[BNC-all] FW: NEW LINK: John Williams/Boeing Virtual Seminar (Today, 9am)

Thu Jan 20 09:27:05 EST 2022

Sorry about the problem

NEW LINK
https://purdue-edu.zoom.us/j/92036338991

From: Shakouri, Ali
Sent: Thursday, January 20, 2022 8:17 AM
To: Shakouri, Ali <shakouri at purdue.edu<mailto:shakouri at purdue.edu>>
Subject: John Williams/Boeing Virtual Seminar (Today, 9am)

Dear All,

We will have a special SMART seminar later today Thursday Jan. 20, 2022 (9-10:30am EST). Dr. John Williams, who is Technical Fellow at Boeing and Boeing’s representative at the Manufacturing USA Institute NextFlex, will give a virtual talk about their research in Flexible Hybrid Electronics (see below the abstract).

This is a good opportunity to learn about industry interest in this area. Please note that this seminar won’t be recorded and it is only available for live discussion (~45min seminar + 45min questions and answers).

Best regards,
Ali

Flexible Hybrid Electronics - Process Development and Applications

John Williams, Ph.D., Technical Fellow
Boeing Research and Technology, Huntsville, AL 35824
(256) 937–5904, john.d.williams14 at boeing.com<mailto:john.d.williams14 at boeing.com>

Time: Thursday Jan 20, 2022 09:00-10:30 AM EST

Boeing is actively engaged in the development of Flexible Hybrid Electronics.  We began with single layer processes and have expanded rapidly prototype development of multilayer flexible printed circuit boards (Flex-PCBs) for size weight power and cost saving applications. Flex PCBs allow electronics to be wrapped onto cylindrical or bi-axial curved surfaces.  Conventional Flex PCBs contain either one to four copper layers with limited electronic packaging.  Most devices are bonded to rigid boards that contain complex packaged electronics. Boeing’s processes, however, apply copper clad or printed inks on polyimide substrates to build fully functional flex-PCBs up to eight conductive layers thick.  Thus allowing antennas, sensors, communication links, and radars to be placed directly onto the surface of a vehicle.  Similarly, power routing, and microcontrollers can conform to surfaces or interior cavities. This technology represents a transformative approach to packaging PCBs in aerospace applications.

Our team has demonstrated this capability on RF boards with no less than 500 through vias, 100 buried vias, and 50 electronically packaged components. Complex boards can be turned in days without electroplating. Pyralux AP polyimide substrates from DuPont, Taconic, and 3M bonding adhesive achieves alignment errors of 2 mil or less over an 8 x 10 square inch area. Kapton substrates can also be used with additional alignment error. Patterning can be completed with either copper clad material or silver ink. Vias are filled using conductive inks. Electronic packaging is currently performed using anisotropic conductive epoxy, but industrially standard solder attach is also available for copper clad and plated devices. Cost models have been completed for printed silver devices, documenting the manufacturability from Manufacturing Readiness Levels (MRL) 4 to 6. We are currently examining pilot capability of different suppliers to manufacture devices at volumes needed for commercial activities.

[clip_image001]John D. Williams received his PhD in Engineering Science from LSU in 2004 and became a NextFlex Fellow in 2019 and a Boeing Technical Fellow in 2022. John has 17 years of Principal Investigator experience in device fabrication and is currently the principal investigator on numerous NextFlex contracts focused on antenna arrays and multilayer printing on curved surfaces. John is currently developing Additive Electronics Technologies (AET) for use on Boeing platforms.  From 2004 to 2014 he served as a Senior Member of the Technical Staff at Sandia National Laboratories, and as an Assistant Professor of Electrical, Optical and Material Engineering at the University of Alabama in Huntsville (UAH). He joined Boeing in 2014 to found the Boeing Research and Technology AET effort in Huntsville where his team performs novel research in microwave filters, antennas, and flexible hybrid electronic (FHE) sensors by maturing manufacturing capabilities, implementing modeling and simulation, and developing prototype demonstrators.

John is the principal / co-principal investigator for 4 concurrent NextFlex MII Projects. He has led, or co-led, 7 other NextFlex projects, serves on the NextFlex Technical Council, and is an industry co-lead for the NextFlex Materials Technical Working Group.  He also serves as an industrial committee member for the ManTech JDMTP Electronics Subpanel.  In 2021 he served on the organizing committee for the IEEE International Flexible Electronics Technologies Conference (IFETC).  John has published more than 30 peer reviewed articles, over 30 US patents, 17 international patents, 4 Boeing trade secrets, and dozens of pending patents. John’s Boeing related inventions on microwave filters, conformal antennas, hyperspectral metrology, and cryogenic cooling of MW class EMI filters are currently being developed for multiple BR&T efforts.

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