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Calculation parameters

Calculation parameters are divided into several groups:

general parameters (see below),
parameters for columns (see below),
parameters for beams (see below),
parameters for CDD/PGNL calculation (see separate chapter),
parameters for interaction diagram (see separate chapter).

General parameters

Number of iteration steps	Defines the maximum numbers of steps, used to find the state of equilibrium in a section.
Precision of iteration	Defines the numerical precision in percentages.
Limit value for checks	This value is used in all checks for final assessment whether the member satisfies or does not satisfies the prescribed conditions. Normally, this value will be one (1), but it can be even lower or greater than 1.
For stiffness and crack-proof calculation use reinforcement	As,tot or 0 (As, tot for As,req > 0 and 0 for As,req = 0) The total area of reinforcement is used for the calculation on condition that the design function has been already run and that the program has already calculated the required area of reinforcement. Otherwise, zero value is used (even if the user has manually inserted some reinforcement bars). The total area of reinforcement is the sum of the user-defined reinforcement (through basic reinforcement, through reinforcement zones/regions or through free bars) and calculated additional required reinforcement. The additional required reinforcement may be zero, if the user has already inputted enough user-defined reinforcement. IMPORTANT: Keep in mind, that the function calculating the required areas of reinforcement MUST HAVE BEEN run before. Otherwise, the user-defined reinforcement is ignored and ZERO value is used. As, user The user-defined reinforcement is used for the calculation. The term user-defined reinforcement covers the basic reinforcement specified in member data, reinforcement bars inputted through reinforcement templates in reinforcement zones (1D members) or regions (2D members), and free bars of reinforcement. In order: [ As, user ]; [ As,tot or 0] If there is any user-defined reinforcement, it is used, otherwise, the total reinforcement is used (which in fact means the calculated required area of reinforcement). Remember, that for the second option, the design function must have been already run. In order: [ As,tot or 0]; [ As, user] If the design of reinforcement has been already performed and the required area of reinforcement has been already calculated, it is used. Otherwise, the user-defined reinforcement is used.
Check percentage of longitudinal reinforcement	If this option is ON, the calculation procedure takes account of the defined reinforcement percentage for longitudinal reinforcement.
Check percentage of shear reinforcement	If this option is ON, the calculation procedure takes account of the defined shear reinforcement – number of legs, link diameter, spacing of the links, and minimal percentage of reinforcement.
Check selected sections only	The checks are performed only in selected sections. This option can dramatically speed up the program.
Concrete area weakened by reinforcement bars	The area of reinforcement is subtracted from the area of the cross-section – as if ducts were installed.
Take into account longitudinal practical reinforcement for design calculation	If ON, the already inserted longitudinal reinforcement is taken into account during the calculation.
Check torsion	If ON, the torsion check is performed.

Parameters for columns

Advanced settings	This parameter can simplify the input for those users who calculate simple problems and need to adjust just a few basic parameters. If ON, all the items in the column setup part are available. If OFF, only the basic parameters are available. The less-common parameters are disabled.
Corner design only	The following cross-sections are supported: rectangular, L-section, T-section, I-section. The bars are designed only in corners of the cross-section. The calculation is iterative and diameter or area of reinforcement in corner is increased until the check is satisfied.
Determine governing cross-section beforehand	The user may determine that the design of reinforcement is carried out in the foot and head of the column. Otherwise, the calculation is carried out in all intermediate sections as well, which may be time consuming and bring no profit in terms of accuracy. The subsequent check of the designed reinforcement is performed in all sections.
Buckling data	The option activates a pseudo-linear calculation of buckling for 1D member (the genuine 2nd order analysis is the non-linear one, i.e. using the Timoshenko or Newton-Raphson iteration). If this option is ON, a special algorithm is started on the background that evaluates bar imperfections and 1st + 2nd order deflections which leads to an approximation of the 1st order bending moments by increased 2nd order moments. DIN 1045-1 introduces for this situation the concept of "Model column method" and ÖNORM calls it "Spare bar method". Each national standard implemented in SCIA Engineer uses its analysis path that takes into account the stipulations of the particular standard.
Optimize the number of bars in c-s for biaxial calculation	If ON, the number of bars in the cross-section is optimised to achieve the minimum number of bars with the cross-section still passing the check.

Calculation method

Uni-axial bending calculation

The largest of bending moments My, Mz will be taken into consideration. The smaller one will be ignored.

Bi-axial bending calculation

(interaction formula)

Both My and Mz are taken into account. The design is carried out using interaction formula

(My/Myu)x + (Mz/Mzu)x < 1

where x is the safety factor (see below).

Automatic determination - uni-axial bending calculation if ratio of biaxial moment is less then

If the ratio of one bending moment to the other along the whole beam length is smaller than the input value, then the beam is considered to be subject to uni-axial bending. Otherwise, if at least one cross-section is found where the ratio is greater than the input value, the biaxial approach is applied.

Biaxial bending

Safety factor for biaxial bending formula (see above)	Specifies the safety factor used in the interaction formula above. Default value = 1.4.
Calculate reinforcement using	real area of reinforcement If this option is ON, the reinforcement is calculated from the real sectional area of individual bars. delta area of reinforcement If this option is ON, the reinforcement is calculated using the user defined area (delta).
Optimisation method for number of bars in cross-section	If the option is ON, the number on bars in section is minimised so that their minimal number is used.
Ratio y/z	automatic If ON, the ratio of y-reinforcement to z-reinforcement is determined automatically. manual If ON, the user specifies the ratio of reinforcement in y-direction to reinforcement in z-direction.

Parameters for beams

Calculate compression reinforcement

If the compression reinforcement is necessary, check this box to provide for its calculation.

Moment capping at supports

Bending moment diagram may be "shifted" in supports in order to provide for reduction of support bending moments. The reduction depends on the type of support. For supports of Column type, the support dimension is calculated from the column’s cross-section. For standard supports the user must input the support size (see the chapter dealing with point supports in the main reference manual).

Shear force capping at supports

If reduction of shear force in supports is allowed, check this box.

at the face (support/column)

the reduced shear force is determined at the support face

at the effective depth from the face (support/column)

the reduced shear force is determined in the effective length from the support face

See ENV 1992-1-1 – Art. 4.3.2.2(10)

in the face (support/column) + factor x internal cantilever arm

For this option, the user must specify Factor of internal cantilever arm.