Factors Affecting Bond Strength of Masonry
| Author | : Portland Cement Association |
| Publisher | : |
| Total Pages | : 6 |
| Release | : 1994 |
| Genre | : Composite materials |
| ISBN | : |
Factors Affecting Bond Strength Of Masonry
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Factors Influencing the Flexural Bond Strength of Masonry
| Author | : Phil Evans |
| Publisher | : |
| Total Pages | : 55 |
| Release | : 1992 |
| Genre | : Flexure |
| ISBN | : 9781863421454 |
Effect of Mortar Properties on Strength of Masonry
| Author | : Cyrus Charles Fishburn |
| Publisher | : |
| Total Pages | : 56 |
| Release | : 1961 |
| Genre | : Masonry |
| ISBN | : |
The physical properties of mortars, the bond strength of the mortars to masonry units, and the structural strength of concrete masonry and composite masonry walls containing the mortars are discussed and compared. All of the mortars were tempered to as wet a consistency as could be conveniently handled by the mason. The compressive strength of the walls increased, in general, with the compressive strength of the mortar. The racking and flexural strengths of the walls increased with the bond strength of the mortar. The strength of bond test specimens tended to increase with the compressive strength of the wet consistency mortars that were used. However, bond strength appeared to be the dominant factor affecting the racking and flexural strength of the walls. Increase in both bond strength and wall strength with compressive strength of the mortar was not proportional to the relative compressive strengths of the type N and type S mortars. The stiffness of walls subjected to compressive and flexural loads increased with the bond and compressive strength of the mortars. However, the stiffness of walls subjected to flexural loads appeared to be more dependent upon the number of bed joints in the tensile face and on their extension in bond than upon the bending strains in the masonry materials.
The Influence of Some Factors on the Tensile Bond Strength of Masonry
| Author | : S. J. Lawrence |
| Publisher | : |
| Total Pages | : |
| Release | : 1994 |
| Genre | : Adhesion |
| ISBN | : |
The paper describes an investigation into the effect that sand type, mix proportions, brick suction and air entrainer have on tensile bond strength between cement mortars and clay bricks. The investigation was designed as a factorial experiment and uses the analysis of variance to exploit the power of this technique in identifying significant factors and interactions. The bond wrench was used to measure bond strength on nine replicates for each of six sands, five mixes and three bricks, making 90 different combinations and 810 individual bond measurements. The mix compositions include one with air entrainer added according to the manufacturer's instructions and one with air entrainer overdosed ten times. Results show that all the main factors are significant but that some unexpected interactions exist. In particular, one of the sands performed badly with one of the five mixes and yet none of the measured sand properties indicated any significant difference from the other sands. Strengths for the mixes where air entrainer was used confirm a reduction in strength for normal usage and a large drop in strength for overdosing.
Computational Methods and Experiments in Materials Characterization III
| Author | : C. A. Brebbia |
| Publisher | : WIT Press |
| Total Pages | : 465 |
| Release | : 2007 |
| Genre | : Technology & Engineering |
| ISBN | : 1845640802 |
Until recently, engineering materials could be characterized successfully using relatively simple testing procedures. As materials technology advances, interest is growing in materials possessing complex meso-, micro- and nano-structures, which to a large extent determine their physical properties and behaviour. The purposes of materials modelling are many: optimization, investigation of failure, simulation of production processes, to name but a few. Modelling and characterisation are closely intertwined, increasingly so as the complexity of the material increases. Characterisation, in essence, is the connection between the abstract material model and the real-world behaviour of the material in question. Characterisation of complex materials therefore may require a combination of experimental techniques and computation. This book publishes papers presented at the Third International Conference on Computational Methods and Experiments in Material Characterisation.Topics covered include: Composites; Ceramics; Alloys; Cements and Cement Based Materials; Biomaterials; Thin Films and Coatings; Advanced Materials; Imaging Analysis; Thermal Analysis; New Methods; Surface Chemistry, Nano Indentation; Continuum Methods; Particle Models; Damage Mechanics; Innovative Techniques; Stochastic Methods.
