Rocking analysis of masonry walls interacting with roofs

Giresini, Linda; Fragiacomo, Massimo; Sassu, Mauro

doi:10.1016/j.engstruct.2016.02.041

Cited by 48 publications

(34 citation statements)

References 16 publications

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“…A mass placed at the top of the block could simulate a roof mass, whose effect is one of changing the centroid of the composed system block + mass (Figure 1b). Thus, the inertia moment accordingly changes, with multiple values of radius and slenderness, but the equation of motion is basically the same as that of Housner's model (see Section 3) [17].…”

Section: Geometry Influence and The Formulation Of Energy Dissipationmentioning

confidence: 83%

“…Due to the eccentricity of the roof mass, the radius vector changes depending on the rotation sign, R r.cw for clockwise and R r.cc for counterclockwise rotations, respectively ( Figure 2, [17]). However, for slender blocks, the difference between R r.cw and R r.cc is negligible, and the radius vector can be assumed as the double of the radius vector R.…”

Section: Restrained Rocking Blocksmentioning

confidence: 99%

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Rocking and Kinematic Approaches for Rigid Block Analysis of Masonry Walls: State of the Art and Recent Developments

2017

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Abstract:The assessment of the rocking and overturning response of rigid blocks to earthquakes is a complex task, due to its high sensitivity to the input motion, variations in geometry and dissipation issues. This paper presents a literature review dealing with classical and advanced approaches on rocking motion with particular reference to masonry walls characterized by a monolithic behavior. Firstly, the pioneering work of Housner based on the concept of the inverted pendulum is discussed in terms of the most significant parameters, i.e., the size and slenderness of the blocks, the coefficient of restitution and ground motion properties. Free and restrained rocking blocks are considered. Then, static force-based approaches and performance-based techniques, mostly based on limit analysis theory, are presented to highlight the importance of investigating the evolution of the rocking mechanisms by means of pushover curves characterized by negative stiffness. From a dynamic perspective, a review of probabilistic approaches is also presented, evaluating the cumulative probability of exceedance of any response level by considering different earthquake time histories. Some recent simplified approaches based on the critical rocking response and the worst-case scenario are illustrated, as well.

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Section: Geometry Influence and The Formulation Of Energy Dissipationmentioning

confidence: 83%

Section: Restrained Rocking Blocksmentioning

confidence: 99%

Rocking and Kinematic Approaches for Rigid Block Analysis of Masonry Walls: State of the Art and Recent Developments

2017

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“…Moreover, the response of a rocking block is extremely sensitive to boundary conditions, very relevant for masonry panels. In that sense, some methods were recently proposed to consider the interaction with transverse walls [10], roofs [11], or vertical restrainers [12].…”

Section: Introductionmentioning

confidence: 99%

Rocking Resonance Conditions of Large and Slender Rigid Blocks Under the Intense Phase of an Earthquake

Casapulla¹,

Maione²

2017

Proceedings of the 6th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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“…Recent investigations on the behaviour of walls made using interlocking stabilized compressed earth blocks (ISCEBs) (Laursen et al, 2015;Qu et al, 2015 a,b) and the role of the compaction force (Bruno et al, 2017) have been carried out; in particular, the adoption of interlocking dry-stack blocks (Sturm et al, 2015) can simplify the execution phases. When this type of building exhibits box-type behaviour, the role of the out-of-plane behaviour must be evaluated in the seismic context (Qu et al, 2015 a,b;Andreini et al, 2013) or with regard to rocking phenomena in masonry walls (Giresini & Sassu, 2017;Giresini et al, 2016). Indeed, earth block walls behave as rigid blocks that can rotate in the case of dynamic actions.…”

Section: Introductionmentioning

confidence: 99%

Production procedures and mechanical behaviour of interlocking stabilized compressed earth blocks (ISCEBs) manufactured using float ram 1.0 press

Sassu¹,

Romanazzi²,

Giresini³

et al. 2018

10.5267/j.esm

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This paper illustrates an innovative manufacturing procedure for producing handcrafted interlocking stabilized compressed earth blocks (ISCEBs). A comparison of the mechanical properties of ISCEBs is conducted to assess the influence of varying components. The ISCEBs are manufactured by employing different block densities with three distinct mixtures (earth, earth and lime, earth and straw) and by using a human-powered machine named Float RAM 1.0 Press. The manual press was conceived for regions with limited access to technology and allows the production of interlocking blocks via two modes of compaction: mono-directional and bi-directional. A production average of approximately 30 blocks/hour corresponding to the work of three people is achieved. Three-point bending tests and uniaxial compression tests are carried out to investigate the ISCEB mechanical behaviour. The improvements obtained by incorporating additives into the subset of ISCEBs made from a pure earth mixture are tested. The aim of this work is to identify, for this specific technology, the relationship between production parameters and the consequent behaviour of different stabilization methods. A correlation is found between the compaction force and the compression strength of ISCEBs. The addition of lime increases strength and causes the blocks to exhibit a brittle behaviour. Moreover, the incorporation of straw fibres improves the tensile strength and ductility without significantly affecting the compression strength of the blocks. Energy-based parameters are obtained for all the tests, allowing the assessment of the ISCEB mechanical and dissipation properties.

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Rocking analysis of masonry walls interacting with roofs

Cited by 48 publications

References 16 publications

Rocking and Kinematic Approaches for Rigid Block Analysis of Masonry Walls: State of the Art and Recent Developments

Rocking and Kinematic Approaches for Rigid Block Analysis of Masonry Walls: State of the Art and Recent Developments

Rocking Resonance Conditions of Large and Slender Rigid Blocks Under the Intense Phase of an Earthquake

Production procedures and mechanical behaviour of interlocking stabilized compressed earth blocks (ISCEBs) manufactured using float ram 1.0 press

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