Mindestbewehrung deckengleicher Unterzug (Bsp.): Unterschied zwischen den Versionen

Aufgabe

Ermittlung der Mindestbewehrung eines deckengleichen Unterzuges am Zwischenauflager anhand folgender Ausgangssituation:

Maße

${\displaystyle Deckendicke~h=0,20m}$

${\displaystyle Wanddicke~t=0,24m}$

${\displaystyle Lichte~Stuetzweite~l_{\mathrm {n} }=2,00m}$

${\displaystyle Plattenstuetzweite~l_{\mathrm {P,o} }=6,00m}$

${\displaystyle Plattenstuetzweite~l_{\mathrm {P,u} }=4,00m}$

Statische Nutzhöhe

${\displaystyle d_{\mathrm {o} }=15,70cm~}$

${\displaystyle d_{\mathrm {1,o} }=4,30cm~}$

${\displaystyle d_{\mathrm {u} }=16,70cm~}$

${\displaystyle d_{\mathrm {1,u} }=3,30cm~}$

Mitwirkende Plattenbreiten (Zwischenauflager)

${\displaystyle b_{\mathrm {M,F} }=105,00cm~}$

${\displaystyle b_{\mathrm {M,S} }=52,50cm~}$

${\displaystyle b_{\mathrm {M,Q} }=44,00cm~}$

Baustoffe

${\displaystyle Beton~C25/30~(XC1)~mit~f_{\mathrm {ck} }=25N/mm^{2}}$

${\displaystyle Betonstahl~Bst~500~S~(A)~mit~f_{\mathrm {yk} }=500N/mm^{2}}$

Einwirkungen

${\displaystyle V_{\mathrm {Ed} }=29,72kN~}$

Sicherheitsbeiwerte

${\displaystyle {\begin{aligned}\gamma _{\mathrm {S} }=1,15\end{aligned}}}$

${\displaystyle {\begin{aligned}\gamma _{\mathrm {C} }=1,50\end{aligned}}}$

Berechnung

Längsbewehrung

${\displaystyle A_{\mathrm {s,min} }={\cfrac {M_{\mathrm {cr} }}{z_{\mathrm {II} }*f_{\mathrm {yk} }}}}$

${\displaystyle M_{\mathrm {cr} }=f_{\mathrm {ctm} }*{\cfrac {I_{\mathrm {I} }}{z_{\mathrm {I} }}}}$

${\displaystyle f_{\mathrm {ctm} }={\underline {0,26kN/cm^{2}}}~}$

${\displaystyle I_{\mathrm {I} }={\cfrac {b*h^{3}}{12}}={\cfrac {105cm*(20cm)^{3}}{12}}={\underline {70000cm^{4}}}}$

${\displaystyle z_{\mathrm {I} }={\cfrac {h}{2}}={\cfrac {20cm}{2}}={\underline {10cm}}}$

${\displaystyle M_{\mathrm {cr} }=0,26kN/cm^{2}*{\cfrac {70000cm^{4}}{10cm}}={\underline {1820kN}}}$

${\displaystyle Z_{\mathrm {II} }=0,9*d=0,9*16,70cm={\underline {15,03cm}}~}$

${\displaystyle A_{\mathrm {s,min} }={\cfrac {1820kN}{15,03cm*50kN/cm^{2}}}={\underline {\underline {2,42cm^{2}}}}}$

${\displaystyle A_{\mathrm {gew} }={\underline {\underline {3,14cm^{2}}}}}$

Ausdruck in mb-AEC Baustatik

Querkraftbewehrung

• Rechnerisch erforderlich?
  
  

${\displaystyle V_{\mathrm {Ed} }\leq V_{\mathrm {Rd,c} }}$

${\displaystyle V_{\mathrm {Rd,c} }=[{\cfrac {0,15}{\gamma _{\mathrm {c} }}}*k*(100*\rho _{\mathrm {l} }*f_{\mathrm {ck} })^{1/3}+0,12*\sigma _{\mathrm {cp} }]*b_{\mathrm {w} }*d}$

${\displaystyle k=1+{\sqrt {\cfrac {200}{d}}}=1+{\sqrt {\cfrac {200}{157mm}}}={\underline {2,13}}>2,0}$

${\displaystyle k={\underline {2,0}}~}$

${\displaystyle \rho _{\mathrm {l} }={\cfrac {A_{\mathrm {sl} }}{b_{\mathrm {w} }*d}}={\cfrac {3,14cm^{2}}{44,00cm*15,70cm}}={\underline {0,00455}}<0,02}$

${\displaystyle V_{\mathrm {Rd,c} }=[{\cfrac {0,15}{1,5}}*2,00*(100*0,00455*25n/mm^{2})^{1/3}+0]*440mm*157mm=31061N={\underline {31,06kN}}}$

${\displaystyle V_{\mathrm {Rd,c} }\geq [v_{\mathrm {min} }+0,12*\sigma _{\mathrm {cp} }]*b_{\mathrm {w} }*d~}$

${\displaystyle v_{\mathrm {min} }={\cfrac {0,0525}{\gamma _{\mathrm {c} }}}*k^{3/2}*f_{\mathrm {ck} }^{1/2}={\cfrac {0,0525}{1,5}}*2,00^{3/2}*(25kN/cm^{2})^{1/2}={\underline {0,495}}<0,02}$

${\displaystyle V_{\mathrm {Rd,c} }\geq [0,495+0]*440mm*157mm=34193N={\underline {34,19kN}}~}$

${\displaystyle V_{\mathrm {Ed} }\leq V_{\mathrm {Rd,c} }}$

${\displaystyle {\underline {\underline {29,72kN\leq 34,19kN}}}}$

• Mindestquerkraftbewehrung ist nicht erforderlich!
  
  

Ausdruck in mb-AEC Baustatik

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