Maryam Shakiba News /aerospace/ en Seminar - Physics-based Modeling of Materials: Finite Element and Data-Driven Approaches - Sept. 15 /aerospace/2023/09/07/seminar-physics-based-modeling-materials-finite-element-and-data-driven-approaches-sept <span>Seminar - Physics-based Modeling of Materials: Finite Element and Data-Driven Approaches - Sept. 15</span> <span><span>Anonymous (not verified)</span></span> <span><time datetime="2023-09-07T00:00:00-06:00" title="Thursday, September 7, 2023 - 00:00">Thu, 09/07/2023 - 00:00</time> </span> <div> <div class="imageMediaStyle focal_image_wide"> <img loading="lazy" src="/aerospace/sites/default/files/styles/focal_image_wide/public/article-thumbnail/aerospace_faculty_photos_pc0311.jpg.jpg?h=4e2c8ecc&amp;itok=y4_XoFXZ" width="1200" height="600" alt="Maryam Shakiba"> </div> </div> <div role="contentinfo" class="container ucb-article-categories" itemprop="about"> <span class="visually-hidden">Categories:</span> <div class="ucb-article-category-icon" aria-hidden="true"> <i class="fa-solid fa-folder-open"></i> </div> <a href="/aerospace/taxonomy/term/179"> Seminar </a> </div> <div role="contentinfo" class="container ucb-article-tags" itemprop="keywords"> <span class="visually-hidden">Tags:</span> <div class="ucb-article-tag-icon" aria-hidden="true"> <i class="fa-solid fa-tags"></i> </div> <a href="/aerospace/taxonomy/term/466" hreflang="en">Maryam Shakiba News</a> </div> <div class="ucb-article-content ucb-striped-content"> <div class="container"> <div class="paragraph paragraph--type--article-content paragraph--view-mode--default"> <div class="ucb-article-content-media ucb-article-content-media-above"> <div> <div class="paragraph paragraph--type--media paragraph--view-mode--default"> <div> <div class="imageMediaStyle large_image_style"> <img loading="lazy" src="/aerospace/sites/default/files/styles/large_image_style/public/article-image/aerospace_faculty_photos_pc0305.jpg.jpg?itok=_wOyAj0A" width="1500" height="1125" alt="Maryam Shakiba"> </div> </div> </div> </div> </div> <div class="ucb-article-text d-flex align-items-center" itemprop="articleBody"> <div><p class="lead text-align-center"><a href="/aerospace/node/5176" rel="nofollow">Maryam Shakiba</a><br> Assistant Professor, Smead Aerospace<br> Friday, Sept. 15 | 10:40 a.m. | AERO 120</p> <p><strong>Abstract:</strong> This presentation discusses computational modeling of complex materials behaviors under multi-physics conditions for Aerospace applications. We develop chemistry, physics, and mechanics-based constitutive equations to explain complex systems. Then, we devise high-fidelity numerical ap-proaches and mechanistic machine learning to solve our problems.</p> <p>The first part of the presentation focuses on progressive damage in fiber-reinforced composites. In such composites, cracks initiate around the fibers aligned transversely to the loading direction. The transverse cracks can cause leakage in specific applications or progress to inter-ply delamination and catastrophic failure. We integrate an efficient numerical framework with robust and accurate constitutive equations to study transverse behavior and multiple cracking of two-dimensional representations of fiber-reinforced composite laminates. We then develop deep learning frameworks to predict the elastic and post-failure full-field stress distribution and the crack pattern in two-dimensional representations of the composites based on their microstructures.</p> <p>The second part of the presentation focuses on developing chemistry, physics, and mechanics-based constitutive equations to predict the stress and brittle failure responses of polymeric materials under multi-physics degradation. We connect the changes in the macromolecular network of materials due to multi-physics conditioning to their mechanical responses. The changes in the macromolecular network are obtained based on chemical characterization tests. The obtained constitutive equations predict the stress-strain response until failure with phase-field to capture the induced brittle failure. The constitutive equations are verified versus independent mechanical tests available in the literature for different types of materials.</p> <p><strong>Bio: </strong>Maryam Shakiba is an assistant professor at the Aerospace Engineering Sciences Department at the Â鶹ÊÓƵ. Before joining CU Boulder, she was and assistant professor at Virginia Tech and a Postdoctoral Research Associate at the University of Illinois at Urbana-Champaign. She received her Ph.D. from Texas A&amp;M University and her B.S. and M.S. degrees from Tehran Polytechnic. Shakiba's group develops physics, chemistry, and mechanics-based constitutive equations to simulate multi-physics conditions for different advanced materials. The group also devises high-fidelity as well as mechanistic machine-learning approaches to solve engineering problems. Our goals are to (1) de-velop theoretical frameworks to understand advanced material responses under extreme multi-factor conditions and (2) integrate the theoretical framework with machine learning approaches, as physics-based machine learning is the key technology to creating true digital twins. Shakiba is the recipient of the AFOSR Young Investigator Program (YIP) award to investigate additively manufactured compos-ites for high-temperature applications and the NSF CAREER award to understand the multi-physics mechanisms that cause macroplastics fragmentation and generate microplastics.</p></div> </div> </div> </div> </div> <h2> <div class="paragraph paragraph--type--ucb-related-articles-block paragraph--view-mode--default"> <div>Off</div> </div> </h2> <div>Traditional</div> <div>0</div> <div>On</div> <div>White</div> Thu, 07 Sep 2023 06:00:00 +0000 Anonymous 5501 at /aerospace Meet Assistant Professor Maryam Shakiba /aerospace/2022/08/15/meet-assistant-professor-maryam-shakiba <span>Meet Assistant Professor Maryam Shakiba</span> <span><span>Anonymous (not verified)</span></span> <span><time datetime="2022-08-15T09:17:58-06:00" title="Monday, August 15, 2022 - 09:17">Mon, 08/15/2022 - 09:17</time> </span> <div role="contentinfo" class="container ucb-article-tags" itemprop="keywords"> <span class="visually-hidden">Tags:</span> <div class="ucb-article-tag-icon" aria-hidden="true"> <i class="fa-solid fa-tags"></i> </div> <a href="/aerospace/taxonomy/term/466" hreflang="en">Maryam Shakiba News</a> </div> <div class="ucb-article-content ucb-striped-content"> <div class="container"> <div class="paragraph paragraph--type--article-content paragraph--view-mode--default"> <div class="ucb-article-content-media ucb-article-content-media-above"> <div> <div class="paragraph paragraph--type--media paragraph--view-mode--default"> <div> <div class="imageMediaStyle large_image_style"> <img loading="lazy" src="/aerospace/sites/default/files/styles/large_image_style/public/article-image/maryam_shakiba.jpg?itok=C2W7qy6P" width="1500" height="1001" alt="Maryam Shakiba"> </div> </div> </div> </div> </div> <div class="ucb-article-text d-flex align-items-center" itemprop="articleBody"> <div><p>Maryam Shakiba is joining the Ann and H.J. Smead Department of Aerospace Engineering Sciences in August 2022 as an assistant professor.</p> <p>Before joining CU Boulder, she was an assistant professor at Virginia Tech. While at Virginia Tech, she was recognized with an AFOSR Young Investigator Program (YIP) award, and three NSF awards, including the NSF CAREER award.</p> <p>Her research focuses on computational modeling of high-performance materials under coupled effects of mechanical loading and extreme conditions.</p> <p>Her research goal is twofold. First, developing theoretical frameworks to understand advanced material responses under extreme multi-physics conditions. Second, integrating the theoretical framework with machine learning approaches as physics-based machine learning is key to creating true digital twins.</p> <p>This combination will enable the design of high-performance, smart and multi-functional materials. Moreover, such improved physics, chemistry, mechanic, and data-based models allow the address of challenges such as manufacturing innovative designs for extreme conditions and creating digital twins for efficient autonomy.</p> <p>She has been working in collaboration with Mechanical Engineers, Materials Scientists, and Chemists to design high-temperature resistant and additively manufactured composites, create fatigue-resistant superelastic composites for infrastructure applications, retrofit structures under a highly corrosive environment, and tackle plastic degradation and pollution in the ocean and atmosphere.</p> <p>Shakiba earned a Bachelor and Master’s of Science in Civil Engineering from The University of Amirkabir and earned her Doctor of Philosophy in Structural Engineering from Texas A&amp;M University in December 2013. Then, she was a post-doctoral research associate at the University of Illinois at Urbana-Champaign, working on a project in collaboration with the Air Force Research Lab (AFRL) and funded by the AFOSR.</p></div> </div> </div> </div> </div> <h2> <div class="paragraph paragraph--type--ucb-related-articles-block paragraph--view-mode--default"> <div>Off</div> </div> </h2> <div>Traditional</div> <div>0</div> <div>On</div> <div>White</div> Mon, 15 Aug 2022 15:17:58 +0000 Anonymous 5194 at /aerospace