Highway Accident Brief
Passenger Vehicle
Collision
With a Fallen Overhead Bridge Girder
Golden, Colorado
May 15, 2004
NTSB/HAB-06/01 PDF Document [700 K]
Accident No.: |
HWY-04-MH-023 |
Accident Type: |
Passenger vehicle collision with a fallen overhead girder |
Location: |
Eastbound on Interstate 70 at the Colorado State Route 470 overpass, Golden, Colorado |
Date and Time: |
May 15, 2004; 10:04 a.m., mountain daylight time |
Vehicle: |
2002 Dodge Durango |
Injuries: |
3 fatal |
On May 15, 2004, about 10:04 a.m., mountain daylight time, 1 a 2002 Dodge Durango sport utility vehicle (SUV) driven by a 34-year-old man eastbound on Interstate 70 (I–70) approached the Colorado State Route 470 (C–470) overpass. 2 The driver’s 37-year-old wife and their 2-year-old child were also in the SUV. The interchange of I–70 and C–470 was in a temporary traffic control zone for a highway construction project, during which an additional entry ramp and two additional lanes were being constructed for the overpass.
As the SUV
approached the overpass, a fabricated steel girder line composed of two
joined sections, which had been erected during the evening of May 11
through the early morning hours of May 12, 2004, parallel to the existing
overpass, as a part of the bridge-widening project, rotated toward the overpass
and sagged into the I–70 eastbound lanes. The girder struck the SUV about
half the distance between the vehicle’s front end and its windshield and sheared
off the vehicle’s top. The lower portion of the SUV continued east for 818
feet, coming to rest in the grassy median of I–70. All three vehicle occupants
were killed. (See figures 1 and 2.)
Figure 2. Overhead view of the accident scene, showing the C–470 bridge
and fallen girder.
(Photo source: Jefferson County Sheriff’s Office)
The Federal Highway Administration (FHWA) and the State of Colorado funded the I–70/C–470 interchange construction project, which was intended to improve traffic capacity and safety at the interchange of these two routes and to make additional improvements along I–70 in this area. As a part of the project, the overpass of I–70 by C–470 was to be widened by adding two lanes. An additional loop ramp was also to be constructed. Under the terms of the stewardship agreement between the FHWA and the Colorado Department of Transportation (CDOT), CDOT was managing the project 3 and had contracted with Asphalt Specialties, Inc., to perform the actual construction work. Asphalt Specialties had been the general contractor for numerous projects in Colorado for CDOT and other agencies.
CDOT prequalified Asphalt Specialties as the prime contractor 4 for this project. The prequalification process is governed by the Colorado rules of prequalification and can be found in the Rules for Prequalification, Debarment, Bidding, and Work on Colorado Department of Highways’ Road, Highway, and Bridge Public Projects. 5 In these rules, prequalification is defined as follows:
The process
of review by CDOT of a contractor’s fiscal and workmanship qualifications
to perform work on public projects through which CDOT determines whether the
contractor will be permitted to submit bids as provided in these rules. (See
2 Code of Colorado Regulations 601-10,
Section 1.03(ff).)
These Colorado rules require the potential prime contractor to file a prequalification application and questionnaire with the CDOT staff construction engineer or designee. To complete the prequalification application, the prime contractor must (among other requirements) indicate its previous experience in highway construction work, detail the number of years’ experience in various types of highway work, and list all construction contracts, both highway and nonhighway, performed in the past 3 years.
One of the purposes of prequalification is to ensure that the contractor is technically proficient in performing highway construction. Proficiency entails the contractor having had recent relevant experience and being familiar with standard highway construction regulations, specifications, and guidelines, such as those issued by the FHWA, CDOT, and the American Association of State Highway and Transportation Officials (AASHTO). 6
Asphalt Specialties subcontracted with steel erection firm Ridge Erection Company, Inc., (Ridge) to erect the three new girders needed to widen the C–470 bridge. The FHWA and CDOT permit up to 70 percent of a project’s work to be done by subcontractors, pursuant to 23 Code of Federal Regulations (CFR) 635.116. According to the Colorado prequalification rules, CDOT is not required to prequalify subcontractors on its projects, 7 and CDOT did not prequalify Ridge. CDOT records show that between 1987 and 1990, Ridge erected bridge girders on nine CDOT projects. According to Ridge records, in the 14 years preceding the accident, Ridge had not worked on any highway bridge projects. For the bridge-widening project, three complete girders, each composed of three separate sections, were to be installed east of the existing C–470 bridge deck. Initially, only the first two sections were to be set for each of the first two girders. The third sections, completing these girders, were to be installed and spliced to these two-section girder lines at a later date. Each two-section girder line was to be cantilevered over the center pier for the bridge expansion.
The girder installation work that ultimately led to this accident was the subject of a March 24, 2004, planning meeting, which was attended by representatives from CDOT, Asphalt Specialties, and Ridge. 8 According to Ridge representatives, 9 at this meeting, Ridge officials said they planned to set 2 two-section girder lines to the east side of the C–470 bridge during the evening of May 11 through the early morning hours of May 12, 2004. (The two-section girder lines will henceforth be referred to as “girders.”)
According to Ridge, to install the two girders, workers were to use cranes to pick up the first girder’s two sections, splice them together while they were held in the air by the cranes, and then set the first girder in place parallel to the C–470 bridge deck. Next, while being held by the cranes, the first girder was to be braced to the existing C–470 bridge deck with angle-shaped steel braces (“angle irons”) bolted to the new girder and attached to the paved bridge deck with expansion bolts. (See figure 3 for a photograph of an angle-shaped steel brace.) Once it was temporarily braced in this manner, the first girder would be released from the cranes. Then, the second girder would be installed the same way, and, once it was in place, the two girders would be cross-braced with diaphragms 10 to stabilize them. Ridge said that if only the first girder could be erected that night, it intended to stabilize the single girder by connecting it to the existing C–470 bridge deck with the angle braces, in the manner described above for the temporary bracing to keep one girder in place, and erection of the second girder would continue the following night.
Figure 3. Postaccident
photograph of one of the angle-shaped steel braces used to brace the accident
girder.
Ridge officials stated that the Ridge safety officer developed the bracing
plan for a single girder and made a non-scale, hand-drawn sketch of it. The
Ridge safety officer had been a Ridge employee for more than 20 years, initially
as an ironworker (holding positions that included foreman, general foreman,
and superintendent), and eventually was named safety officer in 1998. He had
no training or certification in engineering. No copy of his bracing plan sketch
could be provided to the Safety Board after the accident.
Attendees recalled little discussion of the temporary bracing at the March 24 meeting. 11 The Ridge safety officer characterized the talk concerning the temporary bracing as a brief discussion of 3 to 5 minutes’ duration. The CDOT project engineer stated that he did not recall any specific discussion of the bracing, but he thought it might have been mentioned “in passing.” The CDOT inspector said he did not recall any discussion of the temporary bracing but could not say that it was not discussed. Asphalt Specialties’ general superintendent and traffic control supervisor said that few details were discussed with respect to the bracing plan. They recalled no drawings of any kind being presented. The Asphalt Specialties concrete structural superintendent recalled that angle braces were mentioned with respect to the temporary bracing. He had no recollection of any discussion concerning “X” bracing (cross bracing between two girders) or a plan to secure a single girder to the existing bridge structure. The Asphalt Specialties project manager stated that the temporary bracing was briefly discussed, and he recalled that CDOT officials told Ridge representatives that they could not weld to the existing structure. He said that a few ideas were discussed, but nothing was decided about how the bracing was to be accomplished.
The contract for the C–470 bridge-widening project did not require that the contractor or subcontractor submit plans for the erection of the girders or the girder bracing. CDOT did not request, and neither the contractor nor the subcontractor prepared, a formal design or plan for the erection of the girders or the girder bracing.
No Registered Professional Engineer 12 reviewed or was otherwise directly involved in Ridge’s plans. A Registered Professional Engineer must be registered as a qualified engineer in the State. According to the Colorado State statute for registration of engineers,
In order to safeguard life, health, and property and to promote the public welfare, the practice of engineering is declared to be subject to regulation in the public interest. It shall be deemed that the right to engage in the practice of engineering is a privilege granted by the state through the state board of licensure for professional engineers and professional land surveyors, created in section 12-25-106; that the profession involves personal skill and presupposes a period of intensive preparation, internship, due examination, and admission; and that a professional engineer’s license is solely such professional engineer’s own and is nontransferable. (12-25-101.)
On May 5, 2004, Ridge and Asphalt Specialties held a meeting at the construction site to discuss the placement of cranes. On May 10, they held a meeting to make a final check of the crane pads and cranes. According to CDOT, it was never notified of these meetings, and no one from CDOT attended either meeting.The task of erecting the two girders over I–70 parallel to the C–470 bridge deck was scheduled to take place from 9:00 p.m. on Tuesday, May 11, until 5:00 a.m. on Wednesday, May 12. During this 8-hour period, I–70 was to be closed to allow the girder erection equipment (including cranes) access to the east- and westbound lanes and median of I–70. This roadway had average traffic of about 76,000 vehicles per day. During the work period, traffic was to be routed onto a series of frontage and paralleling routes west of the work site. The Colorado State Patrol had a patrol car positioned near the I–70 closure area to slow traffic.
Work began about 9:00 p.m., 13 as scheduled. Present at the work site were CDOT’s project engineer, two inspectors, and a senior executive service engineer (this individual left about 12:30 a.m. and did not return that night). Four Asphalt Specialties supervisors and three workers were on scene, as were two Ridge supervisors and eight workers.
Between about 9:00 p.m. and 11:00 p.m., Ridge workers positioned the cranes and moved the girder sections into place for lifting with the cranes. The weight of one girder section was approximately 20,000 pounds or 10 tons, and two girder sections spliced together weighed approximately 40,000 pounds or 20 tons. With two sections spliced together, each girder was approximately 204 feet long. The distance from the south abutment to the center bridge pier for the expansion was approximately 154 feet, and a two-section girder would be cantilevered over the center bridge pier and extend beyond the pier by about 50 feet.
Between about 11:00 p.m. and 12:30 a.m., Ridge employees began raising the girder sections, and they encountered problems. Ridge did not have impact wrenches or similar tools to facilitate removal of the numerous shipping bolts 14 on the girder sections. Consequently, workers had to use hand tools to remove these bolts. A cutting torch was needed to remove some of the shipping bolts.
According
to the CDOT lead inspector, after Ridge workers had lifted the two sections
of the first girder with cranes and were attempting to splice them while the
sections were suspended in air, he noticed that one of the two sections was
backward. According to Ridge, the
fabricator’s drawing indicated that a piece mark was located on what was to
be the north end of the girder section for the project. The permanent piece
mark was stamped into the steel section, consistent with the fabricator’s
drawing; however, the fabricator had painted over 15
this stamped
piece mark. When the Ridge workers checked the section, they found hand-applied
alphanumeric characters, which are used to identify the section, on the end
opposite from the piece mark. They mistakenly used these alphanumeric characters
to position the section, and as a result, raised it backward.
The CDOT lead inspector informed the workers of the mistake, which meant that the backward girder section had to be rotated 180 degrees before the two sections could be spliced. He said he had some difficulty persuading the Ridge workers that the section was backward, but they ultimately agreed and reversed the section. Sometime between midnight and 1:30 a.m. (witness accounts concerning the time vary considerably), the mid-air splicing process resumed. The CDOT lead inspector estimated that the splicing would take until about 4:00 a.m. to complete.
Those on the C–470 bridge work site realized that they would not have time to erect the second girder before I–70 was scheduled to reopen at 5:00 a.m. 16 Consequently, the Ridge crew had to postpone this task and intended to perform it on the next night.
During the approximately 4 hours that the girder sections were being bolted together, the CDOT lead inspector and project engineer left the C–470 bridge site and drove to another work site for this project to look at repairs being performed by another work crew. They also stopped by an area of the traffic detour where, between about 11:00 p.m. and 1:00 a.m., an eastbound tractor-semitrailer truck driver had mistakenly driven down an exit ramp from I–70 and then eastbound in the westbound lanes, where workers were in the roadway. (No accident resulted from the truck’s incursion into the work zone.) According to the CDOT lead inspector, they returned to the C–470 bridge site about 4:00 a.m.
About
3:45 a.m. to 4:00 a.m., Ridge workers began installing bracing to
temporarily stabilize the single girder. They intended to install five angle-shaped
steel braces to connect the single girder with the edge of the deck on the
existing C–470 bridge. (See figure 4.) The braces were fabricated on site.
To bend the braces, workers used a cutting torch to cut one leg of each brace
(except the third brace, which was not cut). They also used torches to cut
circular holes in the braces for the expansion bolts that would connect them
to the bridge deck. Postaccident examination showed that these cutting procedures
reduced the cross section of the braces by about half.
Figure 4. Diagram overlaid on photograph to show the accident girder
and five braces
in relation to the existing C–470 bridge deck. Note that this graphic is representative
only
of the approximate relative positions of the girder, bracing, and deck.
Bolts were to be used to connect the girder to the braces, and expansion bolts were to be used to connect the braces to the bridge deck. When Ridge’s workers bored holes in the bridge deck and attempted to install expansion bolts in them, they found that the bolts they had on hand were too long for the bridge deck holes. 17
The existing C–470 bridge deck was composed of Portland cement concrete. As originally designed and constructed, the bridge deck had an asphalt overlay that measured from 1.7 to 3 inches thick at the expansion bolt locations. The Portland cement concrete bridge deck was in good condition. Its thickness was about 8.25 inches. The asphalt overlay was generally in poor condition at the edge of the bridge deck, near where the expansion bolts for the bracing were to be inserted. The overlay had deteriorated and had been damaged by prior construction activity to remove the existing bridge rail at the edge of the bridge deck, in preparation for the bridge widening.
After workers made several unsuccessful attempts to make the bolts connecting the braces to the deck work, an employee was dispatched to the Ridge shop 18 about 4:30 a.m. to acquire different expansion bolts. These new bolts were put in, completing the girder bracing, and I–70 was reopened a half hour later than planned, about 5:30 a.m.
In a postaccident interview, the CDOT project manager stated that he believed no one on the construction site thought the accident girder was unsafe when the crew left it. He said, “If there was a known safety problem, the road could have been closed longer.” He also said they could have kept the cranes attached to the girder if it had been considered unsafe.
Aside from the CDOT lead inspector who pointed out that Ridge was attempting to splice two sections of girder with one section backward, the CDOT construction supervisors did not question the adequacy of the subcontractor’s work on the C–470 bridge project during the night. No one from CDOT or Asphalt Specialties objected to the lack of a written bracing plan or to the means used to install the bracing.
See table 1 for a timeline of the activities that took place during the girder erection and bracing installation processes.
Table 1. Timeline of
activities related to erection and bracing of the accident girder.
(Note: All times and time ranges are estimates based on the majority of witness
statements.)
Time |
Actions |
May 11, 2004 |
|
9:00 p.m. |
I–70 is closed and traffic
is rerouted to accommodate highway bridge construction; work begins
at C–470 bridge work site |
9:00–11:00 p.m. |
Ridge personnel position
cranes and girder sections for raising the sections |
Sometime between 11:00 p.m. and 1:00 a.m. |
A tractor-semitrailer
truck mistakenly enters the work zone (no accident occurs) |
11:00 p.m.–1:30 a.m. |
Ridge workers raise two
girder sections, using cranes, and remove shipping bolts from them CDOT lead inspector notices
that one girder section is backward; he notifies Ridge personnel of
this problem; following discussion about this issue, Ridge eventually
rotates the girder section 180 degrees |
May 12, 2004 |
|
12:00–1:30 a.m. |
CDOT senior executive
service engineer leaves the work site for the night; CDOT lead inspector
and project engineer leave the C–470 bridge site to visit another project-related
work site |
12:30–4:00 a.m. |
Ridge workers splice the
two girder sections while the sections are suspended in mid-air |
4:00 a.m.–5:15 a.m. |
Ridge workers brace the
single girder to the existing bridge deck—this process involves cutting
and bending the angle braces and bolting the braces to the girder and
the bridge deck |
4:00–4:30 a.m. |
CDOT lead inspector and
project engineer return to the C–470 bridge site; Ridge workers have
trouble bolting expansion bolts to deck |
4:30–4:45 a.m. |
A Ridge worker is sent
to the Ridge shop to acquire different expansion bolts |
5:00–5:30 a.m. |
Ridge finishes installation
of the temporary bracing for the accident girder; I–70 is reopened for
normal traffic; CDOT construction supervisors leave site |
The work crew intended to install the second girder on the following night. No one on scene in the early morning hours of May 12 checked the weather forecast to determine whether conditions would be favorable for such work that night. As of 4:11 a.m., May 12, the National Weather Service forecast for the area called for temperatures in the mid-30s° F, winds of 15 to 20 mph, and likely precipitation for the evening of May 12. This forecast indicated that expected weather conditions were not favorable for installation of the second girder that night. The extended weather forecast showed that precipitation and low temperatures in the 30s° F were expected for several nights to come. Winds of 15 to 20 mph were predicted for May 14. Ultimately, Asphalt Specialties and Ridge postponed the completion of the girder installation for more than 3 days. 19
After work was concluded on the morning of May 12, an Asphalt Specialties project supervisor did check the weather forecast and became concerned about the possible effects of the wind on the temporarily braced single girder. He said he returned to the site about 8:45 p.m. on May 12 and inspected the girder and its bracing. 20 He found nothing wrong with the installation. (He later said that he may not have noticed a small angle of deflection of the girder.) No one involved with the project periodically inspected the girder or its bracing following the May 12 installation.
On
May 13, a traveler driving westbound on I–70 incidentally made a digital
image of the accident girder through the car’s windshield. After the accident,
Safety Board investigators examined this image and found that it indicated
that at this time the accident girder appeared to be leaning toward the existing
bridge deck by about 5 degrees between the south
abutment and the center bridge pier for the extension and by about 1 degree
beyond the center bridge pier. (See figure 5.)
On May 14, two travelers westbound on I–70 separately noticed anomalies involving the girder but did not report them. The first, who passed under the C–470 overpass about 1:30 p.m., later stated that the girder appeared to have been “tilted.” The second traveler, who made the observation about 8:30 p.m., indicated postaccident that the girder had been “leaning” toward the bridge.
On the morning of May 15, two I–70 travelers, one about 8:00 a.m. and the other about 8:30 a.m., noticed irregularities in the girder’s position. Neither reported the observations until after the accident. The first traveler noted that the girder was leaning toward the bridge. The second saw a “wave” in the girder.
At 8:49 a.m. on May 15 (about 75 minutes before the accident), a traveler on I–70 called 911 to report that the girder was “twisted.” The caller reached the Jefferson County Sheriff’s Office, which transferred the call to the Colorado State Patrol dispatcher. The dispatcher evidently misunderstood a term the caller used in his statement and, when repeating the message to the caller, indicated that a sign was involved. The caller confirmed the dispatcher’s restatement of the message, including the erroneous information that a sign was involved. The report was misinterpreted to involve a “damaged sign” on I–70; this was the message CDOT received about 9:00 a.m. CDOT dispatched two highway maintenance workers (each in a separate truck) in response. They located a leaning sign on the C–470 overpass (adjacent to the new construction) and assessed its condition. They then notified the Colorado State Patrol that the problem sign had been found, that it was not interfering with traffic, and that it would be fixed in the next few days. They returned to the CDOT equipment shed and had been there for about 15 minutes when they were told that the accident had occurred.
About 9:00 a.m., a CDOT bridge engineer (not involved with this project) was exiting northbound C–470 onto eastbound I–70. While traveling roughly parallel to the accident girder, this CDOT employee observed that the girder was “buckled toward the existing bridge,” but she did not notify anyone. She later said that she did not know whether the girder’s condition was abnormal. At the time of the accident, CDOT had an emergency call list in place for use by its staff, and CDOT periodically updated this list. However, the bridge engineer said she did not know whom she should call.
Accident reconstruction 21 indicated that the Dodge Durango SUV was traveling approximately the posted speed limit of 65 mph as it approached the C–470 overpass about 10:04 a.m. About that time, the temporarily braced and unstable girder rotated toward the overpass and sagged into the path of the oncoming vehicle. The girder struck the SUV, killing the victims instantly.The bracing’s failure occurred at the bridge deck, when the lateral force from the girder’s distortion placed loads on the expansion-bolted connections, separating the expansion bolts from the bridge. Postaccident examination indicated that the expansion bolts used to connect the braces to the bridge deck were, in various ways, not installed in accordance with manufacturers’ requirements. In particular, the Safety Board Materials Laboratory found that the bolt hole diameters in the existing bridge deck measured 0.90 inch while the diameters of the expansion bolts were only 0.75 inch. A 0.75-inch-diameter expansion bolt set in a 0.90-inch-diameter hole required the presence of a horizontal load to maintain some pullout resistance. The horizontal loads at the time of the girder erection levered (or cocked) the bolts in the holes. Once the horizontal load decreased in magnitude or changed direction, the pullout resistance was immediately lost. Over time, the varying cyclical loads on the bolts caused by lateral vibrations, thermal expansion and contraction loads, and wind loads would have resulted in variations to the horizontal loads on the bolts, which eventually would have led to the bolts pulling out of the holes.
In addition, all but one of the expansion bolts were not embedded in the concrete according to manufacturers’ installation requirements. These requirements were that the bolts must be embedded to a minimum depth of 3.25 inches. Investigators determined that, with the exception of one bolt, 22 the expansion bolts were embedded in concrete to depths of from 1.25 to 2.50 inches.
After the accident, the FHWA Turner-Fairbank Highway Research Center conducted a finite element analysis of the girder collapse to identify likely scenarios and to assist in determining the likely or possible sequence of events between erection and collapse of the girder. The FHWA developed a finite element analysis model to simulate the response of the braced girder under 10 load scenarios; various combinations of braces were removed, and additional wind loading was applied. The addition of wind loading had minimal effect on the deflected shape of the girder. The second (from the south) of the five braces appeared to be the most critical to providing stability for the girder. Removal of this brace caused immediate instability for the out-of-plumb girder. The analysis found that cyclic forces on the braces due to lateral vibrations and wind loads from May 12 through 15, 2004, were primary factors in weakening the incorrectly installed expansion bolts over time.
Specifically, the FHWA Turner-Fairbank finite element analysis report contained the following conclusions:
Thus, Ridge’s erection of the girder and installation of the temporary bracing were inadequate. Had the girder been installed in plumb or had the bracing been bolted effectively, the bracing might not have failed and the girder might not have lost stability, causing it to rotate toward the overpass and sag onto I–70 on the morning of May 15. But in combination, the out-of-plumb girder and improperly installed bolts resulted in an insecure bracing arrangement that was not adequate in the short or long term.
Moreover, the planning for the bracing lacked forethought and precaution. According to Ridge, its original intention was that this bracing arrangement was to be used to secure the single girder for a relatively brief period during the 8 hours of work beginning on the evening of May 11 while a second girder was set in place. Thereafter, the permanent cross bracing with diaphragms would have secured the two girders to each other. But planning for the bracing apparently did not take into consideration the possibility that only one girder might be installed and that the bracing might need to secure a girder for longer than a few hours. Because no contingency plan had been developed for securing a single girder, Ridge used this temporary bracing system, originally intended to stabilize the girder for a few hours, for more than 3 days, during which it was vulnerable to stresses caused by temperature variations, winds, 24 and vibrations from passing traffic.
According to postaccident interviews with CDOT engineers and managers, the department’s construction management practice was not to tell a contractor how to accomplish contracted work and not to interfere as the contractor carried out the work. CDOT project managers were to ensure that the work was fulfilled according to the project plans and specifications and within the budget and timeline, but they were not to conduct more active oversight. They said the reasons for this policy were to reduce additional costs that a change in the contractor’s plans, caused by a CDOT objection, might generate and to minimize the possibility of tort liability claims.
To determine how widespread such oversight practices may be among the States, Safety Board investigators asked the construction supervision managers of 15 randomly selected State departments of transportation whether their oversight policies were similar to CDOT’s. They responded that allowing a contractor to work without significant State intervention is a common practice and cited the same reasons that CDOT did.
According to the AASHTO Construction Manual for Highway Construction, “the [State] Project Engineer shall in no way attempt to supervise work for the Contractor.” In the section concerning “Duties and Authority of Inspectors,” the manual states the following: 25
The [State] Inspector shall always bear in mind that
the management of the work is the Contractor’s business; however, if any methods
are employed which the Inspector has reason to believe will impair the quality
of the finished job, the Contractor shall be advised accordingly and the Project
Engineer notified immediately. The inspector shall in no way attempt to supervise
work for the Contractor.
CDOT has provided written guidance to its personnel concerning interaction with contractors. The CDOT Standard Specifications for Road and Bridge Construction describe the duties and authority of its construction supervision staff. Section 105.10, “Duties of the Inspector,” states that “the inspector is not authorized to issue instructions contrary to the provisions of the Contract or to act as foreman for the Contractor.” 26 Several pages of the CDOT design plans for the C–470 bridge-widening project displayed the notation, “The contractor shall be responsible for the stability of the structure during construction.”
In both the CDOT Standard Specifications for Road and Bridge Construction and the CDOT Construction Manual, the guidance concerning the erection of steel structures recommends that falsework 27 for steel structures conform to Section 601, “Structural Concrete,” Subsection 601.11, “Falsework,” of the CDOT Standard Specifications for Road and Bridge Construction. 28 The CDOT Construction Manual states, in Section 601, “Structural Concrete,” at Subsection 601.2, “Formwork and Falsework,” that “Falsework design and construction are the Contractor’s responsibility.” At Subsection 601.2.2, “Bracing Considerations,” the manual states, “The Contractor is responsible for providing adequate bracing of all formwork, and CDOT personnel cannot dictate construction methods.” 29
In 29 CFR Part 1926, “Safety Standards for Steel Erection,” the Occupational Safety and Health Administration (OSHA) has regulations relating specifically to the erection of steel structures. After the accident, the Ridge vice president told Safety Board investigators that he believed he should follow the OSHA steel girder erection regulations and that he considered Ridge had fulfilled the OSHA requirements on the C–470 bridge project. CDOT told Safety Board investigators that it was unaware of the OSHA rules relating to the steel erection process. Safety Board communication with AASHTO and American Society of Civil Engineers representatives indicated that these organizations were also unaware of the OSHA rules.
The summary information at 29 CFR Part 1926, “Safety Standards for Steel Erection; Final Rule,” dated January 18, 2001, states the following:
By this notice the Occupational Safety and Health Administration
(OSHA) revises the construction industry safety standards which regulate steel
erection. The final rule enhances protections provided to workers engaged
in steel erection and updates the general provisions that address steel erection.
The final rule sets performance-oriented criteria, where possible, to protect
employees from steel erection related hazards such as working under loads;
hoisting, landing and placing decking; column stability; double connections;
hoisting, landing and placing steel joists; and falls to lower levels. To
effectuate this, the final rule contains requirements for hoisting and rigging,
structural steel assembly, beam and column connections, joist erection, systems
engineered metal building erection, fall protection and training.
(d) Pre-planning of overhead hoisting operations. All hoisting operations
in steel erection shall be pre-planned to ensure that the requirements of
§ 1926.753(d) are met.
(e) Site-specific erection plan. Where employers elect, due to conditions specific to the site, to develop alternate means and methods that provide employee protection in accordance with § 1926.753(c)(5), § 1926.757(a)(4) or § 1926.757(e)(4), a site-specific erection plan shall be developed by a qualified person and be available at the work site.
OSHA defines a “qualified person,” as indicated in section (e) above, as
One who, by possession of a recognized degree, certificate,
or professional standing, or who by extensive knowledge, training, and experience,
has successfully demonstrated the ability to solve or resolve problems relating
to the subject matter, the work, or the project.
The definition does not require that this person be a Registered Professional Engineer. In the case of this accident, Ridge considered its safety officer to be a “qualified person” in accordance with OSHA regulations because, according to Ridge, he had knowledge, training, and experience, and he had on prior projects demonstrated his ability to solve and resolve problems. The safety officer had no engineering credentials, and Ridge had not worked on a highway bridge project for 14 years.
At 29 CFR 1926.754(a), “Structural steel assembly,” OSHA further requires that “Structural stability shall be maintained at all times during the erection process.”
OSHA was a party to this investigation and was asked to review its regulations and determine their applicability to the steel erection activity affecting this accident. The Denver OSHA office furnished the following evaluation of “potential” 30 violations of OSHA regulations that may have existed during the attempted erection of the accident girder:
The OSHA steel erection regulations do not specifically define or discuss falsework.
As noted above, the guidance concerning the erection of steel structures in the CDOT Standard Specifications for Road and Bridge Construction recommends that falsework for steel structures conform to the guidance in the structural concrete section of the specifications. Section 601 of the CDOT Standard Specifications for Road and Bridge Construction is entitled “Structural Concrete.” Subsection 601.11 defines falsework as “any temporary construction used to support vertical loads for a structure until it becomes self-supporting.” 31
After the accident, CDOT and the FHWA Colorado Division Office told Safety Board investigators that the temporary lateral braces that supported the girder were “braces” rather than “falsework.” Both Ridge and Asphalt Specialties referred to the structure as “bracing.” Because the contractor and subcontractor considered it bracing rather than falsework, they thought that this work did not need to follow the specific guidance for falsework provided in the CDOT specifications. Because CDOT did not consider the braces to be falsework, it did not require the contractor or subcontractor to follow such guidance.
Subsection 601.11 of the CDOT specifications 32 recommends the following for designing and constructing falsework:
The Contractor shall be responsible for designing and
constructing falsework which provides the necessary rigidity, supports the
loads imposed, and produces in the finished structure the lines and grades
indicated on the plans.
The Contractor shall have a Professional Engineer determine whether falsework drawings are or are not necessary. When falsework drawings are determined to be unnecessary, the Contractor shall submit a written statement signed by the Contractor’s Professional Engineer so stating.
Neither Asphalt Specialties nor Ridge had a Registered Professional Engineer determine whether falsework drawings were necessary for the C–470 bridge-widening project; neither submitted to CDOT a written statement, signed by a Registered Professional Engineer, indicating that falsework drawings were unnecessary. CDOT maintains that the CDOT specifications did not require falsework drawings for the erection of steel girders, 33 and CDOT did not request falsework drawings.
Falsework is considered to be any temporary structure
which supports structural elements of concrete, steel, masonry, or other materials
during their construction or erection.
Whenever the height of falsework exceeds 14 feet or
whenever traffic, other than workmen involved in constructing the bridge,
will travel under the bridge, the working drawings for the falsework shall
be prepared and sealed by a Registered Engineer.
No Registered Professional Engineer prepared or reviewed working drawings for the five lateral braces that connected the girder to the existing bridge deck. The only drawing reportedly prepared was a hand-drawn sketch made by the Ridge safety officer, who had no engineering training or certification.
The FHWA Guide Design Specification for Bridge Temporary Works recommends the following for falsework over publicly traveled ways: 36
Where temporary bracing is to be used during erection and removal of falsework over or adjacent to public traffic, the falsework drawings shall show the sequence of erection and removal and details of the temporary bracing system to be used.
Aside from the single non-scale, hand-drawn sketch reportedly made by the Ridge safety officer, Ridge apparently did not prepare drawings showing the sequence of erection and removal or details of the temporary bracing system to be used.
Following this accident, CDOT issued revisions to its Standard Specifications for Road and Bridge Construction on August 9, 2004. Among other changes, CDOT revised its specifications at Section 509, “Steel Structures,” Subsection 509.27, “Erection of Steel Structures,” to
As a result of this accident investigation, the National Transportation Safety Board makes the following safety recommendations:
To the Federal Highway Administration:
Take the lead in working with the Occupational Safety and Health Administration and the American Association of State Highway and Transportation Officials to make consistent and compatible your organizations’ regulatory requirements for and guidance to construction contractors concerning the design and certification of falsework, formwork, and bracing for the erection of highway structures, including the regulations and guidance concerning the need to have the designs prepared or approved by a Registered Professional Engineer. (H-06-22)
To the Occupational Safety and Health Administration:
Work with the Federal Highway Administration and the American Association of State Highway and Transportation Officials to make consistent and compatible your organizations’ regulatory requirements for and guidance to construction contractors concerning the design and certification of falsework, formwork, and bracing for the erection of highway structures, including the regulations and guidance concerning the need to have the designs prepared or approved by a Registered Professional Engineer. (H-06-23)
To the Colorado Department of Transportation:
Require your State highway and transportation department supervisory construction personnel to actively supervise and monitor safety-critical work being accomplished by contract workers. At a minimum, State supervisory personnel should 1) prequalify all subcontractors performing safety-critical work on highway projects and 2) intervene when a contractor or subcontractor exhibits a lack of competence. (H-06-24)
To the American Association of State Highway and Transportation Officials:
Revise the guidance in your
Construction Manual for Highway Construction that pertains to the role
of State highway and transportation departments’ supervisory construction
personnel to ensure active supervision and monitoring of safety-critical work
being accomplished by contract workers. At a minimum, the guidance should
call for State supervisory personnel to 1) prequalify all subcontractors performing
safety-critical work on highway projects; 2) require the contractor or subcontractor
to submit a written plan or design drawings for all construction, including
temporary falsework and bracing, and to have these plans or drawings reviewed
and approved by a Registered Professional Engineer; 3) intervene when the
contractor or subcontractor exhibits a lack of competence; and 4) require
the contractor or subcontractor to take reasonable precautions to monitor
and ensure the continued stability of temporary bracing or falsework until
permanent construction is completed. (H-06-26)
Mark V. Rosenker Deborah
A. P. Hersman
Acting Chairman
Member
Ellen Engleman Conners Kathryn O’leary Higgins
Member
Member
Adopted: May 31, 2006