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ผลกระทบของซิลิกาฟูมต่อคุณสมบัติของคอนกรีต

ผลกระทบของซิลิกาฟูมต่อคุณสมบัติของคอนกรีต

Due to the continuing urbanization and industrialization, the construction industry is booming in many countries all around the world, from China to the United States, from South Korea to Australia. With the increased rate of construction activities, comes the increased demand for production and use of concrete. Silica fume presents a pozzolanic material commonly added to concrete to enhance its durability and mechanical properties.

วันนี้, ที่ Henan Superior Abrasives Import & บริษัทส่งออก, จำกัด, we are going to take a close look at the effect of silica fume on the properties of concrete.

How Does Silica Fume Alter Properties of Concrete?

In order to understand the effect of silica fume on the properties of concrete, it is necessary to take a look at the chemical reaction that occurs once silica fume is added to the mixture.

เมื่อเติมลงในคอนกรีต, silica fume remains inert for some time. แล้ว, as water begins to react with cement in the process called “hydration,” the chemical reaction results in two important compounds:

  • แคลเซียมซิลิเกตไฮเดรต, or C-S-H. This is the crystalline compound that gives the cement its added strength.
  • แคลเซียมไฮดรอกไซด์, or C-H. This is the reaction by-product, which works as a filler and fills the voids within concrete.

When a pozzolanic reaction occurs between silica fume and the produced Calcium Hydroxide, additional C-S-H compounds are created. These compounds effectively fill up the voids surrounding the hydrated cement particles, creating a denser matrix. ผลที่ตามมา, concrete develops better compressive, ดัด, and bong-strength properties.

ผลกระทบของซิลิกาฟูมต่อคุณสมบัติของคอนกรีต: Research Findings

Micro filler silica fume is commonly used as a supplementary cementitious material. As described earlier, เมื่อเติมลงในคอนกรีต, it fills up its voids, thus enhancing its performance.

Various researches have been conducted, supporting the improved properties of the concrete upon silica fume addition. ด้านล่าง, we are going to summarize the findings of the recent research paper by S. Jagan and T. R. Neelakantan, which took a look at the “Effect of Silica Fume on the Hardened and Durability Properties of Concrete.

ความสามารถทำงานได้

The slump value in concrete is used to measure the consistency of freshly made concrete before it sets, indicating its workability and the ease with which concrete flows. Lower slump values in traditional mixes generally mean that the concrete is of higher quality and vice versa.

The workability study of the M40 grade concrete was conducted with the use of various replacement percentages of silica fume, ranging from 0% ถึง 15%. The results demonstrate that the slump value decreases with the increased percentage of silica fume. This can be explained by the fact that higher proportions of silica fume tend to absorb more water due to the increased surface area of silica fume particles. เช่นนี้, adding silica fume to concrete can significantly reduce its slump value and workability.

แรงอัด

The study has also looked at the effect of adding silica fume on the compressive strength of two grades of concrete: M25 and M40. โดยรวม, the compressive strength of concrete has improved with the higher percentage of silica fume added, increasing over time.

ตัวอย่างเช่น, when 15% silica fume was added to the M25 concrete, the compressive strength was measured at 26.56 MPa and 39.14 MPa at 7 และ 28 days respectively. The maximum improvement in the strength was observed at 14 วัน, measuring 14.68%, as well as at 90 วัน, measuring 13.62%.

ในทำนองเดียวกัน, for the concrete of M40 grade, the compressive was strength was measured at 36.14 MPa at 7 วัน, และ 55.21 MPa – at 28 วัน. The maximum compressive strength improvement was 13.01% at 14 days and 12.19% at 90 วัน.

The findings can be explained by the continuous increase in the fineness of the silica fume particles. While the total surface area of the particles increases, they more effectively fill the voids in the concrete mixture, leading to the formation of a more closely packed structure. Reduced porosity, ในทางกลับกัน, means improved strength of the entire mixture.

It is worth noting that the improvement in compressive strength is not linear beyond 28 วัน. This can be explained by the fact that an inhibiting product is formed after 28 วัน, which prevents the further chemical reaction of silica fume. นอกจากนี้, with time, the pozzolanic activity of silica fume decreases, therefore reducing the strength improvement in the concrete after 28 วัน.

Elastic Modulus

โดยทั่วไป, higher values of elastic modulus translate into increased stiffness of the material. เช่นนี้, a high performance concrete will have a higher modulus of elasticity as compared to a normal strength concrete. Understanding the effect of silica fume on the concrete’s elastic modulus can provide valuable insights into the properties and applications of different concrete mixtures.

The study has found that for both M25 and M40 grades of concrete, the elastic modulus increased with the increased proportion of silica fume. The maximum improvement was observed at 90 days with 15% replacement of silica fume, measuring 7.06% for M25 grade concrete, และ 6.29% for M40 concrete.

This can be explained by the fact that the micro-filler silica fume fills up the voids in concrete and forms a closely packed structure. Upon loading, the load transfers grain-to-grain, leading to the increased strain and stress rate, thus increasing the elastic modulus of the concrete.

Autogenous Shrinkage

The autogenous shrinkage value describes the uniform reduction of the internal moisture as a result of cement hydration. This autogenous shrinkage is a major contributor to concrete cracking when the ratio of water to cement is below 0.4.

The study has found that the rate of shrinkage strain increases in both M25 and M40 concrete grades as the percentage of silica fume increases. The M40 grade concrete demonstrated the higher rate of autogenous shrinkage, as compared to the M25 grade.

เช่นนี้, increasing the percentage of silica fume increases the shrinkage rate of concrete. Higher silica fume proportions fill up the voids in the cement paste and increase its internal stress. นี้, ในทางกลับกัน, leads to additional expansion of the cement matrix, which may cause micro-cracks in the concrete and negatively affect its durability.

Acid Attack

Commonly used for marine applications, concrete needs to demonstrate reasonable resistance to acids and salts.

For both grades of concrete, the maximum resistance to acid penetration was observed at 15% replacement of silica fume. Upon an increase in the percentage of the silica fume, the resistance to acid penetration was also increased. นี้, again, can be explained by the pore filling ability of silica fume. By filling up the voids in the concrete, it is able to combat the ingression of harmful acids. นอกจากนี้, SiO2 found in silica fume reacts with Ca(โอ้)2, forming an impermeable C-S-H gel. This gel contributes significantly to the reduction of harmful effects of the acid attack, และ, thus, enhances the durability of the concrete.

Final Words

โดยรวม, the study of the effect of adding different percentages of silica fume has concluded the following effect of silica fume on properties of concrete:

  • ความสามารถทำงานได้. Higher percentage of silica fume decreases the workability of the concrete.
  • Compressive strength. Higher percentage of silica fume increases the compressive strength of the concrete.
  • Elastic modulus. The addition of silica fume increases the elastic modulus of the concrete, even though no significant variation was observed between the different percentages of silica fume added.
  • Autogenous shrinkage. Higher percentage of silica fume increases the autogenous shrinkage of the concrete.
  • Acid attack. Higher percentage of silica fume increases the concrete’s resistance to acid attack.

This demonstrates that silica fume rightfully deserves its place in the manufacture of concrete. By augmenting the mechanical properties of various grades of concrete, silica fume can improve its strength and durability, expanding its potential applications in the construction industry.

To take advantage of the improved concrete properties associated with the application of silica fume, it is important to find a trusted silica fume supplier. ที่การนำเข้า Henan Superior Abrasives & บริษัทส่งออก, จำกัด, we offer various types of high-quality densified and undensified silica fume. Shop for silica fume now.

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