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Properties of Concrete - Memphis

CIVL 1101 Introduction to Concrete 1/10. Properties of Concrete Properties of Concrete Concrete is an artificial conglomerate stone made While cement in one form or another has been around for essentially of Portland cement, water, and aggregates. centuries, the type we use was invented in 1824 in Britain. It was named Portland cement because it looked like the stone q quarried on the Isle of Portland. Properties of Concrete Properties of Concrete Joseph Aspdin (1779-1835) Portland cement is produced by mixing ground limestone, patented the clay and limestone clay or shale, sand and iron ore. cement known as Portland cement in 1824. This mixture is heated in a rotary kiln to temperatures as Joseph's son, William Aspdin's kiln used d tto make k the th fi firstt genuine i high as 1,600.

Concrete compressive strength depends upon many factors: quality and proportions of the ingredients the curing environment. Stress–Strain Diagram 12 4 8 Strain Concrete Material Properties Most structural concrete have f’c values in the 3,000 to 5,000 psi range. High-rise buildings sometimes utilize concrete of 12,000 or 15,000 psi

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Transcription of Properties of Concrete - Memphis

1 CIVL 1101 Introduction to Concrete 1/10. Properties of Concrete Properties of Concrete Concrete is an artificial conglomerate stone made While cement in one form or another has been around for essentially of Portland cement, water, and aggregates. centuries, the type we use was invented in 1824 in Britain. It was named Portland cement because it looked like the stone q quarried on the Isle of Portland. Properties of Concrete Properties of Concrete Joseph Aspdin (1779-1835) Portland cement is produced by mixing ground limestone, patented the clay and limestone clay or shale, sand and iron ore. cement known as Portland cement in 1824. This mixture is heated in a rotary kiln to temperatures as Joseph's son, William Aspdin's kiln used d tto make k the th fi firstt genuine i high as 1,600.

2 1 600 degrees Celsius Celsius. Portland cement. The heating process causes the materials to break down Portland cement was first used in and recombine into new compounds that can react with the civil engineering project by Isambard Kingdom Brunel (1806- water in a crystallization process called hydration. 1859), as the lining of the Thames Tunnel. Portland Cement The raw ingredients of Portland cement are iron ore, lime, alumina and silica. These are ground up and fired in a kiln to produce a clinker. After cooling, the clinker is very finery ground. CIVL 1101 Introduction to Concrete 2/10. Properties of Concrete Properties of Concrete When first mixed the water and cement constitute a paste Tricalcium silicate C3S.

3 Which surrounds all the individual pieces of aggregate to make a plastic mixture. A chemical reaction called hydration takes place between the water and cement, and Concrete normally changes from a plastic to a solid state in about 2 hours. Dicalcium silicate C2S. Concrete continues to gain strength as it cures. Heat of hydration - is the heat given off during the chemical reaction as the cement hydrates. Properties of Concrete Properties of Concrete Tricalcium aluminate C3A Tricalcium aluminate C3A. Tetracalcium aluminoferrite Properties of Concrete Properties of Concrete Scanning-electron micrographs of hardened cement paste Image shown is a two-dimensional slice from a three-dimensional spherical computational volume Unhydrated cement cores are dark blue,, Inner C-S-H product is red, Outer C-S-H project is yellow, and Water-filled space is light blue CIVL 1101 Introduction to Concrete 3/10.

4 Properties of Concrete Properties of Concrete Range in proportions of materials used in Concrete , by absolute volume. Stages of hydration: Bars 1 and 3 represent rich mixes with small size aggregates. Bars 2 and 4 represent lean mixes with large size aggregates. Water/Cement Ratio Water/Cement Ratio The single most important indicator of strength is the ratio A minimum w/c ratio (water-to-cement ratio) of about of the water used compared to the amount of cement by weight is necessary to ensure that the water comes (w/c ratio) into contact with all cement particles (thus assuring complete hydration). Basically, y, the lower this ratio is,, the higher g the final Concrete strength will be.

5 Typical values are in the to This concept was developed by Duff Abrams of The Portland Cement Association in the early 1920s and is in worldwide use today. Water/Cement Ratio Concrete Curing Advantages of low water/cement ratio: Curing - maintenance of a satisfactory moisture content and temperature in Concrete for a suitable period of time Increased strength immediately following placing & finishing so that the desired Properties may develop. Lower permeability Increased resistance to weathering eathering Better bond between Concrete and reinforcement Factors that effect curing: Reduced drying shrinkage and cracking Time Less volume change from wetting and drying Temperature Moisture CIVL 1101 Introduction to Concrete 4/10.

6 Concrete Curing Concrete Curing Concrete Curing Compressive strength Concrete strength gain versus time for Concrete exposed to Compressive strength - is defined as the measured outdoor conditions. Concrete continues to gain strength for maximum resistance of a Concrete or mortar specimen to many years when moisture is provided by rainfall and other an axial load, usually expressed in psi (pounds per environmental sources. square inch) at an age of 28-days. Compressive strength Properties of Concrete Compressive strength - is defined as the measured maximum resistance of a Concrete or mortar specimen to an axial load, usually expressed in psi (pounds per square inch) at an age of 28-days.

7 3 7 14 28. Age (days). CIVL 1101 Introduction to Concrete 5/10. Properties of Concrete Stress Strain Diagram During the first week to 10 days of curing it is important that the Concrete not be permitted to freeze or dry out . 12. In practical terms, about 90% of its strength is gained in the first 28 days days. 8. Concrete compressive strength depends upon many factors: 4. quality and proportions of the ingredients the curing environment. Strain . Concrete Material Properties Concrete Material Properties Most structural Concrete have f'c values in the 3,000 to For concretes up to about 6,000 psi it can be 5,000 psi range. approximated as: high -rise buildings sometimes utilize Concrete of 12,000.

8 Or 15,000 psi E 33w ff' c Concrete has no linear portion to its stress-strain curve, where w is the unit weight (pcf), f'c is the cylinder therefore it is difficult to measure the modulus of elasticity strength (psi). Concrete Material Properties Concrete Material Properties Effect of voids in Concrete on modulus of elasticity, The weight density of reinforced Concrete using normal compressive strength , and flexural strength aggregates is about 150 lb/ft3 (pcf). If 5 pcf of this is allowed for the steel and w is taken as 145 pcf then: E 57,000 f 'c CIVL 1101 Introduction to Concrete 6/10. Specimens Subjected to 150 Cycles of Freeze-Thaw Resistance Freezing and Thawing Concrete used in structures and pavements is expected to have long life and low maintenance.

9 It must have good durability to resist anticipated exposure Non-air-entrained conditions. high water-cement ratio The most potentially destructive weathering factor is freezing and thawing while the Concrete is wet, particularly in the presence of deicing chemicals. Air-entrained Deterioration is caused by the freezing of water and Low water-cement ratio subsequent expansion in the paste, the aggregate particles, or both. Freeze-Thaw Resistance Freeze-Thaw Resistance Type I cement Type I cement Concrete Shrinkage Concrete Shrinkage As Concrete cures it shrinks because the water not used Since Concrete is weak in tension, it will often develop for hydration gradually evaporates from the hardened mix cracks due to such shrinkage and temperature changes.

10 Concrete , like all materials, also undergoes volume Consider a freshly placed changes due to thermal effects effects. Concrete slab-on-grade slab on grade The heat from the exothermic hydration process adds to this problem. CIVL 1101 Introduction to Concrete 7/10. Mix Proportions Concrete Mix Design Relationships The ingredients of Concrete can be proportioned by strength weight or volume. The goal is to provide the desired strength and workability at minimum expense expense. w/c Cost A low w/c ratio is used to achieve strong Concrete . Workability Could you increased the cement content and use enough cement water for good workability and still have a low w/c ratio?


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