Influence of Constituent Materials Properties on the Compressive Strength of in Situ Concrete in Kenya

Okumu, Victoria; Shitote, Stanley Muse; Oyawa, Walter O.

doi:10.4236/ojce.2017.71004

Cited by 4 publications

(4 citation statements)

References 19 publications

(16 reference statements)

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“…Furthermore, the closely related concrete compressive strengths (13.5 MPa, 10.5 MPa and 14.5 MPa) observed in building sites 8, and 4 and 15 respectively, despite the different concrete mix ratios adopted, could be attributed to variations in the quality of the component materials used for the concrete productions. Okumu et al (2017) in their research observed that, poor quality materials (sand, gravel, etc.) largely affected the compressive strength of the in-situ concrete produced.…”

Section: Compressive Strengthmentioning

confidence: 98%

Assessment of Compressive Strength Variations of Concrete Poured in-Site of Residential Buildings in Isoko District, Delta State, Nigeria

Uguru

Akpokodje

Agbi

2022

Turkish Journal of Agricultural Engineering Research

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Concrete with appreciable compressive strength is required for building constructions, to minimize the occurrence of building failures. Determination of the compressive strength of in-situ concrete produced in Isoko region of Nigeria was carried in this study. Concrete used for the construction of foundation wall footings for twenty residential buildings were sampled in the study. The compressive strength of the in-situ concrete was determined in accordance with ASTM standards. Field survey depicted that most (60%) of the concrete quality production process fell below the approved standard of 17 MPa, for residential buildings. The findings of the study revealed that the compressive strength of the in-situ concrete varied between 8.1 MPa and 19.8 MPa. Furthermore, the result of the compressive strength test showed that most (70%) of the in-situ concrete failed to meet the NIS recommended standard. Also, it was observed from the findings that proportionally, the concrete produced by conventional building/construction engineers was of a higher compressive strength, when compared to the concrete produced solely by masons. Based on observations obtained result obtained from this study, it is recommended that the Government should constantly educate building sites managers, on the need to adhere strictly to standard recommendations, in order to improve the quality of in-situ concretes produced.

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Section: Compressive Strengthmentioning

confidence: 98%

Assessment of Compressive Strength Variations of Concrete Poured in-Site of Residential Buildings in Isoko District, Delta State, Nigeria

Uguru

Akpokodje

Agbi

2022

Turkish Journal of Agricultural Engineering Research

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“…Concrete has been used globally over several decades for the construction of civil engineering projects and continue to be the ultimate building material for infrastructural development [1]. Since its application in civil and structural works, it has demonstrated durability and strength over time lasting for several decades.…”

Section: Introductionmentioning

confidence: 99%

Assessing the Influence of Variations in Chemical Composition of Cement Brands in Ghana on their Setting and Workability of Concrete

Thomas,

Kankam,

Awine

2023

JERR

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The reliance on inferior on cement products for the construction of housing projects and other civil engineering infrastructural facilities has led to a number of building and other structural failures in Ghana over the years. The manufacturing of concrete utilized in the building of various structural member, such as columns, beams, slabs, footings and wall, was negatively impacted by the use of low-quality cements, rendering them unable to sustain any loads placed on them. Another observation made from the cement used was the inadequate proportioning of the chemical compounds during the manufacturing process which has negatively affected the setting of the concrete contributing to poor performance of structural elements in buildings and other infrastructural projects. In this research, the impacts of the variations in chemical constituents including SiO2, Al2O3, Fe2O3, Na2O, K2O, CaO, MgO, and SO3 in the different brands on setting times of cement and workability of fresh concrete were examined. The Vicat apparatus and the slump apparatus set-ups were used to measure the setting time and concrete workability respectively. It was found that the majority of the chemical compounds of the various cement brands evaluated in this research provided appreciable setting time as well as typical and acceptable consistencies. Most cement brands showed initial and final setting times between 30 and 271-306 minutes for cements in the 32.5R class. The initial and final setting times generated by the test were likewise observed to fall within 30 minutes and between 172-263 minutes, respectively, in the 42.5R class of cements, where a similar pattern was also observed. It was noted that for the same water-cement-ratio in all the concretes from the different brands of cement, good workability was obtained.

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“…However, there are differences regarding the types of additives and the quantities used in the blended cement types used in various countries and within the same country. Quality assurance of construction materials plays a significant role on structural integrity, serviceability, and durability of constructed infrastructures [4]. The properties of construction materials and compliance with design specification become the major factor responsible for premature failure of buildings in Kenya.…”

Section: Introductionmentioning

confidence: 99%

“…Previous studies had shown that none of the brands of the blended Portland cement achieved the target design strength for >C25 concrete. Okumu et al (2016) reports that none of the Kenya blended cement achieve the target design strength at 28 days of age and it continues to gain significant amount of compressive strength even beyond 90 days [12]. Yan Feng et al ( 2019) also reported a reduction on the compressive strength and strength development rate on blended cement mortar due to the effect of ultrafine granulated copper slag [6].…”

Section: Introductionmentioning

confidence: 99%

Use of Plant-Based Accelerator to Enhance Rate of Gain of Strength of Kenyan Blended Cement

Onjure,

Kabubo,

Okumu

2023

OJCE

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Influence of Constituent Materials Properties on the Compressive Strength of in Situ Concrete in Kenya

Cited by 4 publications

References 19 publications

Assessment of Compressive Strength Variations of Concrete Poured in-Site of Residential Buildings in Isoko District, Delta State, Nigeria

Assessment of Compressive Strength Variations of Concrete Poured in-Site of Residential Buildings in Isoko District, Delta State, Nigeria

Assessing the Influence of Variations in Chemical Composition of Cement Brands in Ghana on their Setting and Workability of Concrete

Use of Plant-Based Accelerator to Enhance Rate of Gain of Strength of Kenyan Blended Cement

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