Havacılık ve Uzay Müh. Dersleri

İlker Coşkun

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Havacılık ve Uçak Mühendisi
Havacılık ve Uzay Müh. Ders notları paylaşımı, aklınızdaki soruları paylaşabilirsiniz.
 

Ogzcan

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Merhaba.Ders ve konu dağılımından bahsedebilirimsin
 

Defne26

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2020-05-04.png

İlgili tarihte otomatik birleştirildi:

Bu soruya bakabilir misin??
 

markup

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Cylindrical or spherical pressure vessels (e.g., hydraulic cylinders, gun barrels, pipes, boilers and tanks) are commonly used in industry to carry both liquid s and gases under pressure. When the pressure vessel is exposed to this pressure, the material comprising the vessel is subjected to pressure loading, and hence stresses, from all directions. The normal stresses resulting from this pressure are functions of the radius of the element under consideration, the shape of the pressure vessel (i.e., open ended cylinder, closed end cylinder, or sphere) as well as the applied pressure. Two types of analysis are commonly applied to pressure vessels. The most common method is based on a simple mechanics approach and is applicable to “thin wall” pressure vessels which by definition have a ratio of inner radius, r, to wall thickness, t, of r/t≥10. The second method is based on elasticity solution and is always applicable regardless of the r/t ratio and can be referred to as the solution for “thick wall” pressure vessels. Both types of analysis are discussed here, although for most engineering applications, the thin wall pressure vessel can be used. Thin-Walled Pressure Vessels Several assumptions are made in this method.
 

Defne26

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Cylindrical or spherical pressure vessels (e.g., hydraulic cylinders, gun barrels, pipes, boilers and tanks) are commonly used in industry to carry both liquid s and gases under pressure. When the pressure vessel is exposed to this pressure, the material comprising the vessel is subjected to pressure loading, and hence stresses, from all directions. The normal stresses resulting from this pressure are functions of the radius of the element under consideration, the shape of the pressure vessel (i.e., open ended cylinder, closed end cylinder, or sphere) as well as the applied pressure. Two types of analysis are commonly applied to pressure vessels. The most common method is based on a simple mechanics approach and is applicable to “thin wall” pressure vessels which by definition have a ratio of inner radius, r, to wall thickness, t, of r/t≥10. The second method is based on elasticity solution and is always applicable regardless of the r/t ratio and can be referred to as the solution for “thick wall” pressure vessels. Both types of analysis are discussed here, although for most engineering applications, the thin wall pressure vessel can be used. Thin-Walled Pressure Vessels Several assumptions are made in this method.
İlgili tarihte otomatik birleştirildi:

Buna da bakabilir misin bi plzz??
 

Dosyalar

Defne26

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Hortumlu soruyla bunun ne alakası sen anladıysan direk sorunun cevabını atabilir misin ?? Çünkü kitapta zaten bu yazı vardi😅
 

markup

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O kadarınıda kendin bul benden bu kadar
 
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