be designed to carry a load of five times the normal live load anticipated.  Each step is required by ANSI A 14.3 to be designed for a single concentrated load of 250-pound minimum.  Although 29 CFR 1910.27 (OSHA) requires a minimum load of 200 pounds, it is not uncommon to observe permanently deformed steps, as well as total failure of steel rungs in vertical steel ladders, due to reduction of strength by corrosion.

This article discusses issues of general interest and does not give any specific legal, medical, or business advice pertaining to any specific circumstances.  Before acting upon any of its information, you should obtain appropriate advice from a lawyer or other qualified professional.

 This article may not be duplicated, altered, distributed, saved, incorporated into another document or website, or otherwise modified without the permission of the author, who will be contacted by TASA.

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