unstiffened cylindrical shells

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<td width="208"><a href="pages/page_406.html"><img src="thumbnails/s406.jpg" width="180" height="180" border="0" hspace="14" vspace="0" alt="Laminated composite cylindrical panel with hole and a strip model"></a></td>
<td width="208"><a href="pages/page_407.html"><img src="thumbnails/s407.jpg" width="180" height="101" border="0" hspace="14" vspace="0" alt="Uniform axial compression on the laminated composite cylindrical panel with the cutout"></a></td>
<td width="208"><a href="pages/page_408.html"><img src="thumbnails/s408.jpg" width="180" height="179" border="0" hspace="14" vspace="0" alt="Bucklling modes of the axially compressed laminated composite cyindrical panel with various lay-ups"></a></td>
<td width="208"><a href="pages/page_409.html"><img src="thumbnails/s409.jpg" width="180" height="72" border="0" hspace="14" vspace="0" alt="Scheme of a tube bending machine"></a></td>
<td width="208"><a href="pages/page_410.html"><img src="thumbnails/s410.jpg" width="180" height="104" border="0" hspace="14" vspace="0" alt="Large local lateral deflection of a thin-walled cyllindrical lithium-ion battery shell"></a></td>
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<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Laminated composite cylindrical panel with hole and a strip model</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Uniform axial compression on the laminated composite cylindrical panel with the cutout</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Bucklling modes of the axially compressed laminated composite cyindrical panel with various lay-ups</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Scheme of a tube bending machine</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Large local lateral deflection of a thin-walled cyllindrical lithium-ion battery shell</small></td></tr></table></td>
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<td width="208"><a href="pages/page_411.html"><img src="thumbnails/s411.jpg" width="180" height="102" border="0" hspace="14" vspace="0" alt="Fluid-conveying thin-walled pipe on an elastic foundation"></a></td>
<td width="208"><a href="pages/page_412.html"><img src="thumbnails/s412.jpg" width="180" height="151" border="0" hspace="14" vspace="0" alt="Thick cylindrical shell"></a></td>
<td width="208"><a href="pages/page_413.html"><img src="thumbnails/s413.jpg" width="180" height="109" border="0" hspace="14" vspace="0" alt="The material of the cylindrical shell is functionally graded in two dimensions: axial and radial"></a></td>
<td width="208"><a href="pages/page_414.html"><img src="thumbnails/s414.jpg" width="180" height="129" border="0" hspace="14" vspace="0" alt="Axial crushing of NMFL filled tube and non-filled tube"></a></td>
<td width="208"><a href="pages/page_415.html"><img src="thumbnails/s415.jpg" width="162" height="180" border="0" hspace="14" vspace="0" alt="Dynamic buckling modes of a short steel tank after (a) 5 years and (b) 10 years of corrosion thinning "></a></td>
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<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Fluid-conveying thin-walled pipe on an elastic foundation</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Thick cylindrical shell</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">The material of the cylindrical shell is functionally graded in two dimensions: axial and radial</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Axial crushing of NMFL filled tube and non-filled tube</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Dynamic buckling modes of a short steel tank after (a) 5 years and (b) 10 years of corrosion thinning </small></td></tr></table></td>
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<td width="208"><a href="pages/page_416.html"><img src="thumbnails/s416.jpg" width="180" height="180" border="0" hspace="14" vspace="0" alt="Buckling of SpaceX Starship prototype, SN3, during a cryo test"></a></td>
<td width="208"><a href="pages/page_417.html"><img src="thumbnails/s417.jpg" width="180" height="69" border="0" hspace="14" vspace="0" alt="A thick cylindrical shell"></a></td>
<td width="208"><a href="pages/page_418.html"><img src="thumbnails/s418.jpg" width="180" height="173" border="0" hspace="14" vspace="0" alt="Functionally graded piezoelectric (FGP) thick  cylindrical shell"></a></td>
<td width="208"><a href="pages/page_419.html"><img src="thumbnails/s419.jpg" width="180" height="91" border="0" hspace="14" vspace="0" alt="Aero-thermo-elastic analysis of a radially functionally graded cylindrical shell panel"></a></td>
<td width="208"><a href="pages/page_420.html"><img src="thumbnails/s420.jpg" width="172" height="180" border="0" hspace="14" vspace="0" alt="How the volume fraction of ceramic (Vc) varies through the wall thickness with change in the volume fraction power, n"></a></td>
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<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Buckling of SpaceX Starship prototype, SN3, during a cryo test</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">A thick cylindrical shell</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Functionally graded piezoelectric (FGP) thick  cylindrical shell</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Aero-thermo-elastic analysis of a radially functionally graded cylindrical shell panel</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">How the volume fraction of ceramic (Vc) varies through the wall thickness with change in the volume fraction power, n</small></td></tr></table></td>
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Laminated composite cylindrical panel with hole and a strip model

Uniform axial compression on the laminated composite cylindrical panel with the cutout

Bucklling modes of the axially compressed laminated composite cyindrical panel with various lay-ups

Large local lateral deflection of a thin-walled cyllindrical lithium-ion battery shell

Laminated composite cylindrical panel with hole and a strip model

Uniform axial compression on the laminated composite cylindrical panel with the cutout

Bucklling modes of the axially compressed laminated composite cyindrical panel with various lay-ups

Scheme of a tube bending machine

Large local lateral deflection of a thin-walled cyllindrical lithium-ion battery shell

Fluid-conveying thin-walled pipe on an elastic foundation

The material of the cylindrical shell is functionally graded in two dimensions: axial and radial

Axial crushing of NMFL filled tube and non-filled tube

Dynamic buckling modes of a short steel tank after (a) 5 years and (b) 10 years of corrosion thinning

Fluid-conveying thin-walled pipe on an elastic foundation

Thick cylindrical shell

The material of the cylindrical shell is functionally graded in two dimensions: axial and radial

Axial crushing of NMFL filled tube and non-filled tube

Dynamic buckling modes of a short steel tank after (a) 5 years and (b) 10 years of corrosion thinning

Buckling of SpaceX Starship prototype, SN3, during a cryo test

Functionally graded piezoelectric (FGP) thick cylindrical shell

Aero-thermo-elastic analysis of a radially functionally graded cylindrical shell panel

$How the volume fraction of ceramic (Vc) varies through the wall thickness with change in the volume fraction power, n$

Buckling of SpaceX Starship prototype, SN3, during a cryo test

A thick cylindrical shell

Functionally graded piezoelectric (FGP) thick cylindrical shell

Aero-thermo-elastic analysis of a radially functionally graded cylindrical shell panel

How the volume fraction of ceramic (Vc) varies through the wall thickness with change in the volume fraction power, n

unstiffened cylindrical shells

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