Stress and strain modeling in the orthotropic wound part of a high pressure compound vessel

Stress and strain modeling in the orthotropic wound part of a high pressure compound vessel

Článek recenzovaný mimo WoS a Scopus

A computational model of the orthotropic strip wound cylinder has been proposed describing the behavior of the real construction more precisely than the commonly used isotropic material model. Relations have been derived for the stress and displacement radial distribution in an analytical form. The influence of the different radial and tangential stiffnesses on the stress state, radial displacement and strip prestress during the winding process have been analyzed on a practical example.

A computational model of the orthotropic strip wound cylinder has been proposed describing the behavior of the real construction more precisely than the commonly used isotropic material model. Relations have been derived for the stress and displacement radial distribution in an analytical form. The influence of the different radial and tangential stiffnesses on the stress state, radial displacement and strip prestress during the winding process have been analyzed on a practical example.

Compound vessel, Stress and strain analysis, Optimal strip prestress

Compound vessel, Stress and strain analysis, Optimal strip prestress

SUCHÁNEK, M., VRBKA, J.

01.04.2000

ELSEVIER

0308-0161

INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING

77 (2000)

6

Spojené království Velké Británie a Severního Irska

289

7