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1. Synthesis and characterisation of Cu-W nanocomposite strips.

Author

Vajpai, S K, Dube, R K, Kanwat, A, and Kumawat, S

Subjects
TUNGSTEN, MICROSTRUCTURE, ELECTRIC conductivity, NANOSTRUCTURED materials, CARBON nanohorns, MECHANICAL alloying
Abstract

The present work deals with the preparation of near full density Cu-5 wt-%W, Cu-20 wt-%Wand Cu-40 wt-%W nanocomposite strips from elemental copper and tungsten powders. The proposed route consists of preparing Cu-W nanocomposite powders via high energy ball milling of mixture of elemental powders followed by die compaction of the milled powder, sintering of the powder preforms at 1273 K and hot rolling of the unsheathed sintered preforms at 1273 K under protective atmosphere. The microstructural characteristics of the ball milled Cu-W composite powder as well as finished hot rolled strips of Cu-W composites have been investigated, and the mechanism underlying such microstructural evolution has been discussed. Ball milled composite powder particles as well as hot rolled finished Cu-W composite strips consisted of uniform distribution of submicrometre sized and nanosized tungsten particles embedded in the copper matrix. The microhardness of the finished Cu-W composite strips increased with increasing W content, whereas electrical conductivity decreased with increasing tungsten content in the finished Cu-W nanocomposite strips. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
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2. Synthesis and properties of Cu-Al-Ni shape memory alloy strips prepared via hot densification rolling of powder preforms.

Author

Sharma, M, Vajpai, S K, and Dube, R K

Subjects
SHAPE memory alloys, METALS, THERMOMECHANICAL treatment, COMPACTING, SINTERING, PROTECTIVE atmospheres
Abstract

Cu-Al-Ni shape memory alloy strips were successfully prepared by a powder metallurgy route consisting of preparing powder preforms from premixed Cu, Al and Ni powders by cold compaction, stepwise sintering in the range 873-1273 K, followed by unsheathed multipass hot rolling at 1273 K in protective atmosphere. The densification behaviour of the sintered powder preforms during hot rolling has been discussed. Homogenisation of the hot rolled strips was carried out at 1173 K for 4 h. It has been shown that the finished Cu-Al-Ni alloy strip consisted of self-accommodated plates ofβ' and γ' martensites together with a small amount of nanocrystalline Cu<subscript>9</subscript>Al<subscript>4</subscript> phase. The finished hot rolled Cu-Al-Ni strips had fracture strength of 476 MPa, coupled with 2·5% elongation. The shape memory tests showed almost 100% recovery after 10 thermomechanical cycles in the hot rolled strips at 1 and 2% applied prestrain. [ABSTRACT FROM AUTHOR] </p></dd> <dt class="blacklight-eds_authors col-md-3">Published</dt> <dd class="col-md-9 blacklight-eds_authors">2011</dd> <dt class="blacklight-eds_authors col-md-3"><span class="tags-custom">Full Text</span></dt> <dd class="col-md-9 blacklight-eds_authors"><a class="pdf-blue-icon" target="_blank" href="https://doi.org/10.1179/1743290110Y.0000000010">View/download PDF</a></dd> </dl> </article><article data-document-id="asx__43568608" data-document-counter="3" itemscope="itemscope" itemtype="http://schema.org/Thing" class="blacklight-academic-journal document document-position-3"> <header class="documentHeader row"> <h3 class="index_title document-title-heading col-sm-9 col-lg-10"> <span class="document-counter"> 3. </span> <a data-context-href="/articles/asx__43568608/track?counter=3&document_id=asx__43568608&search_id=56875545" href="/articles/asx__43568608">Aspects of porosity formation in spray deposited thin aluminium strip.</a> </h3> <div class="index-document-functions col-sm-3 col-lg-2"> <form class="bookmark-toggle" data-doc-id="asx__43568608" data-present="In Bookmarks" data-absent="Bookmark" data-inprogress="Saving..." action="/bookmarks/asx__43568608" accept-charset="UTF-8" method="post"><input type="hidden" name="_method" value="put" /><input type="hidden" name="authenticity_token" value="nKhWnnTRztrhBP/5VWvFTdDc400p+ECLFJdCLmvysR/YQLAWy19uVqIbdgTJjDbY7frg2JT+piNS3ad+gPXNvg==" /> <input type="hidden" name="catalog_type" id="catalog_type" value="articles" /> <input type="submit" name="commit" value="Bookmark" id="bookmark_toggle_asx__43568608" class="bookmark-add btn btn-outline-secondary" data-disable-with="Bookmark" /> </form> </div> </header> <dl class="document-metadata dl-invert row"> <dt class="blacklight-eds_authors col-md-3">Author</dt> <dd class="col-md-9 blacklight-eds_authors mb-0"> <p class="truncate-text"> Sahu, K. K., Dube, R. K., and Koria, S. C.</p></dd> <dt class="blacklight-eds_authors col-md-3">Subjects</dt> <dd class="col-md-9 blacklight-eds_authors">*<searchLink fieldCode="DE" term="%22POROSITY%22">POROSITY</searchLink>, *<searchLink fieldCode="DE" term="%22ALUMINUM+strip%22">ALUMINUM strip</searchLink>, *<searchLink fieldCode="DE" term="%22METAL+spraying%22">METAL spraying</searchLink>, *<searchLink fieldCode="DE" term="%22SUBSTRATES+%28Materials+science%29%22">SUBSTRATES (Materials science)</searchLink>, *<searchLink fieldCode="DE" term="%22EFFECT+of+temperature+on+metals%22">EFFECT of temperature on metals</searchLink>, *<searchLink fieldCode="DE" term="%22POWDER+metallurgy%22">POWDER metallurgy</searchLink></dd> <dt class="blacklight-eds_languages col-md-3">Abstract</dt> <dd class="col-md-9 blacklight-eds_languages"><p class="truncate-text"> A characteristic feature of the spray deposited metal strip is that it contains porosity. The present paper has reported and explained the effect of various process parameters such as atomising pressure, deposition distance, melt superheat and melt delivery tube diameter on porosity of the spray deposited thin aluminium strip. Porosity of the spray deposited aluminium strip greatly depends not only on the liquid fraction present on the substrate, but also on the thermal condition through the substrate. It has been shown that there are several types of porosity present in the strip, namely interstitial, mechanically entrapped gas, intersplat boundary, solidification shrinkage and porosity due to hydrogen evolution. The mechanism of their formation has been discussed. An increase in the initial temperature of the substrate lowers the porosity content in the spray deposited aluminium strip. [ABSTRACT FROM AUTHOR] </p></dd> <dt class="blacklight-eds_authors col-md-3">Published</dt> <dd class="col-md-9 blacklight-eds_authors">2009</dd> <dt class="blacklight-eds_authors col-md-3"><span class="tags-custom">Full Text</span></dt> <dd class="col-md-9 blacklight-eds_authors"><a class="pdf-blue-icon" target="_blank" href="https://doi.org/10.1179/003258908X334221">View/download PDF</a></dd> </dl> </article><article data-document-id="asx__32573006" data-document-counter="4" itemscope="itemscope" itemtype="http://schema.org/Thing" class="blacklight-academic-journal document document-position-4"> <header class="documentHeader row"> <h3 class="index_title document-title-heading col-sm-9 col-lg-10"> <span class="document-counter"> 4. </span> <a data-context-href="/articles/asx__32573006/track?counter=4&document_id=asx__32573006&search_id=56875545" href="/articles/asx__32573006">Literary evidence for use of particulate silver as money and currency material in India.</a> </h3> <div class="index-document-functions col-sm-3 col-lg-2"> <form class="bookmark-toggle" data-doc-id="asx__32573006" data-present="In Bookmarks" data-absent="Bookmark" data-inprogress="Saving..." action="/bookmarks/asx__32573006" accept-charset="UTF-8" method="post"><input type="hidden" name="_method" value="put" /><input type="hidden" name="authenticity_token" value="0ud3evPYIxJAYpx9eval9EgXM6s8gaPjKoedzwhH3WmNreVJQ4jJhTuLLraJ/xzj3a0SKKeGU6HFtuRcpji07Q==" /> <input type="hidden" name="catalog_type" id="catalog_type" value="articles" /> <input type="submit" name="commit" value="Bookmark" id="bookmark_toggle_asx__32573006" class="bookmark-add btn btn-outline-secondary" data-disable-with="Bookmark" /> </form> </div> </header> <dl class="document-metadata dl-invert row"> <dt class="blacklight-eds_authors col-md-3">Author</dt> <dd class="col-md-9 blacklight-eds_authors mb-0"> <p class="truncate-text"> Dube, R. K.</p></dd> <dt class="blacklight-eds_authors col-md-3">Subjects</dt> <dd class="col-md-9 blacklight-eds_authors">*<searchLink fieldCode="DE" term="%22SILVER+coins%22">SILVER coins</searchLink>, *<searchLink fieldCode="DE" term="%22MONEY%22">MONEY</searchLink>, *<searchLink fieldCode="DE" term="%22HARD+currencies%22">HARD currencies</searchLink>, *<searchLink fieldCode="DE" term="%22POWDER+metallurgy%22">POWDER metallurgy</searchLink>, *<searchLink fieldCode="DE" term="%22METAL+powders%22">METAL powders</searchLink></dd> <dt class="blacklight-eds_languages col-md-3">Abstract</dt> <dd class="col-md-9 blacklight-eds_languages"><p class="truncate-text"> The literary evidence for the use of particulate silver as money and currency material in India is reported. It has been shown that the Sanskrit name of the particulate silver currency-unit Cūrnī (i.e. made up with powdered or particulate material) was in use in some parts of India during the twelfth and thirteenth centuries AD. The possible reasons for using particulate silver as money and currency material, together with methods of its manufacture, are discussed. [ABSTRACT FROM AUTHOR] </p></dd> <dt class="blacklight-eds_authors col-md-3">Published</dt> <dd class="col-md-9 blacklight-eds_authors">2008</dd> <dt class="blacklight-eds_authors col-md-3"><span class="tags-custom">Full Text</span></dt> <dd class="col-md-9 blacklight-eds_authors"><a class="pdf-blue-icon" target="_blank" href="https://doi.org/10.1179/174329008X313351">View/download PDF</a></dd> </dl> </article><article data-document-id="edb__27921796" data-document-counter="5" itemscope="itemscope" itemtype="http://schema.org/Thing" class="blacklight-academic-journal document document-position-5"> <header class="documentHeader row"> <h3 class="index_title document-title-heading col-sm-9 col-lg-10"> <span class="document-counter"> 5. </span> <a data-context-href="/articles/edb__27921796/track?counter=5&document_id=edb__27921796&search_id=56875545" href="/articles/edb__27921796">Model prediction and experimental validation of porosity in metal spray deposit.</a> </h3> <div class="index-document-functions col-sm-3 col-lg-2"> <form class="bookmark-toggle" data-doc-id="edb__27921796" data-present="In Bookmarks" data-absent="Bookmark" data-inprogress="Saving..." action="/bookmarks/edb__27921796" accept-charset="UTF-8" method="post"><input type="hidden" name="_method" value="put" /><input type="hidden" name="authenticity_token" value="il1bkcKexLSA3FSh2tEeFlmPH2VlAAOHNJMzJ1ngUSzQXecMXNwIg/QNCfpoWdu4ynFcsP26TH8viqhRjGPUnA==" /> <input type="hidden" name="catalog_type" id="catalog_type" value="articles" /> <input type="submit" name="commit" value="Bookmark" id="bookmark_toggle_edb__27921796" class="bookmark-add btn btn-outline-secondary" data-disable-with="Bookmark" /> </form> </div> </header> <dl class="document-metadata dl-invert row"> <dt class="blacklight-eds_authors col-md-3">Author</dt> <dd class="col-md-9 blacklight-eds_authors mb-0"> <p class="truncate-text"> Dey, A., Koria, S. C., and Dube, R. K.</p></dd> <dt class="blacklight-eds_authors col-md-3">Subjects</dt> <dd class="col-md-9 blacklight-eds_authors"><searchLink fieldCode="DE" term="%22ATOMIZATION%22">ATOMIZATION</searchLink>, <searchLink fieldCode="DE" term="%22SPRAYING%22">SPRAYING</searchLink>, <searchLink fieldCode="DE" term="%22POROSITY%22">POROSITY</searchLink>, <searchLink fieldCode="DE" term="%22MOMENTUM+%28Mechanics%29%22">MOMENTUM (Mechanics)</searchLink>, <searchLink fieldCode="DE" term="%22ALUMINUM%22">ALUMINUM</searchLink></dd> <dt class="blacklight-eds_languages col-md-3">Abstract</dt> <dd class="col-md-9 blacklight-eds_languages"><p class="truncate-text"> The porosity in the spray deposited material is studied through a mathematical model. In the model, the transport of momentum and heat between the falling droplet and the atomising gas in axial and radial direction is coupled with the packing density of spherical shape particles to determine the porosity in the spray deposited material. The effect of plenum pressure, deposition distance, melt superheat, melt flowrate and radial spreading of the spray on the porosity formation is studied. The variation in the porosity is explained on the basis of mechanism of porosity formation and the proportion of solid/liquid fraction in the spray. Porosity is also measured by performing experiments on spray deposition of aluminium on copper substrate. The measured porosity is found to be slightly higher than the calculated one. The discrepancy is explained on the basis of the microstructure of the spray deposited aluminium. [ABSTRACT FROM AUTHOR] </p></dd> <dt class="blacklight-eds_authors col-md-3">Published</dt> <dd class="col-md-9 blacklight-eds_authors">2007</dd> <dt class="blacklight-eds_authors col-md-3"><span class="tags-custom">Full Text</span></dt> <dd class="col-md-9 blacklight-eds_authors"><a class="pdf-blue-icon" target="_blank" href="https://doi.org/10.1179/174329007X223956">View/download PDF</a></dd> </dl> </article><article data-document-id="edb__23750694" data-document-counter="6" itemscope="itemscope" itemtype="http://schema.org/Thing" class="blacklight-academic-journal document document-position-6"> <header class="documentHeader row"> <h3 class="index_title document-title-heading col-sm-9 col-lg-10"> <span class="document-counter"> 6. </span> <a data-context-href="/articles/edb__23750694/track?counter=6&document_id=edb__23750694&search_id=56875545" href="/articles/edb__23750694">Tribological behaviour of steel backed Al–Sn strip prepared via spray atomisation–deposition–rolling route.</a> </h3> <div class="index-document-functions col-sm-3 col-lg-2"> <form class="bookmark-toggle" data-doc-id="edb__23750694" data-present="In Bookmarks" data-absent="Bookmark" data-inprogress="Saving..." action="/bookmarks/edb__23750694" accept-charset="UTF-8" method="post"><input type="hidden" name="_method" value="put" /><input type="hidden" name="authenticity_token" value="FD6mn+rsZzZ5xji+Z9NyZjpVh5XEW2t3Wllor24dSFSNQXCiIyvXFG+UQTj86cfV/1ttxK0HoHiY9xsM1PWgZw==" /> <input type="hidden" name="catalog_type" id="catalog_type" value="articles" /> <input type="submit" name="commit" value="Bookmark" id="bookmark_toggle_edb__23750694" class="bookmark-add btn btn-outline-secondary" data-disable-with="Bookmark" /> </form> </div> </header> <dl class="document-metadata dl-invert row"> <dt class="blacklight-eds_authors col-md-3">Author</dt> <dd class="col-md-9 blacklight-eds_authors mb-0"> <p class="truncate-text"> Tripathy, M. R., Kumar, B. V. Manoj, Basu, B., Dube, R. K., and Koria, S. C.</p></dd> <dt class="blacklight-eds_authors col-md-3">Subjects</dt> <dd class="col-md-9 blacklight-eds_authors"><searchLink fieldCode="DE" term="%22ALUMINUM+alloys%22">ALUMINUM alloys</searchLink>, <searchLink fieldCode="DE" term="%22BEARINGS+%28Machinery%29%22">BEARINGS (Machinery)</searchLink>, <searchLink fieldCode="DE" term="%22METAL+fatigue%22">METAL fatigue</searchLink>, <searchLink fieldCode="DE" term="%22TRIBOLOGY%22">TRIBOLOGY</searchLink>, <searchLink fieldCode="DE" term="%22MECHANICAL+wear%22">MECHANICAL wear</searchLink></dd> <dt class="blacklight-eds_languages col-md-3">Abstract</dt> <dd class="col-md-9 blacklight-eds_languages"><p class="truncate-text"> In recent times, considerable effort has been put into develop process routes for making steel backed aluminium alloy strips for automotive bearing applications. Al–Sn alloys are considered to be potential candidates owing to their acceptable load bearing capacity with improved fatigue and wear resistance. In the present investigation, Al–xSn (x=0, 10 and 20 wt-%) alloys were spray deposited on a steel substrate, and the resulting laminated strips were subjected to various degrees of warm rolling. The tribological performance of the steel backed Al–Sn strip was evaluated against bearing steel under fretting contacts. The fretting wear behaviour of the steel backed and warm rolled Al–10 wt-%Sn strips exhibits a decrease in wear rate with increasing amount of rolling. Scanning electron microscopy–energy dispersion spectroscopy (SEM–EDS) analyses reveal that the tribo-oxidation and adhesive wear are dominant material removal mechanisms on Al–Sn worn surfaces, while tribo-oxidation predominantly contributes to wear of pure Al. [ABSTRACT FROM AUTHOR] </p></dd> <dt class="blacklight-eds_authors col-md-3">Published</dt> <dd class="col-md-9 blacklight-eds_authors">2007</dd> <dt class="blacklight-eds_authors col-md-3"><span class="tags-custom">Full Text</span></dt> <dd class="col-md-9 blacklight-eds_authors"><a class="pdf-blue-icon" target="_blank" href="https://doi.org/10.1179/174328407X154392">View/download PDF</a></dd> </dl> </article><article data-document-id="asx__17602565" data-document-counter="7" itemscope="itemscope" itemtype="http://schema.org/Thing" class="blacklight-academic-journal document document-position-7"> <header class="documentHeader row"> <h3 class="index_title document-title-heading col-sm-9 col-lg-10"> <span class="document-counter"> 7. </span> <a data-context-href="/articles/asx__17602565/track?counter=7&document_id=asx__17602565&search_id=56875545" href="/articles/asx__17602565">Particulate gold as money and currency material.</a> </h3> <div class="index-document-functions col-sm-3 col-lg-2"> <form class="bookmark-toggle" data-doc-id="asx__17602565" data-present="In Bookmarks" data-absent="Bookmark" data-inprogress="Saving..." action="/bookmarks/asx__17602565" accept-charset="UTF-8" method="post"><input type="hidden" name="_method" value="put" /><input type="hidden" name="authenticity_token" value="65zCi0O0EXSnsr/ahNyknf05+NHnrNHc70t/dRIvKULCEgb+QjyVazgvlX+ovgZFrIlK/eb7K70ZulfaYiJkCg==" /> <input type="hidden" name="catalog_type" id="catalog_type" value="articles" /> <input type="submit" name="commit" value="Bookmark" id="bookmark_toggle_asx__17602565" class="bookmark-add btn btn-outline-secondary" data-disable-with="Bookmark" /> </form> </div> </header> <dl class="document-metadata dl-invert row"> <dt class="blacklight-eds_authors col-md-3">Author</dt> <dd class="col-md-9 blacklight-eds_authors mb-0"> <p class="truncate-text"> Dube, R. K.</p></dd> <dt class="blacklight-eds_authors col-md-3">Subjects</dt> <dd class="col-md-9 blacklight-eds_authors">*<searchLink fieldCode="DE" term="%22GOLD%22">GOLD</searchLink>, *<searchLink fieldCode="DE" term="%22PLACER+deposits%22">PLACER deposits</searchLink>, *<searchLink fieldCode="DE" term="%22MONEY%22">MONEY</searchLink>, *<searchLink fieldCode="DE" term="%22MINERAL+industries%22">MINERAL industries</searchLink>, *<searchLink fieldCode="DE" term="%22METALS%22">METALS</searchLink></dd> <dt class="blacklight-eds_languages col-md-3">Abstract</dt> <dd class="col-md-9 blacklight-eds_languages"><p class="truncate-text"> In ancient times, alluvial placer gold deposits were an important source from which particulate gold was derived by panning, and such naturally occurring gold has been widely used as currency throughout the world. Examples, from ancient to pre-modern times, from Western Africa, the USA and Asia are presented. The Ghana administration was unique in becoming so committed to particulate gold currency that by the late seventeenth or early eighteenth century, existing solid gold currency was being converted into particulate gold. As is discussed, particulate gold was preferred to counter the practice of embedding base metal inside the solid gold currency. [ABSTRACT FROM AUTHOR] </p></dd> <dt class="blacklight-eds_authors col-md-3">Published</dt> <dd class="col-md-9 blacklight-eds_authors">2005</dd> <dt class="blacklight-eds_authors col-md-3"><span class="tags-custom">Full Text</span></dt> <dd class="col-md-9 blacklight-eds_authors"><a class="pdf-blue-icon" target="_blank" href="https://doi.org/10.1179/pom.2005.48.2.116">View/download PDF</a></dd> </dl> </article> </div> </div> </div> <div class='alternate-catalog' data-alternate-catalog="/catalog?q=%22Dube+R%22"> <button type='button' class='alternate-catalog-close close' aria-label="Close"> <i class='fa fa-times-circle'></i> </button> <h3 class='alternate-catalog-title'></h3> <div class='alternate-catalog-body'> <div class='row'> <div class='col-md-6'> <h4 class="alternate-catalog-name"> Catalog </h4> <div class='alternate-catalog-desc'> Books, media, physical & digital resources </div> </div> <div class='col-md-6'> <a class="btn btn-primary" href="/catalog?q=%22Dube+R%22"> See <span class="alternate-catalog-count"%></span> catalog results </a> </div> </div> <div class='row alternate-catalog-facet-section'> <div class='col-md-12'> <ul class="alternate-catalog-facets list-inline"> </ul> </div> </div> </div> </div> <div class="modal fade" id="loginModal" tabindex="-1" role="dialog"> <button type="button" id="loginclose" class="close" data-dismiss="modal" aria-label="Close"> <span aria-hidden="true">×</span> </button> <div class="modal-dialog" role="document"> <h5>Discovery Service for Jio Institute Digital Library</h5> <br /> <p>For full access to our library's resources, please sign in.</p> </div> <div class="login-modal-button-wrapper"> <button class="login-modal-sign-in"> <a rel="nofollow" data-method="post" href="/users/auth/saml">Sign In</a> </button> </div> </div> </section> </div> </main> <footer class="navbar navbar-inverse site-footer" style="position: static;"> <div class="container footer-container"> <div class="row"> <div class="col-xs-12 col-md-3 py-4 align-self-center site-footer-links-column"> <div class="footer-logo center-block"> <a href="https://library.jioinstitute.edu.in"> <img class="logo-img" src="/assets/Jio-DLLogo-b5a8a0808ea64b7ff5d156e304a4a034eee76224caf66c04cead90a411971fad.png" /> </a> </div> </div> <div class="col-xs-12 col-md-8 py-3 pb-5 pb-md-3 site-footer-links-column align-self-center"> <div class="row text-center footer-links-row"> <div class="col-4 col-sm-2"> <div class="navlink"><a href="https://library.jioinstitute.edu.in/contact">Contact</a></div> </div> <div class="col-4 col-sm-3"> <div class="navlink"><a href="https://library.jioinstitute.edu.in/access/covid-19-advisory">Covid-19 Advisory</a></div> </div> <div class="col-4 col-sm-2"> <div class="navlink"><a href="https://library.jioinstitute.edu.in/access/policies">Policies</a></div> </div> </div> </div> </div> </div> <div class="row text-center secondary-footer"> <div class="container"> <div class="col-xs-12 col-md-2 px-0"> <div class="footer-logo"> <a href="https://jioinstitute.edu.in/"> <img class="logo-img" src="/assets/JioLogoWhite-3a250c43ad67a5117225db9885c1ac0b116f92a0df0839e850e68dfbbce66ae7.png" /> </a> </div> </div> <div class="col-md-1 col-4 py-1 py-md-3"> <div class="navlink footer-navlink"><a href="https://jioinstitute.edu.in/about">About Us</a></div> </div> <div class="col-md-1 col-4 py-1 py-md-3"> <div class="navlink footer-navlink"><a href="https://jioinstitute.edu.in/academics">Academics</a></div> </div> <div class="col-md-1 col-4 py-1 py-md-3"> <div class="navlink footer-navlink"><a href="https://jioinstitute.edu.in/research-overview">Research</a></div> </div> <div class="col-md-1 col-4 py-1 py-md-3 pl-0 pr-0"> <div class="navlink footer-navlink"><a href="https://jioinstitute.edu.in/campus-life"> Campus Life</a></div> </div> <div class="col-md-1 col-4 py-1 py-md-3"> <div class="navlink footer-navlink"><a href="https://jioinstitute.edu.in/contacts"> Contact</a></div> </div> <div class="col-md-4 col-4 py-1 py-md-3"> <div class="navlink footer-navlink float-right"><a href="https://jioinstitute.edu.in/terms-conditions">T&C</a></div> </div> <div class="col-md-1 col py-1 py-md-3 pl-0"> <div class="navlink footer-navlink float-right"><a href="https://jioinstitute.edu.in/privacy-policy"> Privacy Policy</a></div> </div> </div> </div> <!-- Global site tag (gtag.js) - Google Analytics --> <script async src=https://www.googletagmanager.com/gtag/js?id=G-R4B0KJQ5EY></script> <script> window.dataLayer = window.dataLayer || []; function gtag(){dataLayer.push(arguments);} gtag('js', new Date()); gtag('config', 'G-R4B0KJQ5EY'); </script> </footer> <div id="blacklight-modal" class="modal fade" tabindex="-1" role="dialog" aria-hidden="true"> <div class="modal-dialog modal-lg" role="document"> <div class="modal-content"> </div> </div> </div> </body> </html>