Tristan Giesa
Tristan Giesa
Head of Mechanical Engineering at Constructure
Email verificata su - Home page
Citata da
Citata da
Nanoconfinement of spider silk fibrils begets superior strength, extensibility, and toughness
T Giesa, M Arslan, NM Pugno, MJ Buehler
Nano letters 11 (11), 5038-5046, 2011
A review of combined experimental and computational procedures for assessing biopolymer structure–process–property relationships
G Gronau, ST Krishnaji, ME Kinahan, T Giesa, JY Wong, DL Kaplan, ...
Biomaterials 33 (33), 8240-8255, 2012
Secondary structure transition and critical stress for a model of spider silk assembly
T Giesa, CC Perry, MJ Buehler
Biomacromolecules 17 (2), 427-436, 2016
Category theoretic analysis of hierarchical protein materials and social networks
DI Spivak, T Giesa, E Wood, MJ Buehler
PLoS One 6 (9), e23911, 2011
Coupled continuum and discrete analysis of random heterogeneous materials: elasticity and fracture
LS Dimas, T Giesa, MJ Buehler
Journal of the Mechanics and Physics of Solids 63, 481-490, 2014
Aqueous Peptide–TiO2 Interfaces: Isoenergetic Binding via Either Entropically or Enthalpically Driven Mechanisms
AM Sultan, ZC Westcott, ZE Hughes, JP Palafox-Hernandez, T Giesa, ...
ACS applied materials & interfaces 8 (28), 18620-18630, 2016
Nanoconfinement and the Strength of Biopolymers
T Giesa, MJ Buehler
Annual review of biophysics 42, 651-673, 2013
What's Inside the Box?–Length‐Scales that Govern Fracture Processes of Polymer Fibers
T Giesa, NM Pugno, JY Wong, DL Kaplan, MJ Buehler
Advanced Materials 26 (3), 412-417, 2014
Reoccurring patterns in hierarchical protein materials and music: the power of analogies
T Giesa, DI Spivak, MJ Buehler
BioNanoScience 1 (4), 153-161, 2011
Unraveling the molecular requirements for macroscopic silk supercontraction
T Giesa, R Schuetz, P Fratzl, MJ Buehler, A Masic
ACS nano 11 (10), 9750-9758, 2017
Natural stiffening increases flaw tolerance of biological fibers
T Giesa, NM Pugno, MJ Buehler
Physical Review E 86 (4), 041902, 2012
Category theory based solution for the building block replacement problem in materials design
T Giesa, DI Spivak, MJ Buehler
Advanced Engineering Materials 14 (9), 810-817, 2012
Random bulk properties of heterogeneous rectangular blocks with lognormal Young's Modulus: Effective moduli
LS Dimas, D Veneziano, T Giesa, MJ Buehler
Journal of Applied Mechanics 82 (1), 2015
The nature of the silicaphilic fluorescence of PDMPO
M Parambath, QS Hanley, FJ Martin-Martinez, T Giesa, MJ Buehler, ...
Physical Chemistry Chemical Physics 18 (8), 5938-5948, 2016
Probability distribution of fracture elongation, strength and toughness of notched rectangular blocks with lognormal Young's modulus
LS Dimas, D Veneziano, T Giesa, MJ Buehler
Journal of the Mechanics and Physics of Solids 84, 116-129, 2015
Matriarch: a python library for materials architecture
T Giesa, R Jagadeesan, DI Spivak, MJ Buehler
ACS biomaterials science & engineering 1 (10), 1009-1015, 2015
Nano and Cell Mechanics: Fundamentals and Frontiers
G Bao, HD Espinosa
Wiley, 2013
Categorical prototyping: incorporating molecular mechanisms into 3D printing
DB Brommer, T Giesa, DI Spivak, MJ Buehler
Nanotechnology 27 (2), 024002, 2015
Conventional Demolition of Cooling Towers using a Progressive Damage Model
T Giesa, M Rost
BETON-UND STAHLBETONBAU 115 (6), 416-423, 2020
Konventionelle Abbruchplanung von Khltrmen unter Verwendung eines progressiven Schadensmodells
T Giesa, M Rost
Beton‐und Stahlbetonbau 115 (6), 416-423, 2020
Il sistema al momento non pu eseguire l'operazione. Riprova pi tardi.
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