Inventor profile of:

Adrian Lew

City:

Stanford, California

Country:

United States

Published Applications:

12

Last publication date:

2025-02-20

Top Assignees for applications by Adrian Lew

The entities that hold a legal rights for patent applications filed by inventor Lew Adrian:

Recent patent applications by Lew Adrian

Adrian Lew from Stanford, US has applied for patents for these inventions. The list has both pending applications and granted patents:

#1 | 2025-02-20
US20250058376A1
Performing operations; transporting

LASER-ASSISTED CONTROLLED HEATING HOTSPOT MITIGATION FOR 3D PRINTING

#2 | 2024-12-26
US20240424568A1
Performing operations; transporting

NON-UNIFORM BEAMS FOR TAILORING HEAT DEPOSITION IN LASER-ASSISTED ADDITIVE MANUFACTURING

#3 | 2024-06-27
US20240211655A1
Physics

MODELING OF LIQUID-GAS MENISCUS DYNAMICS FOR ARBITRARY NOZZLE GEOMETRIES

#4 | 2024-03-05
US17185826
Performing operations; transporting

Optimized nozzle design for drop-on-demand printers and methods thereof

#5 | 2023-12-21
US20230410278A1
Physics

TECHNIQUES FOR BINARIZING IMAGES TO DETERMINE JETTING QUALITY IN ADDITIVE MANUFACTURING

#6 | 2023-12-21
US20230410277A1
Physics

Image processing techniques for jetting quality classification in additive manufacturing

#7 | 2023-11-09
US20230356302A1
Performing operations; transporting

MULTI-FIDELITY APPROACH TO MODELING OF MOLTEN DROPLET COALESCENCE IN ADDITIVE MANUFACTURING

#8 | 2022-12-29
US20220414380A1
Physics

Characterizing liquid reflective surfaces in 3D liquid metal printing

#9 | 2022-12-29
US20220410273A1
Performing operations; transporting

Characterizing liquid reflective surfaces in 3D liquid metal printing

#10 | 2022-08-25
US20220266513A1
Performing operations; transporting

DROP-ON-DEMAND PRINTER HAVING OPTIMIZED NOZZLE DESIGN

#11 | 2022-08-25
US20220266512A1
Performing operations; transporting

Energy dissipative nozzles for drop-on-demand printing and methods thereof

#12 | 2013-09-26
US20130249821A1
Physics

Method and System for Virtual Keyboard

InventorID:

452815 ⎘