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Deleterious material in aggregates can weaken the overall strength of the material, reduce durability, and increase the potential for deterioration due to chemical reactions or expansion. It can lead to poor bond between aggregates and the binder, causing issues such as cracking and reduced load-bearing capacity in concrete or asphalt mixes.

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What influence does the pressure of alloying elememt?

The pressure of alloying elements can affect the material properties of an alloy by influencing its microstructure and phase transformations. Higher pressures can promote solid solution formation and increase the solubility of elements in the matrix, leading to changes in strength, hardness, and other mechanical properties. Additionally, pressure can affect the density and crystal structure of the material, which can impact its overall performance.


How does crystalinity affect different polymer properties?

Mechanical properties are affected significantly.


What is void in amorphous material?

In amorphous materials, voids refer to spaces or gaps within the material where there is no solid substance present. These voids can affect the material's properties like strength and density, and can also impact its thermal and electrical conductivity. Understanding and controlling voids is important in the processing and performance of amorphous materials.


Does global warming affect the way a ball bounces?

Global warming does not directly affect the way a ball bounces. However, changes in temperature and humidity levels can impact the elasticity of the ball's material, which may influence its bouncing properties over time.


Can nylon change?

Nylon itself does not change chemically, but it can undergo physical changes such as stretching, shrinking, or fading with exposure to heat, light, or chemicals. These changes can affect the appearance and properties of the nylon material.

Related Questions

How does the interaction between infrared and UV light affect the properties of a material?

The interaction between infrared and UV light can affect the properties of a material by causing changes in its molecular structure, leading to alterations in its physical and chemical properties. This can result in changes in the material's color, transparency, conductivity, and other characteristics.


What factors affect elastic energy?

Factors that affect elastic energy include the material's elastic modulus (stiffness), the amount of deformation or stretching applied to the material, and the shape or configuration of the material. Additionally, temperature can also affect the elastic properties of a material.


Affect of deleterious materials on aggregate?

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What happens when a material absorbs light and how does it affect its properties?

When a material absorbs light, it takes in the energy from the light waves. This can cause the material to heat up, change color, or undergo a chemical reaction. The absorbed light energy can also affect the material's electrical conductivity, magnetic properties, or other physical characteristics. Overall, the absorption of light can alter the properties of a material and lead to various changes in its behavior.


Why fineness modulus of coarse aggregates is more than that of fine aggregates?

how does the fineness modulus of aggregate affect the strength of concrete


What does not affect a material resistance?

Material resistance is not affected by color, texture, or surface finish. It is primarily determined by the material's intrinsic properties such as conductivity, thickness, and temperature.


How does fineness modulus of aggregates affect the strength of concrete?

how does the fineness modulus of aggregate affect the strength of concrete


How does the fineness modulus of aggregates affect the strength of concrete?

how does the fineness modulus of aggregate affect the strength of concrete


How do the properties of a material affect the way light is refracted vs reflected?

The properties of a material, such as its density and refractive index, affect how light is refracted and reflected. When light passes through a material with a different density or refractive index, it can change direction (refraction) or bounce off the surface (reflection). The angle at which light enters the material also plays a role in how it is refracted or reflected.


How do elastic properties of material affect vibrations of that material?

The elastic properties of a material, such as elasticity and stiffness, affect how the material responds to vibrations. Materials with higher elasticity will vibrate at lower frequencies and store more energy during vibration, while materials with higher stiffness will vibrate at higher frequencies and dissipate energy more quickly. The elastic properties also determine the speed of sound through the material, which can impact how vibrations propagate.


What is the difference between yield strength and tensile strength, and how do they affect the mechanical properties of a material?

Yield strength is the point at which a material deforms permanently, while tensile strength is the maximum stress a material can withstand before breaking. Yield strength indicates when a material will start to deform, while tensile strength shows its maximum strength. These properties affect how a material responds to external forces and its overall durability and performance in various applications.


How does lattice strain affect the mechanical properties of materials?

Lattice strain can affect the mechanical properties of materials by causing changes in their strength, ductility, and hardness. When a material is subjected to lattice strain, it can lead to dislocations and defects in the crystal structure, which can impact how the material deforms under stress. This can result in changes in the material's ability to withstand external forces and its overall mechanical behavior.