Калькулятор свойств раздела

The above centroid calculator will use the relevant centroid equations to find the centroid of a circle, прямоугольник, полый прямоугольный, Я балки, Channels and Angle sections. The calculator will return simplified results including the centroid (in both X and Y directions) from a few simple section dimension inputs. The section centroid is the geometric centre of a shape, representing the point where its area can be evenly balanced. Assuming a consistent material within the section, it will be the centre of gravity for that section. The centroid is usually defined in terms of Cx and Cy, to represent the distance from the bottom of the section in x and y respectively. So the centroid location can be denoted as a point [Cx, Сай].

For some shapes, this is quite a simple calculation. Например, finding the centroid of a rectangle is as simple as halving the height and width:

тем не мение, for more complex sections where they are not symmetrical in both axis, the centroid calculations are a little more complex. Например, an Angle Section may have it's centroid somewhere off the actual section:

The section modulus is an important geometric property, which ultimately represents how well a section can resist bending. It's calculated by the following simple elastic section modulus equation:

• S_xb: Section Modulus about x-axis to the bottom of the section
• S_xt: Section Modulus about x-axis to the top of the section
• S_уг: Section Modulus about y-axis to the top of the section (or the right-most part of the section)
• S_уЬ: Section Modulus about y-axis to the bottom of the section (or the left-most part of the section)

It's also important to note, the x/z axis can be used interchangeably. Так например, in our section modulus calculations, we use с участием instead of Икс as our horizontal axis.

Модуль упругого сечения (S) Vs Plastic Section Modulus (С УЧАСТИЕМ)

The elastic section modulus (S) represents a section's bending behavior within its elastic limit - where it deforms under load but returns to its original shape once the load is removed. This modulus is crucial for calculating maximum bending stress before yielding.

С другой стороны, the plastic section modulus (С УЧАСТИЕМ) captures a section's bending behavior beyond its elastic limit, where it undergoes plastic deformation. Z represents the member's ability to redistribute stress post-yielding, enhancing its resistance to bending.

While S (эластичный) is fundamental for designing structures operating within their elastic range, С УЧАСТИЕМ (пластик) finds application in scenarios where plastic behavior is anticipated or desired, such as in steel design when dealing with compact sections, the Plastic Section modulus can be used to push the design further. In the case of a non-compact section, the section will locally buckle before its plastic moment capacity is reached - hence the elastic section modulus is used in this case. You can read more about this in SkyCiv's guide to AS4100 Steel Design, although this makes specific references to the Australian Standards, it has useful general comments about section classifications in steel design.

It's also important to note that different regions adopt different nomenclature for plastic and elastic modulus:

Австралия
Z = Elastic, S = Plastic

America + Rest of World
S = Elastic, Z = Plastic

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