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The linear portion of the stress-strain curve represents the elastic deformation of a material. This is where the material behaves elastically and will return to its original shape once the applied stress is removed.

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1y ago

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What part of the curve represents the elastic deformation of a material?

I assume you mean the curve of length against applied force (or mass) for a wire. The beginning part of the curve should be a straight line, and this is where the deformation is elastic. When the substance passes its elastic limit, the line starts to curve up.


What part of the curve represents the elastic deformation of the material?

I assume you mean the curve of length against applied force (or mass) for a wire. The beginning part of the curve should be a straight line, and this is where the deformation is elastic. When the substance passes its elastic limit, the line starts to curve up.


What part of the line represents ductile deformation of the material?

In a stress-strain curve, the part that represents ductile deformation is typically found in the region after the elastic limit and before the ultimate tensile strength. This section shows a significant amount of plastic deformation, where the material can undergo permanent shape changes without breaking. The slope in this region is less steep than in the elastic region, indicating that the material can absorb more energy and deform gradually under stress.


What is the difference between deformation modulus and Young's modulus?

Young Modulus is the slope of the stress-strain diagram in the linear elastic region. This is the most common use of modulus. As the material goes non-linear in the stress strain curve, thre slope will get increasingly lower. In this case one connects the end points of the stress strain diagram at the point of interest with a straight line. The slope of that straight line is the secant modulus.


How will elastic limit be represented on a graph?

On a graph depicting stress versus strain, the elastic limit is represented as the point at which the curve begins to deviate from a straight line, indicating that the material will no longer return to its original shape after the load is removed. This point is typically marked at the end of the linear elastic region of the graph, where Hooke's Law is applicable. Beyond the elastic limit, the material enters the plastic deformation region, where permanent deformation occurs.


Is nylon fishing line a elastic or plastic?

is nylon fishing line elastic or plastic


What happens when the stress and strain of elastic deformation along tectonic plates reaches the braking point?

When the stress within the rock mass exceeds the elastic limit, then either a slip will occur along a pre-existing fault to releases the accumulated strain energy. This release of energy is more commonly known as an earthquake!


How is elastic demand represent graphically?

A perfectly elastic demand is represented on the traditional supply and demand graph with a straight horizontal line. An elastic demand that is not perfect would be represented as any line with a slope between 0 and -1.


The equation y - 4 equals 0 represents a vertical line?

No. It represents a horizontal line.


What figure represents a line?

A line segment


What is the relationship between extension and mass?

Within a materials elastic limit, the extension of a uniform section (like a wire) will be proportional to the tensile load. The graph of load (mass) v extension will be a straight line


In a graph showing temperature change of material over timetemperature change is the?

In a graph showing temperature change of a material over time, the x-axis typically represents time while the y-axis represents temperature. The slope of the line indicates the rate of temperature change, with a steeper slope representing a faster change in temperature. The point at which the line intersects the x-axis denotes the initial temperature of the material.