compound structures

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<td width="208"><a href="pages/page_1.html"><img src="thumbnails/s1.jpg" width="180" height="154" border="0" hspace="14" vspace="0" alt="Examples of compound shells of revolution"></a></td>
<td width="208"><a href="pages/page_2.html"><img src="thumbnails/s2.jpg" width="180" height="101" border="0" hspace="14" vspace="0" alt="Vibration modes of a compound cone-cylinder shell"></a></td>
<td width="208"><a href="pages/page_3.html"><img src="thumbnails/s3.jpg" width="119" height="180" border="0" hspace="14" vspace="0" alt="Strut-supported propellant tank to be launched into space"></a></td>
<td width="208"><a href="pages/page_4.html"><img src="thumbnails/s4.jpg" width="166" height="179" border="0" hspace="14" vspace="0" alt="Skirt-supported propellant tank to be launched into space"></a></td>
<td width="208"><a href="pages/page_5.html"><img src="thumbnails/s5.jpg" width="180" height="149" border="0" hspace="14" vspace="0" alt="Buckling of axially compressed frangible joint typical of those used in rockets for the separation of booster stages"></a></td>
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<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Examples of compound shells of revolution</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Vibration modes of a compound cone-cylinder shell</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Strut-supported propellant tank to be launched into space</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Skirt-supported propellant tank to be launched into space</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Buckling of axially compressed frangible joint typical of those used in rockets for the separation of booster stages</small></td></tr></table></td>
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<td width="208"><a href="pages/page_6.html"><img src="thumbnails/s6.jpg" width="140" height="180" border="0" hspace="14" vspace="0" alt="Spun-cast model with integrated flanges to simulate engine casings"></a></td>
<td width="208"><a href="pages/page_7.html"><img src="thumbnails/s7.jpg" width="180" height="127" border="0" hspace="14" vspace="0" alt="Application of Eurocode 9 to various tanks"></a></td>
<td width="208"><a href="pages/page_8.html"><img src="thumbnails/s8.jpg" width="180" height="154" border="0" hspace="14" vspace="0" alt="ANSYS finite element model of the Hanford domed shell in soil"></a></td>
<td width="208"><a href="pages/page_9.html"><img src="thumbnails/s9.jpg" width="180" height="123" border="0" hspace="14" vspace="0" alt="Axisymmetric prebuckling deformation of the buried tank under uniform surface loading (Deformation Scale Factor = 40)"></a></td>
<td width="208"><a href="pages/page_10.html"><img src="thumbnails/s10.jpg" width="158" height="180" border="0" hspace="14" vspace="0" alt="Location of concrete crushing in the wall of the buried tank under uniform surface loading"></a></td>
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<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Spun-cast model with integrated flanges to simulate engine casings</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Application of Eurocode 9 to various tanks</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">ANSYS finite element model of the Hanford domed shell in soil</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Axisymmetric prebuckling deformation of the buried tank under uniform surface loading (Deformation Scale Factor = 40)</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Location of concrete crushing in the wall of the buried tank under uniform surface loading</small></td></tr></table></td>
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<td width="208"><a href="pages/page_11.html"><img src="thumbnails/s11.jpg" width="180" height="146" border="0" hspace="14" vspace="0" alt="Critical buckling mode for the uniformly loaded buried tank"></a></td>
<td width="208"><a href="pages/page_12.html"><img src="thumbnails/s12.jpg" width="180" height="103" border="0" hspace="14" vspace="0" alt="General buckling mode of a submarine pressure hull"></a></td>
<td width="208"><a href="pages/page_13.html"><img src="thumbnails/s13.jpg" width="180" height="103" border="0" hspace="14" vspace="0" alt="Submarine hull with two joined cylindrical shells"></a></td>
<td width="208"><a href="pages/page_14.html"><img src="thumbnails/s14.jpg" width="139" height="179" border="0" hspace="14" vspace="0" alt="Non-axisymmetric loading, pre-buckling bending, and buckling of the payload shroud"></a></td>
<td width="208"><a href="pages/page_15.html"><img src="thumbnails/s15.jpg" width="139" height="179" border="0" hspace="14" vspace="0" alt="A segmented externally corrugated payload shroud that can be analyzed with BIGBOSOR4 (or the older BOSOR4)"></a></td>
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<tr><td height="5"></td></tr>
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<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Critical buckling mode for the uniformly loaded buried tank</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">General buckling mode of a submarine pressure hull</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Submarine hull with two joined cylindrical shells</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">Non-axisymmetric loading, pre-buckling bending, and buckling of the payload shroud</small></td></tr></table></td>
<td width="208"><table cellspacing="0" cellpadding="5" border="0"><tr><td align="center"><small class="title">A segmented externally corrugated payload shroud that can be analyzed with BIGBOSOR4 (or the older BOSOR4)</small></td></tr></table></td>
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Examples of compound shells of revolution

Vibration modes of a compound cone-cylinder shell

Strut-supported propellant tank to be launched into space

Skirt-supported propellant tank to be launched into space

Buckling of axially compressed frangible joint typical of those used in rockets for the separation of booster stages

Examples of compound shells of revolution

Vibration modes of a compound cone-cylinder shell

Strut-supported propellant tank to be launched into space

Skirt-supported propellant tank to be launched into space

Buckling of axially compressed frangible joint typical of those used in rockets for the separation of booster stages

Spun-cast model with integrated flanges to simulate engine casings

Application of Eurocode 9 to various tanks

ANSYS finite element model of the Hanford domed shell in soil

Axisymmetric prebuckling deformation of the buried tank under uniform surface loading (Deformation Scale Factor = 40)

Location of concrete crushing in the wall of the buried tank under uniform surface loading

Spun-cast model with integrated flanges to simulate engine casings

Application of Eurocode 9 to various tanks

ANSYS finite element model of the Hanford domed shell in soil

Axisymmetric prebuckling deformation of the buried tank under uniform surface loading (Deformation Scale Factor = 40)

Location of concrete crushing in the wall of the buried tank under uniform surface loading

Critical buckling mode for the uniformly loaded buried tank

General buckling mode of a submarine pressure hull

Submarine hull with two joined cylindrical shells

Non-axisymmetric loading, pre-buckling bending, and buckling of the payload shroud

A segmented externally corrugated payload shroud that can be analyzed with BIGBOSOR4 (or the older BOSOR4)

Critical buckling mode for the uniformly loaded buried tank

General buckling mode of a submarine pressure hull

Submarine hull with two joined cylindrical shells

Non-axisymmetric loading, pre-buckling bending, and buckling of the payload shroud

A segmented externally corrugated payload shroud that can be analyzed with BIGBOSOR4 (or the older BOSOR4)

compound structures

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