Kristina Rogers Senior Associate, Thornton Tomasetti Portland, ME
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L'industrie
Ingénieur
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Services offerts
Structural Engineering
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A de l'expérience avec ces types de bâtiments:
Assemblée (Culte, Restaurant, Théâtre), Bureau, Civique (Loisir), Éducatif, Usine/Industriel, Gouvernement, Hôtel/Motel, Institutionnel, Commercial (Détail), Usage mixte, Multifamilial (Appartements, Condos), Logement étudiant, Résidentiel Innovant Personnalisé
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A de l'expérience avec ces types de matériaux:
Bois massif, Bois lamellé-croisé, Bois Lamellé Cloué, Bois Lamellé Goujon, Bois Lamellé-Collé, Charpente en bois / Poteau et poutre, Platelage en bois lourd, Hybride, Bois composite structurel, Systèmes composites bois-béton, Lumière-Cadre, poutres en I, Fermes à âme ouverte, Revêtements, Fixations / Quincaillerie
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A de l'expérience avec ces types de construction:
I-A, I-B, II-A, II-B, III-A, III-B, IV-A, IV-B, IV-C, IV-HT, V-A, V-B
Kristina is a Structural Engineer at Thornton Tomasetti in Portland, Maine, with over a decade of experience in commercial, office, residential, and educational projects. Since discovering the potential of Mass Timber in 2018, she has dedicated her career to advancing its design and application.
Her expertise is reflected in landmark projects such as the Intro Cleveland a 9-story mixed use building in Cleveland, Ohio, the Hudson Valley Shakespeare Festival, a 14,000 SF curved glulam pavilion slated for construction in 2024 and the two-story mass timber wing at the future Learning, Research and Collaboration Building at the Roux Institute in Portland, Maine.
Kristina is dedicated to reducing embodied carbon in the building industry and has held leadership roles within the Embodied Carbon Network and AIA NY’s Committee on The Environment. Kristina holds a Bachelor of Science degree in Civil Engineering from the University of Vermont and is a licensed professional engineer. She has also shared her knowledge as a Visiting Professor at the Pratt Graduate School of Architecture and Parsons, guiding students in innovative structural design.