Search Results - dhruv+bhate

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Entropy-based Method for Multi-Physics Optimization of Additively Manufactured Cellular Material
Invention Description The advancements in additive manufacturing (AM) have enabled the creation of complex, architected cellular materials (metamaterials) with extraordinary properties, surpassing traditional manufacturing capabilities. These materials offer significant improvements in weight reduction, thermal-fluid efficiency, and mechanical strength,...
Published: 3/26/2026   |   Updated: 3/26/2026   |   Inventor(s): Tyler Smith, Dhruv Bhate
Keywords(s):  
Category(s): Advanced Materials/Nanotechnology, Manufacturing/Construction/Mechanical, Physical Science
Spatial-Temporal Early Fatigue Prediction in Additively Manufactured Metals
Invention Description Additive manufacturing (AM) can transform the production of engineered components, offering performance advantages over traditional methods. Metallic cellular materials produced by AM are of growing interest for aerospace, biomedical, and automotive applications due to their lightweight and multifunctional nature. Fatigue life...
Published: 2/26/2026   |   Updated: 1/7/2026   |   Inventor(s): Tyler Smith, Dhruv Bhate, Shenghan Guo
Keywords(s):  
Category(s): Advanced Materials/Nanotechnology, Physical Science, Manufacturing/Construction/Mechanical
Method for Designing Ultra-Compliant Interwoven Meta-Materials
Background Additive manufacturing has contributed to the growth of technology to fabricate structures that have enhanced performance in a wide range of applications. One example family of these structures is cellular, or meta-materials, which include honeycombs, foams, and lattices. These materials enable novel properties that exploit the nature of...
Published: 2/26/2026   |   Updated: 5/4/2023   |   Inventor(s): Yash Mistry, Siying Liu, Mandar Shinde, Xiangfan Chen, Dhruv Bhate, Nikhilesh Chawla, Swapnil Morankar, Clint Penick
Keywords(s): Mechanical and Manufacturing
Category(s): Physical Science, Manufacturing/Construction/Mechanical, Advanced Materials/Nanotechnology, Energy & Power