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David I. Bigio

David I. Bigio

University of Maryland, Baltimore

H-index: 21

North America-United States

About David I. Bigio

David I. Bigio, With an exceptional h-index of 21 and a recent h-index of 8 (since 2020), a distinguished researcher at University of Maryland, Baltimore, specializes in the field of Polymer Processing, Hot Melt Extrusion, Polymer Based Additive Manufacturing.

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

A new measure for drop deformation in extensional flows at low Reynolds number

Environmentally and socially responsible engineering-assessing student empowerment

Morphing‐Nozzle 3D Printing: A 3D Printed Morphing Nozzle to Control Fiber Orientation during Composite Additive Manufacturing (Adv. Mater. Technol. 1/2021)

Effect of inertia on capillary-driven breakup of drops surrounded by another fluid

A 3D printed morphing nozzle to control fiber orientation during composite additive manufacturing

Coating Kinetics of Fluoropolymer Process Aids for Sharkskin Elimination: The Role of Domain Size

Modeling shear-influenced deformation of drops in a converging channel using lubrication theory

Velocity of suspended fluid particles in a low Reynolds number converging flow

David I. Bigio Information

University

Position

Associate Professor of Mechanical Engineering

Citations(all)

1663

Citations(since 2020)

484

Cited By

1443

hIndex(all)

21

hIndex(since 2020)

8

i10Index(all)

40

i10Index(since 2020)

8

Email

Access Email

University Profile Page

University of Maryland, Baltimore

Google Scholar

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David I. Bigio Skills & Research Interests

Polymer Processing

Hot Melt Extrusion

Polymer Based Additive Manufacturing

Top articles of David I. Bigio

Title

Journal

Author(s)

Publication Date

A new measure for drop deformation in extensional flows at low Reynolds number

Physics of Fluids

David I Bigio

Aditya N Sangli

2024/2/1

Environmentally and socially responsible engineering-assessing student empowerment

Natasha Andrade

Elisabeth Smela

Vincent Nguyen

David Bigio

Adjoa Egyen-Davis

...

2022/8/23

Morphing‐Nozzle 3D Printing: A 3D Printed Morphing Nozzle to Control Fiber Orientation during Composite Additive Manufacturing (Adv. Mater. Technol. 1/2021)

Advanced Materials Technologies

Connor D Armstrong

Noah Todd

Abdullah T Alsharhan

David I Bigio

Ryan D Sochol

2021/1

Effect of inertia on capillary-driven breakup of drops surrounded by another fluid

Physics of Fluids

Aditya N Sangli

Amir Riaz

David I Bigio

2021/11/1

A 3D printed morphing nozzle to control fiber orientation during composite additive manufacturing

Advanced Materials Technologies

Connor D Armstrong

Noah Todd

Abdullah T Alsharhan

David I Bigio

Ryan D Sochol

2021/1

Coating Kinetics of Fluoropolymer Process Aids for Sharkskin Elimination: The Role of Domain Size

D Bigio

Mathurin G Meillon

S B Kharchenko

David C Morgan

Hui Zhou

...

2021/10/12

Modeling shear-influenced deformation of drops in a converging channel using lubrication theory

APS Division of Fluid Dynamics Meeting Abstracts

Aditya Sangli

David Bigio

2021

Velocity of suspended fluid particles in a low Reynolds number converging flow

Physics of Fluids

Aditya N Sangli

David I Bigio

2021/1/1

The Effect of Viscosity Ratio on Inertial Capillary Flow in Long Viscous Filaments

APS Division of Fluid Dynamics Meeting Abstracts

Aditya N Sangli

David I Bigio

Amir Riaz

2020

See List of Professors in David I. Bigio University(University of Maryland, Baltimore)