Concrete with slump test

CONCRETE

CEMENT + AGGREGATES + WATER

ADVANTAGES

• STRONG IN COMPRESSION

• FIRE- RESISTANT

• ANY SHAPE, TEXTURE, FINISHES

• LOW IN COST

DISADVANTAGES

• WEIGHT – 150 PCF

• FORMING AND MOLDING

PORTLAND CEMENT

• Is a hydraulic cement made by burning a mixture of clay and limestone in a rotary kiln and pulverizing the resulting clinker into a very fine powder

TYPE 1 NORMAL PORTLAND CEMENT

• Used for general construction

TYPE II MODERATE PORTLAND CEMENT

• Used in general construction where resistance to moderate sulfate action is required or where heat buildup can be damaging, as in the construction of large piers and heavy retaining walls.

TYPE III HIGH-EARLY-STRENGTH PORTLAND CEMENT• Cures faster and gains strength earlier

than normal portland cement.

• Used when the early removal of formwork is desired.

• In cold-weather construction to reduce the time required for protection from low temperatures.

TYPE IV LOW-HEAT PORTLAND CEMENT

• Generates less heat of hydration than normal portland cement.

• Used in the construction of massive concrete structures, as in gravity dams, where a large buildup in heat can be damaging.

TYPE V SULFATE RESISTING PORTLAND CEMENT

• Used where resistance to severe sulfate action is required.

AIR-ENTRAINING PORTLAND CEMENT

• Is a Type I, Type II, or Type III portland cement to which a small quantity of an air-entraining agent has been interground during manufacture.

• Designated by the suffix A.

LIGHTWEIGHT CONCRETE

• STRUCTURAL LIGHTWEIGHT CONCRETE – made with expanded shale or slate aggregate, 85 to 115 pcf, compressive strength comparable to normal concrete

LIGHTWEIGHT CONCRETE

• STRUCTURAL LIGHTWEIGHT CONCRETE – made with expanded shale or slate aggregate, 85 to 115 pcf, compressive strength comparable to normal concrete

INSULATING CONCRETE

• Made with perlite aggregate or a foaming agent, has a unit weight of less than 60 pcf and low thermal conductivity.

• Free of organic material, clay, and salts.

• Fit for drinking

CEMENT PASTE

• Mixture of cement and water for coating, setting and binding the aggregate particles together in a concrete mix.

AGGREGATE

• Any of various inert mineral materials, as sand and gravel, added to cement paste to make concrete.

• Because aggregate represents from 60% to 80% of the concrete volume, its properties are important to the strength, weight, and fire-resistance of the hardened concrete.

PROPERTIES

• Hard

• Dimensionally stable

• Free of clay, silt and organic matter that can prevent the cement matrix from binding the particles together.

FINE AGGREGATE

• Consists of sand having a particle size smaller than ¼” (6mm).

• COARSE AGGREGATE

• Consists of crushed stone, gravel or blast-furnace slag having a particle size larger than ¼”.

MAXIMUM SIZE OF COARSE AGGREGATE

1/3 depth of slab.

1/5 the thickness of the wall.

¾ of the clear space between reinforcing bars or between the bars and the formwork.

ADMIXTURES

• AIR-ENTRAINING AGENTS – disperse microscopic, spherical air bubbles in a concrete mix to increase workability, improve resistance of the cured product to cracking, and in larger amounts, to produce lightweight insulating concrete.

• ACCELERATORS hasten the strength and setting development of a concrete mix

• RETARDERS slow the setting of a concrete mix to allow more time for placing and working the mix.

• SURFACE-ACTIVE AGENTS, OR SURFACTANTS reduce the surface tension of the mixing water thereby facilitating the wetting and penetrating action of the water or aiding in the emulsifying and dispersion of other additives in the mix.

• WATER-REDUCING AGENTS OR SUPERPLASTICIZERS reduce the amount of mixing water required for the desired workability of a concrete or mortar mix. Lowering the water-cement ratio in this manner generally results in increased strength.

• COLORING AGENTS are pigments or dyes added to concrete mix to alter or control its color.

WATER-CEMENT RATIO

• Ratio of mixing water to cement, expressed as gallons of water per sack of cement.

• 0.45 to 0.60

SLUMP TEST

Method for determining the consistency and workability of freshly mixed concrete by measuring the slump of a test specimen, expressed as the vertical settling, in inches, of a specimen after it has been placed in a slump cone, tamped in a prescribe manner, and the cone is lifted.

COMPRESSION TEST

• Used for determining the compressive strength of a concrete batch uses a hydraulic press to measure the maximum load a test cylinder 6”dia. and 12” high can support in axial compression before fracturing.

Concrete with slump test

Education

Concrete Slump Test

5 Concrete Placement - IN.gov Concrete Placement Testing Entrained Air Slump Strength Water/Cementitious Ratio Mixing Placing Concrete Compressive Test Specimens Curing

Test Report of Basalt Fiber Reinforced Concrete and ...basalt.today/images/FUBV_Test_Report.pdf · Test Report of Basalt Fiber ... Fresh concrete slump test. The compressive strength,

Self-Consolidating Concrete—Applications for Slip-Form ... · PDF fileSelf-Consolidating Concrete— Applications for ... materials science, construction ... Slump cone test results

Concrete Basics – Slump Test · TE C H N I C A L S P E C I F I C A T I O NS . Concrete Basics – Slump Test . CSA A23.2 - 5C. A small variation in slump caused by improper procedure

Research Article Estimating Concrete Workability Based on ...downloads.hindawi.com/archive/2016/5089683.pdf · Research Article Estimating Concrete Workability Based on Slump Test

MIXERS FOR QUALITY CONCRETE IN ALL SLUMP … · MIXERS FOR QUALITY CONCRETE IN ALL SLUMP ... TRUCK MIXER TRUCK-MOUNTED CONCRETE ... Stetter pan mixers guarantee production of quality

SLUMP TEST Slump Test - rockcrete.co.zarockcrete.co.za/images/PDF-Guides/SLUMP-TEST-2017A.pdf · SLUMP TEST Page 5 Method 1. After batching is completed, a sample is taken. 2. Flow

IS 7320 (1974): Specification for concrete slump test ... · IS I 7320 -1974 Indian Standard SPECIFICATION FOR CONCRETE SLUMP TEST APPARATUS Cement and Concrete Sectional Committee,

Concrete Basics – Slump Test - Home - Concrete Ontario · Concrete Basics – Slump Test . CSA A23.2 - 5C. A small variation in slump caused by improper procedure or equipment,may

Estimation of Desired Properties of Self Curing Concrete …ijetmas.com/admin/resources/project/paper/f201704251493108294.pdf · The concrete slump test is an empirical test that

Properties and Applications ofFiber Reinforced Concrete · 2017-11-06 · The conventional slump test (ASTM CI43-78)and the inverted slump cone test (ASTM C995-83)were conducted to

ECONOMIC ENHANCEMENT THROUGH INFRASTRUCTURE … · 2020-03-19 · • While the Slump Test does not providea consistent measuring tool for low slump concrete, the Box test can be

Evaluation of High-Slump Concrete · Evaluation of High-Slump Concrete For Bridge Construction Report, ... Tensile Strength Test Data ... The conclusion of HR-192 was that this effort

MISCELLM4EOUS PAPGR COMPACTION STUDY ZERO-SLUMP CONCRETE · trucks to the test site, a distance of about I mile. Placement of ,orncrete 6. Although zero-slump concrete can be placed

code for slump test

CVEN 3400 – Structural Testing Laboratory Lab 5: Slump ... 3400 – Structural Testing Laboratory Lab 5: Slump Test Laboratory Lab Report (everything here will be in the Concrete

CVEN 3400 – Structural Testing Laboratory Lab 4: Concrete ... · 2) Did the concrete pass the slump test once the mix was altered? Why or why not? 3) If the concrete does not slump,

Tests on fresh concrete SLUMP TEST VEE BEE TEST COMPACTION FACTOR TEST

Experimental Investigation of Properties of Concrete ... · ASTM C143/C143M [31] Standard test method for slump of hydraulic-cement concrete Ultrasonic Pulse Velocity (UPV) test ASTM