Subsequently, the effect of partial replacement of cement with the blend of marble and granite waste powder (MGWP) at various increments of 5%, ranging from 0% to 30%, was evaluated by subjecting ...
Marble powder that can be used with adding any type of admixture in concrete, so that the strength will be increased in harden concrete. The Use of marble dust particle's (MDP) by weight of cement has replaced to variations parentage in concrete as 15%, 20%, and 25% and additional industrial waste steel fibers is also added with …
The purpose of this study is to examine the effects of partially replacing cement with a blend of marble waste powder (MWP) and granite waste powder (GWP) in mortar, with the goal of reducing the environmental harm caused by cement. The investigation included an analysis of the distinctive properties of the two waste powders …
The main objective of this research is to investigate the partial replacement of cement with marble dust powder in C-25 concrete production with marble found in Benishangul Gumuz. To check …
The present work is directed towards developing a better understanding on strengths characteristics of concrete using marble dust powder as a partial replacement of cement. The Dissertation work is carried out with M30 grade concrete for which the marble powder is replaced by 0%, 5%, 10%, 15%, 20% by weight of cement.
Partial replacement of cement by varying percentage of marble dust Powder powder reveals that increased waste marble dust powder ratio result in increased workability and compressive strengths of the concrete Marble Dust Powder is settled by sedimentation and then dumped away, which results in environmental contamination, in addition to forming ...
In this study, use of glass powder and marble powder as partial replacement of cement in various proportions (5%, 10%, and 15% by weight) in manufacturing of non-load bearing hollow concrete ...
Compressive strength of concrete made with marble dust powder is increased by 11.9% at 13% replacement level after 28 days of age when compared with …
REFERENCE: 1) RS.Bansal "An partial replacement of cement by marble powder in concrete" ISSN -3777 8 mar,2016 .P.Bhuvaneshwari An partial 7 replacement of cement by with waste marble 6 powder in concrete""" ISSN: 0-8163 Apr. 5 2015 4 2) Ranjan kumar partial replacement of cement 3 2 by with marble Dust powder in concrete" 1 ISSN ...
Advantages of using marble powder as a partial replacement as cement in concrete. ... The results indicate that marble powder could replace cement and have more quality compared to normal concrete, increasing compressive strength by 30%. 2. For concrete, its tensile strength increases up to 20% substitution, and for 30% substitution, …
Ghani, A., Ali, Z., Khan, F.A. et al. Experimental study on the behavior of waste marble powder as partial replacement of sand in concrete. SN Appl. Sci. 2, …
Feasibility and need of use of waste marble powder in concrete production. IOSR Journal of Mechanical and Civil Engineering, 6(1), 23–26. MathSciNet Google Scholar Pattapu, S. S., & Lal. N. V. S. (n.d.) A Study On Mechanical Properties Of Ssc With Partial Replacement Of Cement With Lime And Marble Powder.
Partial replacement of cement with marble waste powder in ECC will make concrete eco-friendly. Using local sand instead of microsilica sand for the production of ECC is a step towards affordable ECC product. Mechanical property assessment of ECC made with the increased percentage of MWP is necessary before its practical implementation.
Study on Marble Powder as Partial Replacement of Cement in Concrete . Gopi R . M. E (Structural Engineering) Department of Civil Engineering Oxford Engineering College, …
Kırgız et al. (2016) worked on the partial replacement of cement and fine aggregates by WB and marble powder respectively, in concrete(Kırgız 2016b). SEM monitoring for hydration growth of cement paste, rheology for fresh state of concrete, measured strength gains and the mechanical properties of 7, 14, 28 and 90 days showed …
Pathan and Pathan reported that the slump of concrete mix reduces by the replacement of cement waste marble powder up to 20% but the slump is enhanced by the replacement of sand with the same percentage of waste marble powder. Replacement of 5% cement by WMP gives considerable strength but it reduces with the increase in …
The combined effect of marble waste powder and ceramic waste powder as a partial replacement of cement is observed and analyzed. Twenty-one cement pastes for chemical shrinkage test, 60 cube samples for compressive strength test, 60-cylinder samples for splitting tensile strength test, and 21 beam members for flexural strength test …
Fine aggregates were replaced by 0%, 10%, 20%, and 30% marble powder by weight. M20 grade concrete was designed with water:cement ratio of 0.5. Strength increased for up to 20% replacement of coarse and fine aggregates. Dar et al. [3] prepared concrete by replacing fine aggregate with 10%, 15%,20% and 25 % of waste marble …
Currently, the costs of building materials, especially cement, are increasing. Waste marble powder (WMP) could be used as a cement replacement material to produce environmentally friendly concrete to help preserve resources and reduce environmental pollution. The study's goals are (1) to evaluate the effects of using marble …
The use of marble waste as a partial cement replacement has been investigated aiming at the production of alternative building materials, such as concretes, ... Erguen A (2011) Effects of the usage of diatomite and waste marble powder as partial replacement of cement on the mechanical properties of concrete. Constr Build Mater …
Based on the data, a mix design for M30 grade concrete is made and the replacement of cement with marble powder by 0%, 5%, 10%, 15%, 20% and 25% is considered. The proportions of the basic constituents of concrete for all the six mix ratios are presented
Partial replacement of cement by varying percentage of marble powder reveals that increased waste marble powder (WMP) ratio result in increased strengths of the mortar and concrete .Leaving the waste materials to the environment directly can cause environmental problem. Hence the result, The Compressive strength of Concrete are …
Any concrete portion can be partially replaced with marble waste (cement). Human health and the atmosphere are also harmed by industrial waste (marble powder waste). When …
For conventional concrete, Ranjan Kumar and Kumar (2015), Raghunath et al. (2019), Vaidevi (2013), and Majeed et al. (2021) concluded that 10% replacement of cement with marble dust powder (MDP ...
Effects of marble powder as a partial replacement of cement on some engineering properties of self-compacting concrete. Aboubakeur Boukhelkhal., Lakhdar Azzouz., …
The laboratory-based investigation for the partial replacement of cement with marble powder in HCB production was conducted. Tests on the suitability of materials used and their performance in terms of known engineering properties were carried out. The focus was the partial replacement of cement with marble powder in the order of, 0%(Control),
Utilization of waste marble powder as partial replacement of cement in engineered cementitious composite. Ezaz Ali Khan., Sajjad Wali Khan., Akhtar Gul., Hany M. Seif …
The effect of marble powder as a partial replacement for cement on the mechanical properties and toughness of high-performance concrete was examined by Talah A. et al. It was found, when compared to the reference concrete, that marble powder is a good additive for the manufacturing of concrete with improved mechanical …
flexural strengths. Partial replacement of cement by varying percentage of marble powder reveals that increased waste marble powder (WMP) ratio result in increased strengths of the mortar and ...
In this study, marble powder and exfoliated vermiculite are used as a partial replacement material for cement and fine aggregate, respectively. Marble powder is a waste product produced from the marble industry and can be utilized as a filler material in cement, whereas vermiculite is a lightweight materials with high imperviousness to fire ...