Building Vibration Measurement with the VM40 Vibration Monitor

1. Building Vibration Measurementwith the VM40 Vibration Monitor Metra Mess- und Frequenztechnik in Radebeul e.K. www.MMF.de

2. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Why Measure Vibration in Buildings? Buildings and other large structures like tunnels or pipelines are exposed to vibration Buildings must sustain vibrations, structural integrity and bearing capacity of ceilings and other components has to be ensured Historic buildings require special attention (typical damages are cracks in walls or older cracks become wider) Vibrations may affect habitability and working conditions

3. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Sources of Building Vibration Examples: Construction Industrial machinery Road traffic Railway lines Explosions

4. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Purposes of Building Vibration Measurement Problem recognition: Occupants of a building report that a building is vibrating, measurements are carried out to evaluate the risk for structural integrity Control monitoring: Maximum permissible vibration values have been established and those vibrations have to be measured Documentation: Measurements are made to verify predictions of response in the design of a building Diagnosis: Measurements are made at deeper levels of investigation to provide information for mitigation procedures

5. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Catastrophic Failure • Collapse of Rana Plazacommercial building in Dhaka (Bangladesh) in 2013 • Vibrations due topower generators overloaded theBuilding structure • Vibrations and cracks were ignored • Death toll 1134

6. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Vibration Measurement Vibrations can be measured with sensors for displacement, velocity and acceleration Basis for evaluation is the peak value of vibration velocity [mm/s],also called “peak particle velocity” (PPV)

7. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Vibration Measurement • Piezoelectric accelerometers consist of • Piezoceramic or quartz sensing element • Seismic mass • Vibration acts vertically. The inertia of the seismic mass causes a force on the piezoelectric material which results in a electric signal.

8. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Parameters of Excitation Amplitude Frequency Duration Direction

9. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Guide Values Some standards, like DIN 4150-3, give reference values which are based on the experience of a large number of practical measurements At vibration amplitudes below these guide values damages are unlikely If results are above the guide values a deeper analysis should be made

10. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Types of Vibration Duration Both types may occur during a monitoring period. In such cases a separate evaluation of these intervals is recommended.

11. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de Standards for Building Vibration German DIN 4150-3 with various derivatives in other countries:Vibration in buildings - Part 3: Effects on structures British BS 7385:Evaluation and measurement for vibration in buildings. Guide to damage levels from ground borne vibration Swiss SN 640312a: Vibration immission in buildings ISO 4866: Mechanical vibration and shock - Vibration of fixed structures - Guidelines for the measurement of vibrations and evaluation of their effects on structures French Circulaire du 23/07/86

12. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Transient Vibrations (continued) Maximum values of the two horizontal vibration velocities at the upper floor level are measured and show the maximum response of the structure to horizontal ground vibration The higher value of the two is used for evaluation Relevant is the main frequency Y X

13. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Transient Vibrations (continued) Alternatively: Maximum values of the three vibration velocities at the foundation are measured The highest value of X/Y/Z is used for evaluation Relevant is the main frequency Z Y X

14. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Transient Vibrations (continued) Vertical (Z) vibration velocity can be measured in the middle of ceilings where the highest vibration values occur Below 20 mm/s peak vibration damage is not expected Z Z

15. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Transient Vibrations (continued) Guide values for vibration velocity vi for transient vibration

16. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Transient Vibrations (continued) Graphical representation of the guide values for transient vibration Industrial buildings Residential buildings Delicate / historical buildings

17. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Transient Vibrations (continued) Guide Values for Transient Vibrations in Other Structures: For massive structures like block foundations or abutments a guide value of 80 mm/s can be used Guide values for transient vibrations in tunnels and caverns Guide values for transient vibrations in underground pipelines

18. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Continuous Vibrations Relevant is the highest horizontal vibration velocity on the highest floor level Alternatively measurement points at the foundation can be used if the response characteristics of the upper floors are known Y X X Y

19. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Continuous Vibrations (continued) Guide values for vibration velocity vi for analyzing the effects of continuous vibration Notice: Above limits may be exceeded for short time when building machines are switched on and off. Such vibrations are evaluated as transient vibrations.

20. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Continuous Vibrations (continued) Guide values for continuous vibrations in underground pipelines

21. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Measuring Points The following advice is given in DIN 4150-3 for the placement of sensors: For foundation vibrations the transducer should be placed on the lowest floor at the foundation or on the outer wall. In the upper ceiling level the sensor should be placed inside or very close to the outer wall for horizontal vibration (X/Y). Vertical direction (Z) should be measured in the middle of ceilings where the highest amplitudes can be expected. The highest vertical vibrations do not always occur on the highest floor. For buildings without a basement the measurement location must not be higher than 0.5m above the ground level.

22. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Measuring Points (continued) The measurement location should predominantly be on the side of the building facing the excitation One of the lateral coordinates (X / Y) should be parallel to an outside edge of the building Buildings with larger ground areas should be measured at several points. When measuring pipelines, where possible, the sensor should be placed on the pipeline itself

23. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Measuring Report Contents of the measuring report: General: Institution, customer, customer ID, person in charge, time and date, duration of measurement, reason of measurement Type of excitation: - Description of vibration source (explosion, pile driving, traffic, machines)- Conditions, frequency of occurrence- Other sources of excitation (man-made vibration etc.) Location of vibration source including dimensioned drawing Measuring conditions: weather, type of ground, groundwater etc. Measuring object: - Address- Kind of building (residential, industrial, historical)- Description: type of construction, size, foundation, state of repair

24. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Measuring Report (continued) Measuring points:- Location and direction of sensors- Sensor mounting- Duration of measurement for each location- Serial numbers of sensors- Drawing with dimensions Measuring chain:- Transducer principle and model- Signal conditioners - Recording equipment- Last calibration- Tools for data analysis (equipment type, software) Recording Parameters- Frequency range, sample rate- Trigger limits

25. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de DIN 4150-3: Measuring Report (continued) Special observations (susceptibility, secondary effects like noise etc.) Measuring results- Measured vibration values and frequencies- Duration of immission and frequency of occurrence- Special influences Signature

26. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor Properties Stand-alone device including- High-sensitivity accelerometer- Signal conditioning- Recording- Cellular modem - Battery Triaxial measurement of- Vibration velocity- Vibration acceleration- Main frequency SMS alerts

27. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Operation Place the instrument on the measuring site. The optional Tripod Floor Plate VM40-BP can be used to place on uneven or soft surfaces.

28. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) • Preparing measurement • Press the ON/OFF button • Open the menu (F3 button)Device settings/Axis adjustmentand adjust the case so that thedot is in the center • Return to the main menu (F3)and select Measuring mode,choose DIN 4150-3 • Select the type of vibration: - Short time (transient)- Sustained (continuous) • Select the type of building:- Industrial building- Residential building- Listed building- Pipeline

29. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Select the location of measurement:- Foundation- Upper ceiling Select the frequency range:- 1 to 80 Hz (standard)- 1 to 315 Hz (for blasting)

30. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Measurement display Vibration values for X/Y/Z Main frequency and its direction Limit curve of the chosen standard and vibration spectrum Battery condition, Date and time

31. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Recording / Monitoring Open the menu and choose Recording,Start recording Select the recording mode:- At warning/alarm event: The VM40 only records a measurement if warning* level is reached or the limit curve is exceeded- Time-controlled: The VM40 records in given time intervals- Event and time control: The VM40 records at Warning or Alarm and additionally in time intervals * Warning level can be entered in percent of the alarm limit in Alarms/GSM menu

32. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Enter the recording interval in seconds Tip: Do not enter short time intervals to avoid large amounts of irrelevant data. The VM40 always keeps the maximum amplitude since the last saving so that no vibration data gets lost. Enter a name for the record

33. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) SMS notification Activate or skip SMS notification at vibration alarm events (SIM card must be inserted, only at the first time PIN needs to be entered) Enter the maximum number of SMS per day,the minimum time between two SMS andone or two receivers from the SIM card's phone book (see GSM/SMS menu) Activate or skip the key lock function (key lock is released by pressing all arrowbuttons simultaneously) The VM40B will start recording

34. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Viewing recorded data in the instrument Viewing recorded measurements inthe menu Recording / View/edit/delete files,the shown header data includes- Name of the recording- Start time and date- Standard and settings- Recording mode Choose a file (set of measurements)and then scroll between the measurements,each record is shown with- Running number- Time and Date of recording- X/Y/Z amplitudes and main frequency

35. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Transferring recorded data to a PC Connect the supplied USB cable and install the VM40 USB driver on the PC Install the free database software VM40-MDB Click Load data from VM40

36. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) The PC software imports header data of the recordings Click the check boxes of the recordings you like to load from the VM40

37. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Mark a recording and click Show In the Properties tab you see- Record name- Recording period- VM40 name and serial number- Used standard- Trigger mode– Number of saved measurements- Number of warnings and alarms- Maximum values for X/Y/Z Further description text can be entered

38. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Printing a Report Click Open protocol Several menu tabs need to be opened to fill in all necessary data for a DIN 4150-3 compliant report- Customer and person in charge - Details about the source of vibration- Description of the monitored structure- Information about the location and the measuring point- Environmental and other conditions- Measuring results to be included

39. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Example(pages 1/2)

40. Metra Mess- und Frequenztechnik Radebeul / Germany www.MMF.de VM40B Building Vibration Monitor (continued) Example(pages 3/4)