EX. UK-22 Time History Analysis for Sinusoidal Loading
A space frame structure is subjected to a sinusoidal (dynamic) loading. The commands necessary to describe the sine function are demonstrated in this example. Time History analysis is performed on this model.
This problem is installed with the program by default to C:\Users\Public\Public Documents\STAAD.Pro 2024\Samples \Sample Models\UK\UK-22 Time History Analysis for Sinusoidal Loading.STD when you install the program.
UNIT KNS METER
The units for the data that follows are specified above.
JOINT COORDINATES
1 0 0 0 ; 2 5 0 0 ; 3 5 0 5 ; 4 0 0 5
5 0 7 0 ; 6 2.5 7 0 ; 7 5 7 0 ; 8 5 7 2.5
9 5 7 5 ; 10 2.5 7 5 ; 11 0 7 5
12 0 7 2.5 ; 13 2.5 7 2.5
UNIT MMS
MEMBER PROPERTIES
1 TO 4 PRIS YD 600 ZD 600
5 TO 16 PRIS YD 450 ZD 450
Members 1 to 16 are defined as PRISmatic sections with width and depth values provided using the YD and ZD options. The UNIT command is specified to change the units for length from METER to MMS.
SUPPORTS
1 TO 4 PINNED
Joints 1 to 4 are declared to be pinned-supported.
DEFINE MATERIAL START
ISOTROPIC CONCRETE
E 21.0
POISSON 0.17
DENSITY 2.36158e-008
ALPHA 5e-006
DAMP 0.05
G 9.25
TYPE CONCRETE
STRENGTH FCU 0.0275
END DEFINE MATERIAL
CONSTANTS
MATERIAL CONCRETE ALL
The modulus of elasticity (E), density and Poisson’s ratio are specified following the command CONSTANTS. Built-in default values for concrete are used.
DEFINE TIME HISTORY
TYPE 1 FORCE
* FOLLOWING LINES FOR HARMONIC LOADING GENERATOR
FUNCTION SINE
AMPLITUDE 30 FREQUENCY 60 CYCLES 100
*
ARRIVAL TIMES
0.0
DAMPING 0.075
UNIT METER
LOAD 1
MEMBER LOAD
5 6 7 8 9 10 11 12 UNI GY -10.0
The above data describe a static load case. A uniformly distributed load of 10 kN/m acting in the negative global Y direction is applied on some members.
LOAD 2
SELFWEIGHT X 1.0
SELFWEIGHT Y 1.0
SELFWEIGHT Z 1.0
JOINT LOAD
8 12 FX 15.0
8 12 FY 15.0
8 12 FZ 15.0
TIME LOAD
8 12 FX 1 1
Input File
STAAD SPACE EXAMPLE FOR HARMONIC LOADING GENERATOR
UNIT KNS METER
JOINT COORDINATES
1 0 0 0 ; 2 5 0 0 ; 3 5 0 5 ; 4 0 0 5
5 0 7 0 ; 6 2.5 7 0 ; 7 5 7 0 ; 8 5 7 2.5
9 5 7 5 ; 10 2.5 7 5 ; 11 0 7 5
12 0 7 2.5 ; 13 2.5 7 2.5
MEMBER INCIDENCES
1 1 5 ; 2 2 7 ; 3 3 9 ; 4 4 11 ; 5 5 6 ; 6 6 7
7 7 8 ; 8 8 9 ; 9 9 10 ; 10 10 11 ; 11 11 12 ; 12 12 5
13 6 13 ; 14 13 10 ; 15 8 13 ; 16 13 12
UNIT MMS
MEMBER PROPERTIES
1 TO 4 PRIS YD 600 ZD 600
5 TO 16 PRIS YD 450 ZD 450
SUPPORTS
1 TO 4 PINNED
DEFINE MATERIAL START
ISOTROPIC CONCRETE
E 21.0
POISSON 0.17
DENSITY 2.36158e-008
ALPHA 5e-006
DAMP 0.05
G 9.25
TYPE CONCRETE
STRENGTH FCU 0.0275
END DEFINE MATERIAL
CONSTANTS
MATERIAL CONCRETE ALL
DEFINE TIME HISTORY
TYPE 1 FORCE
* FOLLOWING LINES FOR HARMONIC LOADING GENERATOR
FUNCTION SINE
AMPLITUDE 30 FREQUENCY 60 CYCLES 100
*
ARRIVAL TIMES
0.0
DAMPING 0.075
UNIT METER
LOAD 1
MEMBER LOAD
5 6 7 8 9 10 11 12 UNI GY -10.0
LOAD 2
SELFWEIGHT X 1.0
SELFWEIGHT Y 1.0
SELFWEIGHT Z 1.0
JOINT LOAD
8 12 FX 15.0
8 12 FY 15.0
8 12 FZ 15.0
TIME LOAD
8 12 FX 1 1
PERFORM ANALYSIS
PRINT ANALYSIS RESULTS
FINI
PAGE NO. 1
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* *
* STAAD.Pro 2023 *
* Version 23.00.03.** *
* Proprietary Program of *
* Bentley Systems, Inc. *
* Date= JUL 4, 2024 *
* Time= 11:21:11 *
* *
* Licensed to: Bentley Systems Inc *
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1. STAAD SPACE EXAMPLE FOR HARMONIC LOADING GENERATOR
INPUT FILE: D:\Documentation\STAAD.Pro\_Automated_Py\output\2024-07-04\SPro_Output_Input_Files\Sample .. .STD
2. UNIT KNS METER
3. JOINT COORDINATES
4. 1 0 0 0 ; 2 5 0 0 ; 3 5 0 5 ; 4 0 0 5
5. 5 0 7 0 ; 6 2.5 7 0 ; 7 5 7 0 ; 8 5 7 2.5
6. 9 5 7 5 ; 10 2.5 7 5 ; 11 0 7 5
7. 12 0 7 2.5 ; 13 2.5 7 2.5
8. MEMBER INCIDENCES
9. 1 1 5 ; 2 2 7 ; 3 3 9 ; 4 4 11 ; 5 5 6 ; 6 6 7
10. 7 7 8 ; 8 8 9 ; 9 9 10 ; 10 10 11 ; 11 11 12 ; 12 12 5
11. 13 6 13 ; 14 13 10 ; 15 8 13 ; 16 13 12
12. UNIT MMS
13. MEMBER PROPERTIES
14. 1 TO 4 PRIS YD 600 ZD 600
15. 5 TO 16 PRIS YD 450 ZD 450
16. SUPPORTS
17. 1 TO 4 PINNED
18. DEFINE MATERIAL START
19. ISOTROPIC CONCRETE
20. E 21.0
21. POISSON 0.17
22. DENSITY 2.36158E-008
23. ALPHA 5E-006
24. DAMP 0.05
25. G 9.25
26. TYPE CONCRETE
27. STRENGTH FCU 0.0275
28. END DEFINE MATERIAL
29. CONSTANTS
30. MATERIAL CONCRETE ALL
31. DEFINE TIME HISTORY
32. TYPE 1 FORCE
33. * FOLLOWING LINES FOR HARMONIC LOADING GENERATOR
34. FUNCTION SINE
35. AMPLITUDE 30 FREQUENCY 60 CYCLES 100
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 2
FOR SEQUENTIAL HARMONIC FORCING CURVE NUMBER= 1
NUMBER OF POINTS IN DIGITIZED HARMONIC FUNCTION= 1201
NUMBER OF POINTS PER QUARTER CYCLE OF HARMONIC FUNCTION= 3
FORCE STEP DELTA TIME PER POINT 1.38889E-03
ENDING TIME FOR THIS DIGITIZED HARMONIC FUNCTION 1.66667E+00
36. *
37. ARRIVAL TIMES
38. 0.0
39. DAMPING 0.075
40. UNIT METER
41. LOAD 1
42. MEMBER LOAD
43. 5 6 7 8 9 10 11 12 UNI GY -10.0
44. LOAD 2
45. SELFWEIGHT X 1.0
46. SELFWEIGHT Y 1.0
47. SELFWEIGHT Z 1.0
48. JOINT LOAD
49. 8 12 FX 15.0
50. 8 12 FY 15.0
51. 8 12 FZ 15.0
52. TIME LOAD
53. 8 12 FX 1 1
54. PERFORM ANALYSIS
P R O B L E M S T A T I S T I C S
-----------------------------------
NUMBER OF JOINTS 13 NUMBER OF MEMBERS 16
NUMBER OF PLATES 0 NUMBER OF SOLIDS 0
NUMBER OF SURFACES 0 NUMBER OF SUPPORTS 4
Using 64-bit analysis engine.
SOLVER USED IS THE IN-CORE ADVANCED MATH SOLVER
TOTAL PRIMARY LOAD CASES = 2, TOTAL DEGREES OF FREEDOM = 66
TOTAL LOAD COMBINATION CASES = 0 SO FAR.
***NOTE: MASSES DEFINED UNDER LOAD# 2 WILL FORM
THE FINAL MASS MATRIX FOR DYNAMIC ANALYSIS.
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 3
EIGEN METHOD : SUBSPACE
-------------------------
NUMBER OF MODES REQUESTED = 6
NUMBER OF EXISTING MASSES IN THE MODEL = 27
NUMBER OF MODES THAT WILL BE USED = 6
*** EIGENSOLUTION : ADVANCED METHOD ***
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 4
CALCULATED FREQUENCIES FOR LOAD CASE 2
MODE FREQUENCY(CYCLES/SEC) PERIOD(SEC)
1 1.832 0.54584
2 1.833 0.54558
3 2.179 0.45894
4 18.014 0.05551
5 18.981 0.05268
6 23.162 0.04317
MODAL WEIGHT (MODAL MASS TIMES g) IN KNS GENERALIZED
MODE X Y Z WEIGHT
1 2.924784E+02 3.675141E-24 1.333421E-21 2.902617E+02
2 1.338687E-21 3.119688E-30 2.924834E+02 2.907889E+02
3 1.457481E-25 3.230663E-26 6.769659E-21 4.344889E+02
4 1.151691E-20 3.984483E-21 1.962646E-19 3.771789E+02
5 3.567685E-14 1.271663E+02 3.475675E-20 5.768673E+01
6 8.511521E-03 2.884108E-21 4.373936E-20 6.607558E+01
MASS PARTICIPATION FACTORS
MASS PARTICIPATION FACTORS IN PERCENT
--------------------------------------
MODE X Y Z SUMM-X SUMM-Y SUMM-Z
1 100.00 0.00 0.00 99.996 0.000 0.000
2 0.00 0.00 100.00 99.996 0.000 99.998
3 0.00 0.00 0.00 99.996 0.000 99.998
4 0.00 0.00 0.00 99.996 0.000 99.998
5 0.00 43.48 0.00 99.996 43.477 99.998
6 0.00 0.00 0.00 99.999 43.477 99.998
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 5
A C T U A L MODAL D A M P I N G USED IN ANALYSIS
MODE DAMPING
1 0.07500000
2 0.07500000
3 0.07500000
4 0.07500000
5 0.07500000
6 0.07500000
TIME STEP USED IN TIME HISTORY ANALYSIS = 0.00139 SECONDS
NUMBER OF MODES WHOSE CONTRIBUTION IS CONSIDERED = 6
TIME DURATION OF TIME HISTORY ANALYSIS = 1.667 SECONDS
NUMBER OF TIME STEPS IN THE SOLUTION PROCESS = 1200
55. PRINT ANALYSIS RESULTS
BASE SHEAR UNITS ARE -- KNS METE
MAXIMUM BASE SHEAR X= -1.639967E+00 Y= -2.384186E-07 Z= -9.313226E-10
AT TIMES 0.127778 0.034722 0.063889
ANALYSIS RESULTS
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 6
JOINT DISPLACEMENT (CM RADIANS) STRUCTURE TYPE = SPACE
------------------
JOINT LOAD X-TRANS Y-TRANS Z-TRANS X-ROTAN Y-ROTAN Z-ROTAN
1 1 0.0000 0.0000 0.0000 -0.0001 0.0000 0.0001
2 0.0000 0.0000 0.0000 0.0000 0.0000 -0.0001
2 1 0.0000 0.0000 0.0000 -0.0001 0.0000 -0.0001
2 0.0000 0.0000 0.0000 -0.0000 0.0000 -0.0001
3 1 0.0000 0.0000 0.0000 0.0001 0.0000 -0.0001
2 0.0000 0.0000 0.0000 0.0000 -0.0000 -0.0001
4 1 0.0000 0.0000 0.0000 0.0001 0.0000 0.0001
2 0.0000 0.0000 0.0000 -0.0000 -0.0000 -0.0001
5 1 0.0001 -0.0046 0.0001 0.0002 0.0000 -0.0002
2 0.0414 0.0001 0.0000 -0.0000 0.0000 -0.0000
6 1 0.0000 -0.0487 0.0000 0.0001 0.0000 0.0000
2 0.0414 0.0000 0.0000 0.0000 0.0000 0.0000
7 1 -0.0001 -0.0046 0.0001 0.0002 0.0000 0.0002
2 0.0414 -0.0001 -0.0000 0.0000 0.0000 -0.0000
8 1 -0.0000 -0.0487 0.0000 0.0000 0.0000 0.0001
2 0.0416 -0.0005 0.0000 0.0000 0.0000 -0.0000
9 1 -0.0001 -0.0046 -0.0001 -0.0002 0.0000 0.0002
2 0.0414 -0.0001 0.0000 -0.0000 -0.0000 -0.0000
10 1 0.0000 -0.0487 -0.0000 -0.0001 0.0000 0.0000
2 0.0414 0.0000 0.0000 0.0000 -0.0000 0.0000
11 1 0.0001 -0.0046 -0.0001 -0.0002 0.0000 -0.0002
2 0.0414 0.0001 -0.0000 0.0000 -0.0000 -0.0000
12 1 0.0000 -0.0487 0.0000 0.0000 0.0000 -0.0001
2 0.0416 0.0005 0.0000 0.0000 0.0000 -0.0000
13 1 0.0000 -0.0604 0.0000 0.0000 0.0000 0.0000
2 0.0416 -0.0000 0.0000 0.0000 0.0000 0.0000
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 7
SUPPORT REACTIONS -UNIT KNS METE STRUCTURE TYPE = SPACE
-----------------
JOINT LOAD FORCE-X FORCE-Y FORCE-Z MOM-X MOM-Y MOM Z
1 1 2.15 50.00 2.15 0.00 0.00 0.00
2 -0.41 -1.13 -0.02 0.00 0.00 0.00
2 1 -2.15 50.00 2.15 0.00 0.00 0.00
2 -0.41 1.13 0.02 0.00 0.00 0.00
3 1 -2.15 50.00 -2.15 0.00 0.00 0.00
2 -0.41 1.13 -0.02 0.00 0.00 0.00
4 1 2.15 50.00 -2.15 0.00 0.00 0.00
2 -0.41 -1.13 0.02 0.00 0.00 0.00
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 8
MEMBER END FORCES STRUCTURE TYPE = SPACE
-----------------
ALL UNITS ARE -- KNS METE (LOCAL )
MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
1 1 1 50.00 -2.15 2.15 0.00 0.00 0.00
5 -50.00 2.15 -2.15 0.00 -15.03 -15.03
2 1 -1.13 0.41 -0.02 0.00 0.00 0.00
5 1.13 -0.41 0.02 0.00 0.12 2.87
2 1 2 50.00 2.15 2.15 0.00 0.00 0.00
7 -50.00 -2.15 -2.15 0.00 -15.03 15.03
2 2 1.13 0.41 0.02 0.00 0.00 0.00
7 -1.13 -0.41 -0.02 0.00 -0.12 2.87
3 1 3 50.00 2.15 -2.15 0.00 -0.00 0.00
9 -50.00 -2.15 2.15 0.00 15.03 15.03
2 3 1.13 0.41 -0.02 0.00 0.00 0.00
9 -1.13 -0.41 0.02 0.00 0.12 2.87
4 1 4 50.00 -2.15 -2.15 0.00 -0.00 0.00
11 -50.00 2.15 2.15 0.00 15.03 -15.03
2 4 -1.13 0.41 0.02 0.00 0.00 0.00
11 1.13 -0.41 -0.02 0.00 -0.12 2.87
5 1 5 2.09 25.00 0.06 1.34 -0.07 16.37
6 -2.09 -0.00 -0.06 -1.34 -0.07 14.88
2 5 -0.10 -1.03 -0.05 -0.03 0.08 -2.49
6 0.10 1.03 0.05 0.03 0.06 -0.08
6 1 6 2.09 0.00 -0.06 -1.34 0.07 -14.88
7 -2.09 25.00 0.06 1.34 0.07 -16.37
2 6 0.10 -1.03 -0.05 -0.03 0.06 -0.08
7 -0.10 1.03 0.05 0.03 0.08 -2.49
7 1 7 2.09 25.00 0.06 1.34 -0.07 16.37
8 -2.09 0.00 -0.06 -1.34 -0.07 14.88
2 7 -0.04 0.14 0.08 -0.38 -0.08 0.14
8 0.04 -0.14 -0.08 0.38 -0.12 0.21
8 1 8 2.09 0.00 -0.06 -1.34 0.07 -14.88
9 -2.09 25.00 0.06 1.34 0.07 -16.37
2 8 -0.04 -0.14 -0.08 0.38 0.12 -0.21
9 0.04 0.14 0.08 -0.38 0.08 -0.14
9 1 9 2.09 25.00 0.06 1.34 -0.07 16.37
10 -2.09 0.00 -0.06 -1.34 -0.07 14.88
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 9
MEMBER END FORCES STRUCTURE TYPE = SPACE
-----------------
ALL UNITS ARE -- KNS METE (LOCAL )
MEMBER LOAD JT AXIAL SHEAR-Y SHEAR-Z TORSION MOM-Y MOM-Z
2 9 0.10 1.03 0.05 0.03 -0.08 2.49
10 -0.10 -1.03 -0.05 -0.03 -0.06 0.08
10 1 10 2.09 -0.00 -0.06 -1.34 0.07 -14.88
11 -2.09 25.00 0.06 1.34 0.07 -16.37
2 10 -0.10 1.03 0.05 0.03 -0.06 0.08
11 0.10 -1.03 -0.05 -0.03 -0.08 2.49
11 1 11 2.09 25.00 0.06 1.34 -0.07 16.37
12 -2.09 0.00 -0.06 -1.34 -0.07 14.88
2 11 0.04 -0.14 -0.08 0.38 0.08 -0.14
12 -0.04 0.14 0.08 -0.38 0.12 -0.21
12 1 12 2.09 0.00 -0.06 -1.34 0.07 -14.88
5 -2.09 25.00 0.06 1.34 0.07 -16.37
2 12 0.04 0.14 0.08 -0.38 -0.12 0.21
5 -0.04 -0.14 -0.08 0.38 -0.08 0.14
13 1 6 0.12 -0.00 0.00 0.00 -0.00 -2.67
13 -0.12 0.00 -0.00 -0.00 -0.00 2.67
2 6 0.00 0.00 0.10 0.17 -0.11 0.00
13 -0.00 -0.00 -0.10 -0.17 -0.13 0.00
14 1 13 0.12 0.00 -0.00 -0.00 0.00 -2.67
10 -0.12 -0.00 0.00 0.00 0.00 2.67
2 13 0.00 -0.00 -0.10 -0.17 0.13 -0.00
10 -0.00 0.00 0.10 0.17 0.11 -0.00
15 1 8 0.12 -0.00 -0.00 0.00 -0.00 -2.67
13 -0.12 0.00 0.00 -0.00 0.00 2.67
2 8 -0.03 0.24 0.00 -0.00 -0.00 0.76
13 0.03 -0.24 -0.00 0.00 -0.00 -0.17
16 1 13 0.12 0.00 -0.00 -0.00 0.00 -2.67
12 -0.12 -0.00 0.00 0.00 0.00 2.67
2 13 0.03 0.24 0.00 -0.00 -0.00 -0.17
12 -0.03 -0.24 -0.00 0.00 -0.00 0.76
************** END OF LATEST ANALYSIS RESULT **************
56. FINI
EXAMPLE FOR HARMONIC LOADING GENERATOR -- PAGE NO. 10
*********** END OF THE STAAD.Pro RUN ***********
**** DATE= JUL 4,2024 TIME= 11:21:13 ****
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