K. B. Nakshatrala

University of Houston

H-index: 22

North America-United States

About K. B. Nakshatrala

K. B. Nakshatrala, With an exceptional h-index of 22 and a recent h-index of 15 (since 2020), a distinguished researcher at University of Houston, specializes in the field of Continuum Theories, Porous Media, Vascular-based Thermal Regulation, Modeling Multi-functional Composites, Scientific Computing.

His recent articles reflect a diverse array of research interests and contributions to the field:

Effect of temperature-dependent material properties on thermal regulation in microvascular composites

Dynamic properties of double porosity/permeability model

Importance of ice elasticity in simulating tide-induced grounding line variations along prograde bed slopes

Experimental study of passive seismic vibration isolation by trench-type periodic barrier

A methodology for measuring heat transfer coefficient and self-similarity of thermal regulation in microvascular material systems

Modeling thermal regulation in thin vascular systems: A mathematical analysis

CoolPINNs: A physics-informed neural network modeling of active cooling in vascular systems

Configuration-independent thermal invariants under flow reversal in thin vascular systems

K. B. Nakshatrala Information

University	University of Houston
Position	___
Citations(all)	1280
Citations(since 2020)	687
Cited By	860
hIndex(all)	22
hIndex(since 2020)	15
i10Index(all)	37
i10Index(since 2020)	26
Email	Access Email
University Profile Page	University of Houston
Google Scholar	View Google Scholar Profile

K. B. Nakshatrala Skills & Research Interests

Continuum Theories

Porous Media

Vascular-based Thermal Regulation

Modeling Multi-functional Composites

Scientific Computing

Top articles of K. B. Nakshatrala

Title	Journal	Author(s)	Publication Date
Effect of temperature-dependent material properties on thermal regulation in microvascular composites	arXiv preprint arXiv:2401.03103	K Adhikari JF Patrick KB Nakshatrala	2024/1/6
Dynamic properties of double porosity/permeability model	Journal of Applied Mechanics	Kalyana Babu Nakshatrala	2024/1/24
Importance of ice elasticity in simulating tide-induced grounding line variations along prograde bed slopes	EGUsphere	Natalya Maslennikova Pietro Milillo Kalyana Babu Nakshatrala Roberto Ballarini Aaron Stubblefield ...	2024/4/15
Experimental study of passive seismic vibration isolation by trench-type periodic barrier	Engineering Structures	Nagesh Ramaswamy Bhagirath Joshi Jiaji Wang Xiaoliang Li FY Menq ...	2023/2/1
A methodology for measuring heat transfer coefficient and self-similarity of thermal regulation in microvascular material systems	International Journal of Heat and Mass Transfer	Urmi Devi Sandeep R Kumar Kalyana B Nakshatrala Jason F Patrick	2023/12/15
Modeling thermal regulation in thin vascular systems: A mathematical analysis	Communications in Computational Physics	K. B. Nakshatrala	2023
CoolPINNs: A physics-informed neural network modeling of active cooling in vascular systems	Applied Mathematical Modelling	Nimish V Jagtap Maruti Kumar Mudunuru Kalyana B Nakshatrala	2023/10/1
Configuration-independent thermal invariants under flow reversal in thin vascular systems	PNAS nexus	Kalyana B Nakshatrala Kripa Adhikari Sandeep Rajendra Kumar Jason F Patrick	2023/8
Topological effects of 3D-printed copolymer interlayers on toughening and in situ self-healing in laminated fiber-composites	Composites Science and Technology	Jack S Turicek Alexander D Snyder Kalyana B Nakshatrala Jason F Patrick	2023/7/28
Thermal regulation in thin vascular systems: A sensitivity analysis	arXiv preprint arXiv:2303.06708	KB Nakshatrala K Adhikari	2023/3/12
How to pose material design problems for flow through porous media applications? Sensitivity of dissipation rate to medium's permeability holds the key	Physics of Fluids	Kalyana B Nakshatrala	2022/2/3
A modeling framework for coupling plasticity with species diffusion	Communications in Computational Physics	Mohammad S Joshaghani and K. B. Nakshatrala	2022
A deep learning modeling framework to capture mixing patterns in reactive-transport systems	Communications in Computational Physics	Nimish V Jagtap Maruti Kumar Mudunuru Kalyana Babu Nakshatrala	2022
Prolonged in situ self-healing in structural composites via thermo-reversible entanglement	Nature Communications	Alexander D Snyder Zachary J Phillips Jack S Turicek Charles E Diesendruck Kalyana B Nakshatrala ...	2022/10/31
Active isolation tests of metamaterial-based barriers and foundation	Engineering Structures	Jiaji Wang Hsuan Wen Huang Benchen Zhang F.-Y. Menq Kalyana Babu Nakshatrala ...	2022/4
Field experimental investigation on broadband vibration mitigation using metamaterial-based barrier-foundation system	Soil Dynamics and Earthquake Engineering	Benchen Zhang Hsuan Wen Huang Farnyuh Menq JiajiWang Kalyana Babu Nakshatrala ...	2022/4
Shapley values and machine learning to characterize metamaterials for seismic applications	arXiv preprint arXiv:2108.00493	Dolunay Oniz YL Mo Kalyana B Nakshatrala	2021/8/1
On boundedness and growth of unsteady solutions under the double porosity/permeability model	Transport in Porous Media	KB Nakshatrala	2021/1
Effect of viscous shearing stresses on optimal material designs for flow of fluids through porous media	Physics of Fluids	Tejasree Phatak Kalyana B Nakshatrala	2021/6/1
On optimal designs using topology optimization for flow through porous media applications	Transport in Porous Media	T Phatak KB Nakshatrala	2021/6