PDF Experimental Investigation of Steel Waste Generated From

Table 6: Flexural strength test result for m25 mix Graph 3: Flexural strength test 28 days V. CONCLUSION Based on this experimental investigation the behavior of steel lathe waste and concrete was concluded below In terms of strength, it can be used for construction of structures subjected to seismic loading, impact loading,

Experimental investigation on mechanical properties of high

22 May In this study, prepared concrete subjected to compressive strength test, split tensile strength test, flexural strength test was conducted by 

Experimental investigation of recycled aggregate effect on

The purpose of this paper is to conduct a laboratory investigation on measuring the tensile strength of recycled concrete using a double punch test. Furthermore, one of the main goals of this study is to compare the tensile and compressive strengths of recycled concrete samples.,Recycled concrete samples were made with variables such as aggregate type (natural stone and aggregate recycled

Experimental investigation of full-scale concrete columns

The use of high-strength longitudinal and transverse reinforcements in confined concrete columns can improve bearing capacity and deformability. Besides, experiments on confined concrete columns with side length of 400 mm can better reflect the behaviour of confined concrete columns in engineering project. Thus, the purpose of this study is to investigate the seismic behaviour of full-scale

Experimental Investigation of Utilizing Steel Fiber as

Karthik Kondajji, experimental investigation of concrete breakout strength of anchor in tension within fiber reinforced concrete, 2019. [4] Nancy Varughese, Flexural Behavior of Preflex SFRC-Encased Steel Joist Composite Beams. 2020.

EXPERIMENTAL INVESTIGATIONS ON STRENGTH

This report presents a laboratory investigation on the strength characteristics of steel fibre reinforced concrete. Tests were conducted by adding Ground Granulated Blast furnace Slag (GGBS) and steel fibres to concrete in an amount equiva- lent to approximately 0%, 20%, 40%, 60% and 80% to the weight of cement content and that for steel fibres

PDF Experimental Investigation of Strength and Durability of

Experimental Investigation of Strength and Durability of Concrete by Partial Replacement of Cement with Glass Powder and Fine Aggregate with Copper Slag Pavan B Kamble1, Prof.V.G. Patwari2 1M.Tech student, civil Engineering Department, M.S. Bidve Engineering college Latur, Affiliated to Dr. Babasaheb

Experimental Investigation of the Optimal Design of the

Second, the relationship between water reducing agent and concrete strength was investigated, and then the optimal dosage of admixture was determined. The experimental results show that the prepared ultrahigh early strength concrete can obtain the high strength in the early time, which is beneficial for the practical application.

CiteSeerX — Experimental Investigation of Strength

CiteSeerX - Document Details (Isaac Councill, Lee Giles, Pradeep Teregowda): From the previous investigation it has been understood that many engineering properties of the normal concrete can be improved by incorporating agro industrial sites. The present experimental studies are carried out to understand the fresh properties (workability) & hardened properties (compressive strength and

An Experimental Investigation on Strength and Durability

An Experimental Investigation on Strength and Durability Characteristics of Concrete Using Polyethylene Glycol as Self-Curing Agent 1Srivathsa H U, The above graph shows that the split tensile strength of concrete with 1.5%PEG by weight of cement is 1.14 times than compared to that of normal concrete after 28days of curing.

experimental investigation of concrete breakout strength of anchor in

10 May High strength anchors (F1554 G105) is used in this study for varying steel fiber dosage of 0.0%, 0.5% and 1.0% by volume fraction of concrete.

EXPERIMENTAL INVESTIGATION ON STRENGTH

EXPERIMENTAL INVESTIGATION ON STRENGTH CHARACTERISTICS OF CONCRETE USING TYRE RUBBER AS AGGREGATES IN CONCRETE NEELA DESHPANDE1, S. S. KULKARNI2, TEJASWINEE PAWAR3 & VIJAY GUNDE4 1Assistant Professor, Vishawakarma Institute of Information Technology, Pune, Maharashtra, India

Experimental Investigation of Biaxial and ...

Title: Experimental Investigation of Biaxial and Triaxial Compressive Concrete Strength. Author(s): Wang Chuan-Zhi, Guo Zhen-Hai, Guo Zhen-Hai, and Zhang Xiu-Qin. Publication: Materials Journal. Volume: 84. Issue: 2. Appears on pages(s): 92-100

An Experimental Investigation on Strength Properties of

compressive strength of concrete is examined. In this experimental study, total seven concrete mixes have been investigated. One is control concrete (0%), and other seven concrete mixes, Ordinary Portland Cement has been partially replaced by 10%, 20%, 30%, 40%, 50%, 60% and 70% GGBS by

Experimental and statistical investigation of the compressive

This paper offers a new and closer look into the strength anisotropy of concrete by presenting the so far largest experimental programme (290 tests) and by 

Investigation on Using Industrial By-Products in Concrete

Compressive strength of concrete decreases while replacing river sand with G.B.S 50% and with 100%, but the increase in replacement of cement with G.G.B.S increases the compressive strength of concrete, notably with 50% replacement shows better results than conventional concrete.