GB/T 4451-1984
Abolished
GB/T 14124-2009
Replaced
National standards
GB/T 14124-2009 Mechanical vibration and shock—Vibration of buildings—Guidelines for the measurement of vibrations and evaluation of their effects on buildings
GB/T 14124-2009 Mechanical vibration and shock—Vibration of buildings—Guidelines for the measurement of vibrations and evaluation of their effects on buildings
Basic Information
Standard Code:
GB/T 14124-2009
Standard Type:
National standards
Standard Status:
Replaced
is_force_gb:
no
CCS Name:
Basic standards and general methods
ICS Name:
Vibration, impact, and vibration measurement
Publish Date:
2009-04-24
Implement Date:
2009-12-01
Pages:
32 pages
Scope
This standard specifies the basic principles for measuring and processing data necessary to evaluate the impact of vibration on buildings. Here, we are not concerned with the vibration source itself, but rather with its dynamic range, frequency, or other parameters. The evaluation of the impact of structural vibration primarily focuses on the response of the structure, and includes appropriate analysis methods to determine frequency, duration, and amplitude. This standard only applies to the measurement of structural vibration and does not consider sound pressure or other forms of pressure waves, but it does require considering the response to these excitations. Here, a building is defined as a structure on the ground that is inhabited. Certain specific structures such as columns, chimneys, derricks, and structures are not considered, although they are often frequented by workers. The structural response of a building is related to the excitation source. The ultimate purpose of establishing this standard is to test the measurement methods under the action of the vibration source (i.e., the frequency, duration, and amplitude of the excitation). The excitation sources of concern include earthquakes, explosions, wind pressure, acoustic shocks, internal machinery, traffic, and construction work. Note: Artificial excitation is very different from earthquakes. Earthquakes are more violent and last for a long time, and their effects on structures are much more profound. Earthquakes can cause damage over long distances, release much greater energy, and generate different forms of waves. Therefore, the same parameter values (such as the peak velocity of particles) have different impacts on buildings.
Development Information
Replace the following standards
Superseded by the following standards
Referenced Standards
GB/T 2423.5-1995 Environmental testing for electric and electronic products—Part 2:Test methods—Test Ea and guidance:Shock
GB/T 13441.2-2008 Mechanical vibration and shock—Evaluation of human exposure to whole-body vibration—Part 2:Vibration in buildings(1 Hz to 80 Hz)
GB/T 14412-2005 Mechanical vibration and shock—Mechanical mounting of accelerometers
ISO 2041:1990
ISO 4356:1977
Adopt standards
ISO 4866:1990
Related Standards
GB/T 6383-1986
Replaced
GB/T 6383-1986 The method of vibration cavitation erosion test
GB/T 7184-1987
Replaced
GB/T 7184-1987 Measurement method of vibration for small and medium power diesel engines
GB/T 7183-1987
Abolished
GB/T 7183-1987 Evaluation of mechanical vibration severity of machines and equipments in electric locomotives
GB/T 8540-1987
Replaced
GB/T 8540-1987 Vibration and shock—Isolators—Procedure for specifying characteristics
GB/T 10084-1988
Abolished