PRECAST CULVERTS & BRIDGE ELEMENTS
Provisions of this IM shall apply to the production and
fabrication of precast culverts and bridge elements. Approved producers
and fabricators are listed in the Materials Approved Products Listing
Enterprise (MAPLE).
Precast
culverts and bridge elements shall meet the requirements of Standard
Specification Section 2415.
Each plant requesting to become a
Certified Precast Concrete Producer shall do so in writing to the Precast and
Prestressed Engineer The request shall include a copy of the compliance
certificate issued by the ACPA, NPCA, or PCI, a copy of the most recent audit
conducted in accordance with the ACPA, NPCA, or PCI certification programs, a
copy of the response to deficiencies of the audit, if applicable, a copy of the
QCP, and the designated Management Representative for the plant.
Each
certified Precast Concrete Plant is required to submit to the Precast and
Prestressed engineer the copy of the annual audit and the response to
deficiencies of the audit, if applicable, to verify compliance with the ACPA,
NPCA, or PCI certification programs.
Precast Box Culvert fabricators must notify District
Materials Engineer when the approved shop drawings are available.
GENERAL
REQUIREMENTS
END SECTIONS
For RCB end sections, it is acceptable
to sawcut the end face of the end segment. The sawcut shall be straight and
performed in the fabrication plant. The resulting dimensions and clear distance
from face of concrete to reinforcing shall be as noted or shown on the plans.
The cut face shall be coated and sealed at the fabrication plant with an
approved gray or clear epoxy listed in IM 491.19, Appendix B.
TIE
RODS
U-shaped tie rods shall meet the requirements of Iowa DOT LRFD Precast
Culvert Standard and Specification
2416.02. Nuts shall be hex or heavy hex meeting the requirements of ASTM
A563. Washers shall be flat and shall meet the requirements of ASTM A436. Tie
rods (U-shaped), nuts, and washers shall be galvanized per ASTM A153, Class C.
JOINTS
Engineering fabric for joint wrapping shall be from an
approved source listed in IM 496.01,
Appendix C shall meet the criteria of Embankment Erosion Control (Specification 4196.01 B3).
Gaskets for joints shall be butyl rubber-based, rope
gasket material, shall be from an approved source listed in IM 491.09, Appendix A.
LIFTING
CABLES
Lifting cables shall be seven strands and shall meet
the requirements of ASTM A416.
WELDING
Only welders qualified according to 2408.03, B may perform
welding for the bridge components.
PLACEMENT OF
REINFORCEMENT
The
minimum concrete cover over the circumferential reinforcement shall be one
inch.
The
inside circumferential reinforcement shall extend into the tongue portion of
the joint and the outside circumferential reinforcement shall extend into the
groove portion of the joint. The clear distance of the end circumferential
steel shall not be less than 1/2 inch or more than 2 inches from the ends of
the box section. The maximum variation in the position of the
reinforcement, as indicated by the approved shop
drawing shall be ± 3/8 inch for slab or wall thickness of 5 inches or less and
± 1/2 inch for thickness over 5 inches.
Splices in the circumferential reinforcement shall be
made by lapping. The overlap, measured between the outermost longitudinal sires
of each fabric sheet, shall not be less than the spacing of the longitudinal
wires plus two inches. The minimum lap distance is ten inches.
CURING
When use of a curing compound
is selected, the compound shall be sprayed on immediately after form removal
and left intact until the concrete has achieved the specified 28-day
compressive strength. The units must be protected from loss of moisture while
still in the forms. Curing compound shall not be used when the ambient
temperature is less than 32°F at the time of application.
The box sections shall
be cured for a sufficient time to assure the concrete shall achieve the
designed compressive strength within 28 days.
DRY CAST PRODUCTION
Fly ash may be
substituted for Portland cement. Use a substitution rate of no more than 35% by weight for dry cast
concrete only. Fly ash shall be from an approved source identified
in Materials I.M. 491.17. The maximum total supplementary cementitious
materials substitution shall not exceed 50%.
Acceptance of
dry cast concrete box culvert shall be based on strength testing.
CONCRETE STRENGTH
Compression tests for
determining concrete compressive strength may be made on standard rodded
concrete cylinders or concrete cylinders compacted and cured in a like manner
as the box sections, or on cores drilled from the box section.
A minimum average
compressive concrete strength of 3500 psi shall be achieved before box sections
may be moved and/or transferred to a storage site. At least three specimens
shall be tested from each concrete mix used within a group (one day’s
production) to determine compressive strength.
Acceptance strength
testing shall be based on a minimum of three specimens per lot (one calendar
week per mix used). The average compressive strength of all cylinders tested
shall be equal to or greater than the design concrete strength, and none of the
specimens shall be less than 80% of design strength.
Unless otherwise
specified, the minimum 28-day compressive concrete strength is 5000 psi for box
sections.
DESIGN DIMENSION
TOLERANCES
·
Internal
dimension – 1%
·
Haunch
(out-to-out) – 1/4 inch
·
Slab
and wall thickness – shall not be less than that shown in the design by more
than 5% or 3/16 in., whichever is greater.
·
Length
of opposite surfaces
7 ft. internal span or less
– 1/8 in./ft. of internal span, maximum of 5/8 inch
Over 7 ft. internal
span – 1/8 in./ft. of internal span, maximum of 3/4 inch
·
Length
of section – 1/8 in./ft. of length, maximum of 1/2 inch
·
Area
of reinforcement – areas of steel reinforcement shall be the design steel areas
or greater. Minimum concrete coverage must be maintained.
MARKING
Each box section to be
certified shall be legibly marked on the inside and the outside by indentation,
waterproof paint or other approved method with the
following:
·
Span
x Rise
·
Date
of Manufacture
·
Name
or Trademark of Manufacturer
·
Maximum
Design Earth Cover
·
Certified
Stamp
MONITOR INSPECTION
CHECKLIST
The DOT developed an
inspection checklist to assist the State Monitor/Inspector, which covers
fabrication of the units. The checklist includes several items a
monitor/inspector should cover for each project to assure compliance and
uniformity statewide.
|
CHECKLIST
– PRECAST BOX CULVERTS |
|
Project Number County |
|
Size Design Cover |
|
Required
Documentation: |
|
q Approved
Shop Drawing |
|
q Steel
Mill Certifications (Approved Source) |
|
q Aggregate
Certifications (Truck Tickets) |
|
q Cement
Certifications (Delivery Tickets) |
|
q Cylinder Breaks |
|
(One day and shipping
strength – 3 cylinders/calendar week for shipping – average equal to or
greater than required strength – none less than 80% of required strength) |
|
Required Steel Areas
(Steel Designation Areas): |
|
As1 As2 As3 As4 |
|
As5 As6 As7 As8 |
|
(NOTE: The
steel areas for As5 and As6 are normally included in As7 and As8 by
increasing steel area and modifying spacing. As5 and As6 mats are not
normally installed.) |
|
Steel Incorporated
(Steel Used): |
|
As1 As2 As3 As4 |
|
As5 As6 As7 As8 |
|
Verify: |
|
q Joint
Sealer (Butyl Rubber Base) |
|
q Engineering
Fabric (Approved Source) |
|
q Joint
Tie Rods (Galvanized, A36 Steel) |
|
q Required
Identification |
|
Signed |
|
District Materials
Staff |