Add to ORKGTraditionally floors are designed for static strength and stiffness. Improved methods of construction and design, using high strength-lightweight materials, have resulted in strong and stiff floors that display unsatisfactory dynamic behaviour when exposed to walking loads. The paper discusses a method, partly based on recent work at Eindhoven University of Technology, to predict the dynamic response of floors subjected to walking forces. Several floor types were tested and analysed by this method. The results of these tests are presented and compared to floor vibration criteria that are based on ISO 2631
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
This thesis investigates the footfall excitation of higher modes of vibration in low-frequency floor...
Floor vibrations caused by people walking are an important serviceability problem both for human occ...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
The design of slender floor structures, as made in steel or composites, is often limited by the serv...
Disturbing walking-induced vibrations have been observed more frequently in recent times on long spa...
This thesis deals with methods for predictive calculations of the vibration response of low-frequenc...
Floor vibrations induced by humans walking barefoot were investigated in heavyweight buildings. Six ...
Lightweight floors are prone to high levels of vibration due to human activities. The Dutch building...
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
Floor vibration serviceability has become an area of interest over recent years. Lightweight electro...
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
This thesis investigates the footfall excitation of higher modes of vibration in low-frequency floor...
Floor vibrations caused by people walking are an important serviceability problem both for human occ...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
Traditionally floors are designed for static strength and stiffness. Improved methods of constructio...
The design of slender floor structures, as made in steel or composites, is often limited by the serv...
Disturbing walking-induced vibrations have been observed more frequently in recent times on long spa...
This thesis deals with methods for predictive calculations of the vibration response of low-frequenc...
Floor vibrations induced by humans walking barefoot were investigated in heavyweight buildings. Six ...
Lightweight floors are prone to high levels of vibration due to human activities. The Dutch building...
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
Floor vibration serviceability has become an area of interest over recent years. Lightweight electro...
This paper summarizes results from vibration tests on floors. Classification of floors into five hea...
This thesis investigates the footfall excitation of higher modes of vibration in low-frequency floor...
Floor vibrations caused by people walking are an important serviceability problem both for human occ...