Mortar mixes with oxblood: historical background,  model sample recipes and properties

Zhang, Kun; Rampazzi, Laura; Riccardi, María Pia; Sansonetti, Antonio; Grimoldi, Alberto

doi:10.5194/adgeo-45-19-2018

Cited by 8 publications

(7 citation statements)

References 3 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD) and thermogravimetry (TGA) analysis results suggested that all amino acids displayed the ability of calcite inhibition and amorphous calcium carbonate (ACC) facilitation, but to different degrees. It is intriguing to note that the effect revealed by a single amino acid can be similar to that of whole proteins, since in our previous studies on lime-based mortars with oxblood addition, the formation of ACC in mortars with oxblood addition was also confirmed by FTIR, XRD, TG-DSC and SEM analyses [12,51,52]. It was speculated in these previous studies that ACC stabilization could be realized through lowered supersaturation in solution by combination between calcium ions and protein sections rich in glutamic acid, serine, glycine, and carbohydrates.…”

Section: Discussionmentioning

confidence: 82%

Influence of polar amino acids on the carbonation of lime mortars

Zhang

Liu

et al. 2022

Herit Sci

View full text Add to dashboard Cite

The addition of protein-based additives (e.g. milk, egg white, animal blood) into lime mortars can improve mortar properties such as workability, strengths and durability. With the intent to understand how and why proteinaceous additives improve lime mortar properties, it could be useful to start from the basic building blocks of proteins amino acids. Consequently, the present study focuses on the influence of polar amino acids on the carbonation of lime mortars, and the results demonstrated that addition of amino acids into mortars could slow down mortar drying, increase surface hardness, slow down carbonation, promote amorphous calcium carbonate stabilization and inhibit calcite formation; moreover, these effects seemed to become more evident with the increase of amino acid concentration. It was speculated that in highly alkaline lime mortars, polar amino acids could lime carbonation by interacting with calcium carbonate via H-bonds and additional Ca2+ mediated adsorption.

show abstract

Section: Discussionmentioning

confidence: 82%

Influence of polar amino acids on the carbonation of lime mortars

Zhang

Liu

et al. 2022

Herit Sci

View full text Add to dashboard Cite

show abstract

“…40 Similar results are observed in Khouzani et al., 58 where the band at 713 cm −1 appears after the DSC measurement with a final temperature of 400 °C. According to the SEM images in Zhang et al., 4 rhombohedral calcite particles can be clearly distinguished in specimen B; while in specimens A, C, and D the CaCO 3 particles appear to be rounded, which could further indicate the presence of amorphous calcium carbonate in these specimens.…”

Section: Discussionmentioning

confidence: 90%

“…By an historical point of view, for instance, the addition of blood in mortars was described by Rutilius Palladius in Opus Agriculturae at around the fourth to fifth century A.D., 3 as hot and cold maltha for baths. Geographically speaking, animal blood was applied in mortars in many parts of the world, such as in Europe and Asia, 4 as well as in the American continents. 5…”

Section: Introductionmentioning

confidence: 99%

“…23 This recipe not only accounts precise amounts of each ingredient, but it is also connected with other similar historic recipes from the 18th- to 20th-century literature, as recently surveyed in a multidisciplinary research. 4 Analysis results of the specimens prepared according to such historic recipe could help us to have a better understanding on the possible characteristics of lime mortars with blood addition, and furthermore contribute to the characterization of historic mortar samples with organic additions. In order to accomplish these goals, apart from the FT-IR analyses, the research plan also comprised thermal analysis (TGA), color measurement, and static contact angle test, to investigate the possible effects of oxblood addition on thermal decomposition, color change, as well as water repellency properties of mortars.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Application of Different Fourier Transform Infrared (FT-IR) Methods in the Characterization of Lime-Based Mortars with Oxblood

et al. 2018

Self Cite

View full text Add to dashboard Cite

Organic compounds have frequently been added into lime mortars for property modifications, in order to satisfy various functional needs in building techniques. This study applies Fourier transform infrared (FT-IR) spectroscopy in transmission, reflection, and attenuated total reflection (ATR) modes to characterize lime-based mortar specimens containing oxblood, which has been used as additive as a common practice of long history in many parts of the world. The specimens were prepared basing upon a 19th-century Italian historic recipe, with the intention to have a better understanding on the possible characteristics of such mortars. Thermal analysis, color measurement, and static contact angle test were also used. After curing, the specimens show a distinctive dark-red color on the top surface, which is different from the bulk. Color measurements on the surface suggest that this color was formed at an early stage and was able to maintain stable for a relatively long period of time. Both transmission and reflection FT-IR confirm the preferential accumulation of proteins on the top surface, which should have induced their water repellency according to the static contact angle test. In addition, specimens show weaker calcite bands in FT-IR transmission, reflection, as well as ATR spectra; the pattern of ATR spectra after the thermal analysis to 500 °C suggests the formation of amorphous calcium carbonate, which is related to the presence of oxblood.

show abstract

“…Jasiczak and Zieliński [16] conducted tests of the effect of protein additives, such as chicken and bovine blood (red cells) on the properties of cement mortar. In a similar vein, Fang et al [17] and Zhang et al [18] had recently brought up a topic of properties of traditional Chinese lime mortars with oxblood as an ingredient, which showed that lime mortars with oxblood exhibited better bonding strength and weather resistance (including waterproof quality) than regular lime mortar. The research conducted by Zhao et al [19] showed that pig blood had a similar beneficial effect on properties, such as early strength.Modifications of mortar with fibers constitute a separate research group.…”

mentioning

confidence: 96%

Assessment of the Impact of Inaccuracy and Variability of Material and Selected Technological Factors on Physical and Mechanical Properties of Fresh Masonry Mortars and Plasters

et al. 2020

View full text Add to dashboard Cite

The article presented the analysis of the impact that various kinds of technological inaccuracies have on the properties of fresh masonry mortars and plasters. Analyzed were the inaccuracies in dosing of mortar components, namely, water, lime, and air-entraining plasticizing admixture (APA) (±10% of mass), and the effect of variable technological conditions, namely, different mixing intensity (fast, slow, normal) and temperature (5 • C, 20 • C, and 35 • C) during first 72 h after mixing. The impact of differences in the properties of cement and aerial (hydrated) lime originating from different manufacturers was also analyzed. The impact of these factors was determined for consistency, density, air content, compressive, and flexural strength. The sensitivity to changes in the analyzed properties was determined by the coefficient of variation. Changes in the dosing of constituents, mixing speed, and temperature adversely affected strength properties. For mortars with APA, these changes exceeded 20% and reached 40%. The greatest impact was evident in the consistency, especially with an excess of APA, where changes ranged from 6% to 80%. The results showed greater resistance of cement-lime mortars to changing selected technological conditions and errors in measuring the amount of ingredients than mortars with air-entraining plasticizing admixture (APA). Materials 2020, 13, 1382 2 of 29 using waste materials, e.g., concrete waste [5], glass waste [6], brick flour [7], granite flour [8], marble powder [9], and others. A significant part of the research is devoted to modifying mortars with various additives to improve their properties while partially replacing fillers and binders with waste materials.For example, Harbi et al.[10] carried out the experimental work focused on the study of the possibility of using kaolin dust as filler in the sand, combined with additions of glass powder, brick waste, and metakaolin in order to improve the mechanical performance of the mortar. Mixtures containing glass powder and/or metakaolin turned out to be better than those containing brick waste. Similar research was carried out by Boukour and Benmalek [11], who analyzed the effect of two wastes: crushed clay brick and tire rubber aggregate in cement mortar reinforced by a resinous latex. Test results indicated a decrease in water absorption and shrinkage of such cement mortar.Atypical addition to mortar, which has been a subject of research, is recycled polyethylene terephthalate (PET) bottles [12]. Test results of this experiment have indicated that higher compressive and flexural strength can be obtained for thusly modified cement mortars. Other atypical additions to the mortar that have been researched are organic agents as vinegar, gram pulse, and frog contaminated water and their influence on mechanical properties and mortar's performance [13]. It has been concluded that organic materials chosen for the study adversely affect the compressive strength of cement mortars, especially after six months.Research has also been carried o...

show abstract

Mortar mixes with oxblood: historical background, model sample recipes and properties

Cited by 8 publications

References 3 publications

Influence of polar amino acids on the carbonation of lime mortars

Influence of polar amino acids on the carbonation of lime mortars

Application of Different Fourier Transform Infrared (FT-IR) Methods in the Characterization of Lime-Based Mortars with Oxblood

Assessment of the Impact of Inaccuracy and Variability of Material and Selected Technological Factors on Physical and Mechanical Properties of Fresh Masonry Mortars and Plasters

Contact Info

Product

Resources

About