A Rigid-frame bridge is a

bridge A bridge is a structure built to span a physical obstacle (such as a body of water, valley, road, or rail) without blocking the way underneath. It is constructed for the purpose of providing passage over the obstacle, which is usually someth ...

in which the

superstructure A superstructure is an upward extension of an existing structure above a baseline. This term is applied to various kinds of physical structures such as buildings, bridges, or ships. Aboard ships and large boats On water craft, the superstruct ...

and substructure are rigidly connected to act as a continuous unit. Typically, the structure is cast monolithically, making the structure continuous from deck to

foundation Foundation may refer to: * Foundation (nonprofit), a type of charitable organization ** Foundation (United States law), a type of charitable organization in the U.S. ** Private foundation, a charitable organization that, while serving a good cause ...

. The connections between members are rigid connections which transfer

bending moment In solid mechanics, a bending moment is the reaction induced in a structural element when an external force or moment is applied to the element, causing the element to bend. The most common or simplest structural element subjected to bending mo ...

axial Axial may refer to: * one of the anatomical directions describing relationships in an animal body * In geometry: :* a geometric term of location :* an axis of rotation * In chemistry, referring to an axial bond * a type of modal frame, in music * ...

forces, and

shear force In solid mechanics, shearing forces are unaligned forces acting on one part of a body in a specific direction, and another part of the body in the opposite direction. When the forces are collinear (aligned with each other), they are called ...

s. A bridge design consisting of a rigid frame can provide significant structural benefits, but can also be difficult to design and/or construct.

History

The use of rigid-frame bridges began in Germany in the early twentieth century and quickly spread to the Americas.

Emílio Henrique Baumgart Emílio Henrique Baumgart or Emil Heinrich Baumgart (in German) was a Brazilian engineer. Background Baumgart was born on May 25, 1889, in the city of Blumenau, in the state of Santa Catarina, Brazil. His father was the German immigrant Gustav ...

and Arthur G. Hayden, in particular, gained notoriety for their use of concrete rigid frames in the early 1920s.Maryland Department of Transportation
"Rigid Frame Bridges"
Marylandroads.com At the time,

reinforced concrete Reinforced concrete (RC), also called reinforced cement concrete (RCC) and ferroconcrete, is a composite material in which concrete's relatively low ultimate tensile strength, tensile strength and ductility are compensated for by the inclusion ...

was commonly used in bridge design but the superstructure was designed with bearings on the substructure. In concrete rigid-frame design, there are no bearings. Instead the superstructure is cast monolithically with the substructure and the entire bridge from deck to footing is continuous.

Engineers Engineers, as practitioners of engineering, are professionals who invent, design, analyze, build and test machines, complex systems, structures, gadgets and materials to fulfill functional objectives and requirements while considering the li ...

have found this type of design advantageous for many reasons. Moments at the center of the deck of a rigid-frame bridge are smaller than the corresponding moments in a simply supported deck.Portland Cement Association
"Analysis of Rigid Frame Concrete Bridges"
Chicago, 1936. Therefore, a much shallower cross section at mid-span can be used. Additional benefits are that less space is required for the approaches and structural details for where the deck bears on the

abutment An abutment is the substructure at the ends of a bridge span or dam supporting its superstructure. Single-span bridges have abutments at each end which provide vertical and lateral support for the span, as well as acting as retaining wal ...

s are not necessary. Engineers have also noted some disadvantages of rigid frame bridges. The placement of steel reinforcing bars (rebars) can be very difficult and the forming/placement of the concrete is complicated. Furthermore, rigid frames are statically indeterminate and the analysis is more challenging than that of simply supported structures.

Types of rigid-frame bridge

Single span

Bridge over the West Branch North River, Adamsville MA.jpg, Single-Span Over River, United States A73 Bruecke CO1.jpg, Single Span Over Roadway, Germany Silta Kostianvirran yli.jpg, Single-Span in Shape of Arch, Finland Single span rigid-frame bridges are typically made of reinforced concrete and are commonly used on

parkways A parkway is a landscaped thoroughfare.''"parkway."''Webster's Third New International Dictionary, Unabridged. Merriam-Webster, 2002. http://unabridged.merriam-webster.com (14 Apr. 2007). The term is particularly used for a roadway in a park or ...

and other roadways.North Carolina Department of Transportation
"Reinforced Concrete Rigid Frame Bridges"
June 2013 This design is an efficient use of material as the cross section at mid-span is relatively narrow and the amount of concrete needed at the abutments is reduced. The narrow section at mid-span gives the bridge

profile Profile or profiles may refer to: Art, entertainment and media Music * ''Profile'' (Jan Akkerman album), 1973 * ''Profile'' (Githead album), 2005 * ''Profile'' (Pat Donohue album), 2005 * ''Profile'' (Duke Pearson album), 1959 * '' ''Profi ...

a slight arch shape making this design particularly useful when large headroom is required. The profile also makes the bridge more architecturally pleasing than a

beam bridge Beam bridges are the simplest structural forms for bridge spans supported by an abutment or pier at each end. No moments are transferred throughout the support, hence their structural type is known as '' simply supported''. The simplest beam ...

. Rigid-frame design may be the most efficient bridge type for spans between .United States Department of the Interior, "National Register of Historic Places Continuation Sheet", p. 11 If steel is used, the economic advantage extends to spans of .

V-shaped

Pont du Languedoc -3.JPG, Pont du Languedoc, France, elevation Pont du Languedoc -4.JPG, Pont du Languedoc, France, below A v-shaped rigid frame is an efficient way to support a longer bridge where using only one span isn't feasible. Each v-shaped pier supports the deck in two places while only requiring one foundation. The bending moments experienced in the piers are minimal, allowing significant reductions in the foundation size. Additionally, the effective length of each span is shortened compared to the spans of a bridge with vertical piers.Antónia Királyföld, Gábor Pá
"CONCRETE STRUCTURES FRAME BRIDGES ON V-SHAPED SUPPORTS"
Fib.bme.hu, 2012. However, this system is less commonly used in rigid frame bridges because the piers need to be approximately centered under the bridge. Often the bridges span over roadways or waterways and construction of piers in those cases can be costly and challenging.

Batter-post

Otamusjoen silta 2.JPG, Concrete Batter-Post Bridge, Finland 北橫蘇樂橋.jpg, Steel Batter-Post Bridge, Japan Osaka-Bridge02.jpg, Batter-Post Bridge, Japan Batter-post rigid frame bridges are defined by their supports that run from the deck to the abutments at an angle. This design supports the deck in a similar way to v-shaped piers but differs in how the foundations must be built. The piers bear on or next to the abutments, eliminating the need for foundations directly beneath the bridge. This is particularly advantageous when the bridge crosses a river and constructing a foundation in the water is challenging.Middle East Economic Engineering Forum

November 2014 As a result, either the abutments have to be made larger or additional foundations must be placed next to the abutments.

Recent advances

In the past few years, most research on rigid frame bridges is related to retrofitting existing structures to meet new seismic specifications.Kabit, Shakya ''et al.'', Application of steel fibers in beam–column joints of rigid-framed railway bridges to reduce longitudinal and shear rebars, Construction and Building Materials, vol. 27, issue 1, pp. 482-489, Feb. 2012. This research often finds that the amount of reinforcing required at beam-to-column joints needs to be increased in concrete structures. In many bridges, the amount of steel required by the seismic code causes congestion at the joints. To alleviate this, steel fibers can be used as reinforcement to improve the bond between the rebars and the surrounding concrete. Tests have shown that by using steel fiber reinforced concrete, the anchorage length of rebar can be reduced while improving shear and flexural capacities. The reduced anchorage length required reduces the congestion at beam-to-column joints. Another advancement is in the use of

prestressed concrete Prestressed concrete is a form of concrete used in construction. It is substantially "prestressed" ( compressed) during production, in a manner that strengthens it against tensile forces which will exist when in service. Post-tensioned concreted ...

. Prestressed concrete is a major advance in concrete engineering and has effectively been used in rigid frame bridge construction.Shun Bo Zhao, Shi Ming Liu, Xiao Ke L
"Design of Prestressed Concrete Continuous Rigid Frame Bridge with V-shaped Piers"
Applied Mechanics and Materials, Vol.201-202, October 2012. This is notable because it was already challenging to place standard reinforcing in a concrete rigid frame bridge. Prestressing the rebars is more difficult but was proven to still be feasible. Prestressed concrete is useful in bridge construction because it has higher tensile strength than traditional reinforced concrete, allowing for longer bridge spans.

References

{{Commons category Bridges