受弯构件的正截面承载力课件

1、Chapter 4 Ultimate Bearing Capacity of Diagonal Section for Flexural Members4.1 Introduction Question: Why should we conduct the calculation of shear strength for flexural members? Take a simply supported beam under symmetrical concentrated loads for example. Pure bending segment ：As the bending mom

2、ent M is larger, the vertical crack occurs, then the failure happens along the perpendicular section.（the longitudinal reinforcements required, see previous chapter.）Shear-bending segment： As the combined actions of shear V and moment M, the diagonal crack occurs, then the failure happens along the

3、diagonal section.（the transverse ties or bent-up bars required, see this chapter.） Web reinforcement is composed of transverse ties and bent-up bars The bent-up bar is perpendicular to the diagonal crack, so it is the effective way to resist the crack. Existing problems In design of beams, transvers

4、e ties (stirrups) are usually used firstly, then bent-up bars are considered in some cases. Longitudinal reinforcements, web reinforcements and other detailing bars form skeleton of steel in a beam. 梁的钢筋构造Bent-up barsSkeleton barsStirrups Longitudinal reinforcement Rigid skeleton of steelDetailing b

5、arsweb reinforcementstirrups (transverse ties) bent-up bars skeleton of steellongitudinal reinforcement web reinforcementsome other detailing bars Notes: (1)As the ratio of a slab is so large that it usually has adequate bearing capacity in diagonal section. Therefore the bearing capacity in normal

6、section is only needed in the design for a slab. No stirrups exist in the concrete slab except thick slab. (such as thick pile cap) （2）Diagonal section capacity includes shearing resistance and bending resistance in a diagonal section. 斜截面受剪承载力-由计算+构造满足。本章内容 配箍筋或弯起筋 斜截面受弯承载力-由对纵筋和箍筋的构造要求 来满足。 Shear

7、capacity of diagonal section - met by calculating & detailing. (stirrups or bent-up bars needed) Bending capacity of diagonal section - met by detailing only (longitudinal reinforcements and stirrups)4.2 Diagonal Cracks，Shear Span Ratio & Failure Modes of Diagonal Section of Beams1. Formation of Dia

8、gonal Cracks Fig.5.2 shows principal stress trajectories for a simply supported RC beam without web reinforcement under two symmetrical concentrated loads. ( solid lines principal tensile stress trajectories dotted lines principal compressive stress trajectories) Before diagonal crack occurs, the be

9、am may be assumed as a homogeneous beam. The principal tension stress and the principal compression stress at any point can be determined by the formulas from Material Mechanics. The diagonal crack is along the direction of principal compressive stress trajectories. Principal tensile stress Principa

10、l compressive stress The angle of is the angle of principal tensile stress with the longitudinal axis of the beam.Principal stress trajectoriesPrincipal tensile stress trajectoriesPrincipal compressive stress trajectoriesPrincipal stress trajectories in a homogeneous beam剪应力的分布Distribution of shear

11、stress at sectionFor rectangle section, the maximum stress locates at the neutral axis, and zero stress at both top and bottom of the section.The character of two types of diagonal cracks :Web-shear cracksFlexural-shear cracks1）web-shear cracks, resulting from the larger shearing stress near the neu

12、tral axis, is wide in the middle and thin in both end of the crack, like a date pit. (usually occurring in thin-web beams)2）flexural-shear cracks, developed as an extension of the flexural cracks. (usually occurring in normal beams) Diagonal cracksWhen the principal tensile stress exceeds the tensil

13、e strength of concrete, diagonal cracks may be formed.web-shear cracksflexural cracksflexural cracksflexural-shear cracks 2. Shear Span Ratio Beam under concentrated load ： calculated shear span ratio where is the shear span, is the effective depth. is the ratio of shear span and effective depth, it

14、 shows the position of the concentrated load. generalized shear span ratio Shear span ratio is a very important parameter, which is closely related with the mode of the shear failure and shear strength of a beam. 3. Failure Modes of Diagonal Section Failure modes of Normal Section: determined by ste

15、el ratio 适筋梁破坏 超筋梁破坏 少筋梁破坏Failure modes of Diagonal Section: determined by shear span ratio and stirrup ratio 剪压破坏 斜压破坏 斜拉破坏 （适箍梁） （超箍梁） （少箍梁） Under- reinforced beamOver-reinforced beamScarce-reinforced beamShear compression failureDiagonal compression failureDiagonal splitting failure1. In case of

16、happening：When and the web reinforcement is numerous, or for thin-web beam（T-section and I-section beam） Characteristics ：The principal compression stress in the concrete near the support exceeds the compressive strength of concrete and the concrete between the support and the concentrated load is c

17、rushed by the principal compression. However the stirrups havent yielded before failure. It usually occurs in the zone with small M and large V.Diagonal compression failure斜压破坏（超箍梁破坏）华南理工大学土木工程系斜压破坏特点F斜裂缝首先在梁腹部出现。梁是因为斜压柱体被压碎而破坏，故称为斜压破坏。破坏时与斜裂缝相交的箍筋应力达不到屈服强度，梁的受剪承载力主要取决于混凝土斜压柱体的受压承载力。2. 斜拉破坏（少箍梁破坏） I

18、n case of happening：When and simultaneously the amount of web reinforcement is low.Characteristics：There is only one diagonal crack occurred with larger width. Along two sides of the crack, concrete member is split into two parts. The stirrups yield immediately after the crack.Failure process: Becau

19、se of the shear stress rapidly increases in the residual concrete section, the principal tensile stress in the compression zone exceeds the tensile strength of the concrete. The diagonal crack extends rapidly upward and splits the member into two. Diagonal splitting failure斜拉破坏特点Ftsxstp斜裂缝一出现，即很快形成临

20、界斜裂缝，并迅速延伸到集中荷载作用点处。因腹筋数量过少，腹筋很快达到屈服，不能抑制斜裂缝的开展，梁斜向被拉裂成两部分而突然破坏。这种破坏是混凝土在正应力和剪应力共同作用下发生的主拉应力破坏，故称为斜拉破坏。其斜截面受剪承载力主要取决于混凝土的抗拉强度。3. 剪压破坏（适箍梁破坏） In case of happening：When is in the area of ,and the web reinforcements are properly set, or is large （ 3），and the web reinforcements are not less.Characterist

21、ics：Many cracks occur during loading. When a critical diagonal crack occurs, concrete shear compressive zone gets small and small, and the concrete stress in this residual zone is increasing under normal stress and shear stress, until to exceed concrete strength under Bi-axial loads. Then concrete i

22、s crushed. The stirrups yield before the concrete is crushed. = Shear compression failure剪压破坏特点临界斜裂缝 F弯剪段下边缘先出现初始垂直裂缝。随着荷载的增加，这些初始垂直裂缝将大体上沿着主压应力轨迹向集中荷载作用点延伸。在几条斜裂缝中会形成一条主要的斜裂缝，这一斜裂缝被称为临界斜裂缝。最后，与临界斜裂缝相交的箍筋达到屈服，剪压区混凝土在剪压复合应力作用下达到混凝土复合受力强度而破坏，梁丧失受剪承载力。Shear strength depends on compressive strength of c

23、oncrete. Shear compression failureDiagonal compression failureDiagonal splitting failureFailure mode of diagonal sectionShear strength depends on concrete strength under Bi-axial loads.Shear strength depends on tensile strength of concrete. Summary:All the three shear failures are belong to brittle

24、failure. In contrast, shear compression failure is better than the other twos，in which the stirrup can yield and considerable cracks may develop before the member fails.In diagonal compression failure and diagonal splitting failure, the concrete or steel is not full used. They are should be avoided.

25、The design equation of shear strength is based on the mode of shear compression failure.A concept is presented: strong column and weak beam, strong shear and weak bending. To avoid diagonal compression failure: The section size should be larger than a minimal areaTo avoid diagonal splitting failure:

26、 the minimum amount of transverse stirrups, stirrup diameter and stirrup space are limited.To ensure the shear capacity of diagonal section by calculation.diagonal compression failurediagonal splitting failureFailure modes of Diagonal Section: Determined by shear span ratio and stirrup ratio Shear c

27、ompression failure4.3 Factors Affecting the Strength of Diagonal Section1. Shear span ratio2. Strength of concrete3. Stirrup ratio and the strength of stirrup4. Longitudinal steel ratio5. Loading way 6. Section formAbove items 1.,2.,3. are main factors affecting the shear strength of diagonal sectio

28、n.1. Shear span ratio （剪跨比） With the increase of ，the shear failure mode changes. For , the ultimate shear strength tends to decrease with the increase of .For , the ratio has little influence on the ultimate shear strength. P85 Fig.4-17 4.3 Factors Affecting the Strength of Diagonal Sectiondiagonal

29、 compression failure Shear compression failurediagonal splitting failureDifferent shear span ratio leads to a different failure pattern. diagonal compression failureShear compression failurediagonal splitting failure剪压破坏 斜压破坏斜拉破坏 Shear strength against shear span ratio 2. concrete strengthAny type o

30、f shear failures is due to that the concrete attains its compressive or tensile strength.The strength of concrete directly affects the shear strength of members. The shear strength of members increases with the concrete strength and the relation is nearly linear. Shear strength against cubic strengt

31、h of concrete 4.3 Factors Affecting the Strength of Diagonal Section（混凝土强度）3. Stirrup ratio and the strength of stirrup The stirrup ratio is given by where leg number of stirrup; area of one leg of stirrup; spacing of stirrup. With the increase of the ratio and yielding strength , the shear strength

32、 Vu tends to increase, and the relation is linear. bAsv1sAsv= 2Asv1（配箍率和箍筋强度）4. Longitudinal steel ratio The longitudinal bar can supply dowel action force, that it can resist some of shear forces in the cross section. The longitudinal bar can restrict the extending of diagonal cracks, and then enla

33、rge the compression zone. With the increase of , the shear strength increases slightly. dowel action force4.3 Factors Affecting the Strength of Diagonal Section（纵筋配筋率）5. Loading way directly loading and indirectly loading Indirectly loading leads to decrease of the shear strength.In lab loading test

34、, the beam is usually loaded directly on its top face, that is called “directly loading ”In practical project, such as cast-in-situ ribbed floor, the load of secondary beam is acted on the middle or bottom zone of main beam, that is called “indirectly loading ”compression zonemain beamsecondary beam

35、4.3 Factors Affecting the Strength of Diagonal Section（加载方式）Indirectly loading leads to decrease of the shear strength.6. Section form For T-section beam or I-section beam, the existence of flange is helpful to increase the capacity of the beams with web reinforcement about 525, however the effect is not obvious, and it is usually ignored in practical design.1.,2.,3. are main factors affecting the shear strength of diagonal section.4.3 Factors Affecting the Strength