FR2927342A1 - PRECONTRATED CONCRETE BEAM CARRIED OUT BY EMBITION OF TWO LONGERONS AND METHOD OF ATTRACTING TWO BEAMS - Google Patents

Abstract

Beam (1) of high performance fiber-reinforced concrete, characterized in that it comprises a first spar (2.1) comprising at least one core (3.1), having a flange (4.1) along one of the longitudinal edges of the core and, along its opposite edge, a tongue (5.1) nested in a groove (5.2) of complementary shape belonging to a second spar (2.2) having, opposite the groove, a support sole (4.2), at least one of the longitudinal members comprising a longitudinal stress cable (9) embedded in the concrete parallel to the neutral longitudinal axis (10) of the beam.

Description

The present invention relates to a prestressed concrete beam and a method of connecting such beams. It is known to use prestressed concrete beams in the field of buildings and public works. Two manufacturing processes exist for producing these beams, namely molding and extrusion.

The first of these methods consists in introducing the concrete in a more or less liquid state in a mold or formwork to the shape of the beam to obtain and then harden the concrete before removing the formwork. This method allows the manufacture of beams having sections of various shapes. A large number of shapes are feasible as long as they allow the removal of the formwork once solidified concrete. This process, however, allows only low productivity. The second method consists of passing the concrete through a die moving along a table serving as a support for the beam formed by the concrete coming out of the die and being solidified. This method allows a high productivity but is unsuitable for the manufacture of beams with parts overhang or cantilever. Such parts would indeed tend to collapse immediately after extrusion, the concrete being solidified not being supported by a mold once out of the die. The improvement of concrete construction techniques and the increase of knowledge and experience in this field make concrete beams a competitor of metal beams and have led the designers of concrete beams to design similar beam sections to sections of metal beams.

The high-performance fiber-reinforced concretes thus made it possible to obtain beams having relatively thin sections while having a high mechanical strength. The fire resistance of such beams is higher than that of standard metal beams. On the other hand, the techniques used in metal frameworks, in particular welding and mechanically welded assembly, in order to link the beams together to ensure transmission and distribution of forces and stresses can not be transposed to the bonding of concrete beams, while their simplicity greatly contributed to the development of metal structures. The manufacture of beams having sections having relatively thin portions and / or overflow is also more difficult to achieve with concrete than with metal. An object of the invention is to provide a beam structure thanks to which it is possible to obtain, from manufacture, a beam of better performance and, at the moment of its use, a greater diversity of use than the beams in traditional concrete. For this purpose, according to the invention, there is provided a high-performance fiber-reinforced beam, which comprises a first spar comprising at least one core whose longitudinal edge is in the form of a flange and the other edge forms a flange. longitudinal tongue for cooperating with at least one longitudinal groove of a second spar also having, in contrast to the groove, the shape of a bearing flange, at least one of the spars having a prestressing cable longitudinal embedded in the concrete parallel to the neutral longitudinal axis of the beam. Thus, to achieve the beam according to the invention, the beams are made independently of one another before being nested one in the other. Each spar can thus be manufactured in the most convenient position, for example with the soleplate facing down to rest on the table, in the case of extrusion or with the sole upwards, in the case of molding in a formwork. The interlocking of the longitudinal members ensures a transmission of forces and a distribution of stresses between them such that the composite beam thus formed behaves like a beam in one piece. It is even possible, by this structure, to provide longitudinal members of compositions leading to different mechanical qualities and thus act on the load behavior of the beam.

Preferably, the longitudinal tongue has convergent flanks advantageously defining a vertex angle determined so that jamming can occur between this tongue and the groove which receives it and which also has diverging sides.

The longitudinal members are thus firmly mechanically connected. Preferably then, the tongue has a connection fillet flanks to each other. This makes it possible to limit the wear of the contact zones of the longitudinal members while avoiding a concentration of the stresses. Advantageously, a binder layer is interposed between the tongue and the groove, the binder being preferably a structural adhesive.

The binder layer reinforces the connection of the longitudinal members. Furthermore, the beam of the invention may comprise regularly distributed anchors which pass through both the flanks of the groove of the ribbed spar and the tongue of the other spar. This provision-tion is a keyway of the connection which constitutes a security, opposing the separation of the side members if this connection was to be ruined over time. The dowels may be replaced by bolts or the like. In a variant, the tongued spar of the beam of the invention comprises several parallel webs coming from a common sole and defining a plurality of tongues while the grooved spar comprises several parallel grooves, of the same spacing as that separating the aforesaid webs. The beam formed by the combination of these two longitudinal members constitutes a hollow beam with several compartments which can be used as a component constituting a wall or a floor. The internal spaces of this beam can be filled before assembly, a sound and / or thermally insulating material. The invention also relates to a method of abutting two beams in accordance with those described above, according to which is capped by a section of grooved spar the ends placed end to end of two tongue rails. These ends belong of course to beams whose remaining length is according to the invention formed of two associated longerons. Two variants of this process are possible. The first consists in that said section is an axial extension of the grooved spar belonging to one of the two beams while the other beam is devoid of grooved spar a length substantially identical to that of said extension. The second is that each of the adjacent beams is devoid of a grooved spar near its end to abut the other beam, said section being a jumper overlapped over the exposed tongue portions of each beam. The method of the invention makes it possible to abut the beams by ensuring the continuity of the recovery of the forces in the connection zone in a simple and effective manner. According to two additional features of the method of the invention, the method comprises the step of: - engaging at least one peg transversally to the groove and the tongue that it overlaps, to the right of each beam, - d interpose a layer of binder between the tongue and the groove. These characteristics ensure a strengthening of the connection between the two beams.

Other characteristics and advantages of the invention will emerge on reading the following description of non-limiting exemplary embodiments of the invention. Reference is made to the accompanying drawings, in which: FIG. 1 is a cross-sectional view of a simple beam according to the invention; FIG. 2 illustrates a hollow composite beam according to the invention, which can form an element; 3 or 4 are partial side views, each illustrating two abutment beams according to the invention, - Figure 5 illustrates in a sectional view a complementary end-to-end connection element. of two beams according to the invention -les 6 and 7 illustrate respectively a side view and a sectional view along the line VII-VII of Figure 6, an alternative embodiment of the abutment means of two beams according to the invention. DETAILED DESCRIPTION OF THE INVENTION The beam shown in FIG. 1 has an I-section. The beam, generally referred to as 1, comprises a first spar 2.1 and a second spar 2.2 extending parallel to each other. . The first spar 2.1 comprises a core 3. 1 bordered by a longitudinal support portion 4.1 shaped as a sole and whose other longitudinal edge forms a tongue 5.1. The support plate 4.1 extends here perpendicularly to the central portion of the core 3.1 and comprises portions extending on either side of the central portion of the core and projecting therefrom. . The end of the tongue forming core 5.1 is delimited laterally by convergent sidewalls 6 connected to each other by a substantially cylindrical fillet 7. The second spar 2.2 comprises a core 3.2 having a longitudinal support portion 4.2 conformed in one sole and, in contrast, a longitudinal portion with a groove 5.2 of complementary shape to that of the tongue 5.1. The soleplate 4.2 extends perpendicularly to the core 3.2, is parallel to the support plate 4.1 and comprises portions extending on either side of the core 3.2 and projecting therefrom. The tongue 5.1 is nested in the groove 5.2. The flanks 6 are convergent at a given vertex angle, for example 5 °, just as the flanks of the groove are diverging at the same angle, to encourage a jamming of the tongue 5.1 in the groove 5.2.

A binder layer 8, here a structural adhesive, extends between the tongue 5.1 and the groove 5.2 on all or part of their surfaces in contact. Here the glue is a rigid epoxy structural glue of class 2. Advantageously, the glue is in accordance with the French standard NFP 35 18 870 and has a compressive strength of at least 50 MPa and a tensile strength of bending of at least 15 MPa. The spars are made of high performance fiber reinforced concrete (UHPC). The fibers used are metal fibers possibly associated with fibers of plastic material such as propylene to increase the fire resistance. The mechanical tensile performance of the binder employed is comparable to that of ultra-high performance fiber-reinforced concrete. The beam 1 comprises a longitudinal prestressing cable 9 embedded in the concrete. In the case of Figure 1, this cable is embedded in the spar 2.1, under a longitudinal axis 10 of the beam. The cable is made of steel with a temperature resistance up to 350 ° C. In a variant not shown, the cable is housed in the beam 2.2 of the beam. In this case, the beam is used so that its lower support on a support infrastructure (wall, pole, ...) is achieved by the sole 4.2. Figure 2 illustrates in cross section a beam 20 according to the invention in which the pattern of the single beam I of Figure 1 is repeated twice along two wide flanges. Thus, the tongue spar 21 comprises three webs 22, 23 and 24, erected on a common sole 25 while the grooved spar 26 has three grooved webs 27, 28 and 29 erected on a common sole 30. The resulting beam has two internal spaces 31 and 32 which can be filled with an acoustically and / or thermally insulating material. These spaces can also constitute reserves for installing fluid or electrical lines. It will be noted in this figure 2 that the lateral ends of the spar 26 are slightly different from those of a single sole. This geometry allows an undercut surface 33 to be supported along the upper edge of each beam which, when two beams such as are longitudinally adjacent and in contact with their base plate 21, partially occlude the beam. space 34 between these beams in which a keying concrete, possibly with a passive reinforcement, can be cast, for example at the same time as a compression slab for laterally linking the beam between them.

A first variant of an end-to-end connection method of two beams 1.A, 1.B is described below with reference to FIG. 3. One of the ends of the tongue member 2.1.A projects axially at second lanyard 2.2.A. Opposite, at the end of the beam 1.B, the second spar 2.2.B is in axial projection of the first spar 2.1.B. According to this first variant of the method of the invention, the step of abutting the ends of the beam 1.A and the beam 1.B consists in fitting the exposed tongue 5.1.A of the beam 2.1.A of the beam 1 .A in groove 5.2.B of beam 2.2.B of beam 1.B. A binder layer is interposed between these nested portions.

The method further comprises here the additional step of engaging transverse pins 11 through the nested portions. These pins 11 reinforce the connection between the beam 1.A and the beam 1.B while working in shear. The pegs 11 may be pins or bolts. Note that these dowels may also be present, from place to place along each beam through the groove and tongue interlocked. In Figure 4, we find most of the elements already described with reference to Figure 3 with the same references. Each end of the beam 1.A and 1.B is devoid of the groove spar associated therewith so that a section 12 of groove spar is mounted astride the butt contact zone of the beams 1.A and 1.B. This section is also glued in FIG. 5, represented by a cross-sectional view the presence of a lower shoe 13 which comprises a base plate 14 and two wings 15 and 16, these elements being assembled, among themselves, by bonding and at the butt joint of two beams 1.A and 1.B, by bonding the base plate 14 under the sole of these beams. The base plate 14 can be pre or post stressed by means of cables 17. This shoe is located under the section 12 of grooved spar.

In Figures 6 and 7, the means shown are a variant of those shown in Figure 5. Indeed, the section of 12a spar has a sole 4.2a which is wider than the sole 4.2 previously described so as to carry three longitudinal portions , each with a groove 5.2, 5.2a, 5.2b capable of fitting the tongue 5.1 of the spar 2.1.A and the ends of the ai-15a and 16a-shaped tabs 15b and 16b. These belong to the shoe 13a being in one piece with the base plate 14a of this shoe. Note that the spar 2.1.A comprises two cables 9a and 9b of pre or post stress and that the base plate 14a is fixed to the sole 4.1 of the spar 2.1.A by pins (pins or bolts) 18. Of course, the invention is not limited to the embodiment described but encompasses any variant within the scope of the invention as defined by the claims. In particular, the beam may have a section different from that described and, for example, a section C, U, diabolo ... 5 The beam may be constrained longitudinally by prestressing or post-stress. The connection of the beams can be performed without binder or without ankle. The binder may be an epoxy type glue or the like, or even a mortar. Finally for particular applications, the tongue spar may be different from the groove spar.

Claims (17)

1. Beam (1) high performance fiber-reinforced concrete, characterized in that it comprises a first spar (2.1) comprising at least one core (3.1), having a support section (4.1) along a longitudinal edges of the core and, along its opposite edge, a tongue (5.1) nested in a groove (5.2) of complementary shape belonging to a second spar (2.2) having, opposite the groove, a support sole (4.2), at least one of the longitudinal members comprising a longitudinal stress cable (9) embedded in the concrete parallel to the neutral longitudinal axis (10) of the beam. 2. Beam according to claim 1, wherein the tongue (5.1) is delimited laterally by convergent flanks (6). 3. Beam according to claim 2, wherein the flanks (6) define a determined vertex angle to promote a jamming of the tongue (5.1) in the groove (5.2). 4. Beam according to claim 2, wherein the tongue (5.1) comprises a substantially cylindrical fillet (7) connecting the flanks (6) to each other. 5. Beam according to claim 1, comprising a binder layer (8) extending between the tongue (5.1) and the groove (5.2). 6. Beam according to claim 5, wherein the binder (8) is a structural adhesive. 7. Beam according to one of the preceding claims, characterized in that it comprises pins (11) transverse through the nested parts. 8. Beam according to claim 1, wherein the longitudinal stress element (9) extends in the tongue spar (2.1). 9. Beam according to claim 1, wherein the longitudinal stress element (9) extends in the groove elonger (2.2). 10. Beam according to one of the preceding claims, characterized in that the tongue spar (21) comprises a plurality of webs (22, 23, 24) from a common sole (25) and in that the spar (26). groove comprises, in equal numbers, a plurality of grooves (27, 28, 29) spaced apart from one another as are the webs of the spar (21) tab. 11. A method of abutting two beams according to one of the preceding claims, characterized in that capped by a section (12) of grooved spar the ends placed end to end of two tongue rails. 12. A method according to claim 11, characterized in that said section is an axial extension (2 .2.B) of the grooved spar (2.2) belonging to one (1.A) of the two beams while the other beam (1.B) is devoid of grooved spar a length substantially identical to that of said extension. 13. The method of claim 11, characterized in that each of the adjacent beams (1.A, 1.B) is devoid of grooved spar near its end to abut to the other beam, said section being a jumper (12). ) overlapped over the exposed tongue portions (5.2.A, 5.2.B) of each beam. 14. Method according to one of claims 11 to 13, comprising the step of engaging at least one peg (11) transversely to the groove and the tongue that it overlaps, to the right of each beam (1.A , 1.B). 15. Method according to one of claims 11 to 14, comprising the step of interposing a binder layer (8) between tongue and groove. 16. A method according to one of claims 11 to 15, characterized in that it comprises the step of placing a shoe (13,13a) under the adjacent ends of the flanges (4.1) of the splicing beams. 17. The method of claim 16 characterized in that it comprises the step of cooperating side wings (15a, 16a) of the shoe (13a) whose free ends are shaped tongues (15b, 16b) with grooves. (5.2a, 5.2b) which is provided with the section (12a) on either side of a central groove (5.2) which accommodates the groove the tongue (5.1) of the tongue members (2.1.A, 2.1.B ).