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Thursday, July 25
 

6:30am EDT

Breakfast
Thursday July 25, 2024 6:30am - 8:30am EDT
Thursday July 25, 2024 6:30am - 8:30am EDT
Hotel Lobby Area

8:00am EDT

Navy Only Meeting
Thursday July 25, 2024 8:00am - 12:00pm EDT
Navy Only Meeting
Thursday July 25, 2024 8:00am - 12:00pm EDT
Carolina Ballroom - B

8:00am EDT

CMS Certification Exam
Thursday July 25, 2024 8:00am - 12:00pm EDT
CMSC Committee
avatar for Thomas Kinnare

Thomas Kinnare

CMS Certification Chairman, ECM Global Measurement Solutions
After rolling like a bad penny across a wide range of industries for 15 years, Tom landed at East Coast Metrology (ECM), where he has spent nearly 20 fruitful years laboring to bestow the blessings of dimensional metrology on clients at a global level.As a Principal Engineer at ECM... Read More →
Thursday July 25, 2024 8:00am - 12:00pm EDT
Fairway Ballroom - B

8:00am EDT

Registration / Check-In for Attendees
Thursday July 25, 2024 8:00am - 3:00pm EDT
Thursday July 25, 2024 8:00am - 3:00pm EDT
Rotunda (Registration South)

8:00am EDT

Exhibit Hall Open for Vendors
Thursday July 25, 2024 8:00am - 6:00pm EDT
Thursday July 25, 2024 8:00am - 6:00pm EDT
Concord Convention Hall - E F

8:15am EDT

Conference Updates
Thursday July 25, 2024 8:15am - 8:30am EDT
CMSC Committee
avatar for Bob Elliott

Bob Elliott

Executive Committee Vice Chair
Bob Elliott is a senior staff test engineer in the Precision Alignment Lab (PAL) for Lockheed Martin Space Systems in Sunnyvale, CA. As a member of PAL for 20 years Bob has had opportunities to solve many diverse metrology challenges on complex spacecraft. In 2011 Bob led the PAL... Read More →
avatar for Justin Novak

Justin Novak

Executive Committee Chair, Newport News Shipbuilding
Justin Novak is a Supervisor at Newport News Shipbuilding, where he has been active in the Metrology field for 14 years. He graduated from the NNS Apprentice School in 2008, earning the Charles F Bailey Award for academic excellence, and received an Associate’s Degree in Mechanical... Read More →
Thursday July 25, 2024 8:15am - 8:30am EDT
Concord Convention Hall - A B C D

8:30am EDT

Keynote--Development of 3D Metrology for Aircraft Tooling and Production
Thursday July 25, 2024 8:30am - 9:15am EDT
Speakers
avatar for John Palmateer

John Palmateer

Principal Consultant, JDP Metrology Consulting LLC
John Palmateer earned Bachelor’s degrees in physics and mathematics; a Master’s degree in electrical engineering and a Juris Doctor in law. John is a retired Boeing engineer. His thirty-eight-year career – the last seventeen as a Technical Fellow – focused on developing and... Read More →
Thursday July 25, 2024 8:30am - 9:15am EDT
Concord Convention Hall - A B C D

9:45am EDT

On-machine scanning with contact and non-contact sensors and how it can improve machining with closed loop metrology feedback
Thursday July 25, 2024 9:45am - 10:15am EDT

 On-machine probing have been used in most cases with a tactile sensor for simple part setup and reporting. In modern machining operations, gathering fast and precise data has emerged as an important part of producing complex precision products at less cost. The integration of contact and non-contact scanning sensor technologies became a promising avenue for enhancing precision and efficiency. This paper investigates the potential of “on-machine tool scanning” techniques utilizing both contact and non-contact sensors to create metrology data. Furthermore, the implementation of closed-loop metrology feedback enables real-time adjustments, ensuring tighter tolerances and minimizing errors during production hence improving machining process. This presentation explores the principles, capabilities, and practical implications of integrating contact and non-contact sensors into machining operations. Through a thorough examination of case studies, the benefits of this approach in terms of accuracy, speed, and reliability are demonstrated. The findings underscore the transformative potential of on-machine scanning with integrated sensor technologies in advancing the precision and quality of machining processes, paving the way for more efficient and competitive manufacturing practices. 

Speakers
avatar for Chris Affer

Chris Affer

Senior Applications Engineer, Applied Automation Technologies
Chris Affer holds a B.S. in Computer Engineering and is a Senior Applications Engineer at Applied Automation Technologies.  He has over 25 years of overall metrology experience and 15 years of experience with "In machine" measurement using both tactil and non-contact sensors, specifically... Read More →
avatar for Ray Karadayi

Ray Karadayi

Founder, Applied Automation Technologies
On-machine scanning with contact and non-contact sensors and how it can improve machining with closed loop metrology feedback.Ray Karadayi is the founder and CEO of Applied Automation Technologies, Inc. He holds B.S and M.S degrees in Mechanical Engineering specializing in automatic... Read More →
Thursday July 25, 2024 9:45am - 10:15am EDT
Concord Convention Hall - A B C D

9:45am EDT

Morning Coffee Break
Thursday July 25, 2024 9:45am - 10:45am EDT
Sponsors
Thursday July 25, 2024 9:45am - 10:45am EDT
Concord Convention Hall - A B C D

10:30am EDT

Improvement in the Use of Handheld Scanners
Thursday July 25, 2024 10:30am - 11:00am EDT
Various portable laser scanners are used at multiple sites throughout Lockheed Martin Aeronautics. In October 2022, our production and quality teams noticed variation between scan results which was large enough that it could lead to material misidentification as conforming or nonconforming.  The team worked together to investigate the repeatability of the system, came to understand system limits, and deployed improvements which increased capability on most parts.

This presentation will review how a Measurement System Analysis revealed that certain part characteristics can challenge portable laser scanners, as well as what adaptations yielded positive results.

©2024 Lockheed Martin Corporation. All Rights Reserved
Speakers
avatar for Julio Sanchez

Julio Sanchez

Senior Quality Engineer, Lockheed Martin
Improvement in the Use of Handheld ScannersJulio Sanchez joined Lockheed Martin Aeronautics in 2019 and now works as a senior quality engineer in its Fort Worth, Texas fabrication department. Specializing in light metrology, in June 2023 he was accepted into the Recognized Technical... Read More →
Thursday July 25, 2024 10:30am - 11:00am EDT
Concord Convention Hall - A B C D

11:00am EDT

An Efficient Procedure for Reverse Engineering Parts and Assemblies in Vehicle Packaging to Improve Surface Reconstruction Accuracy
Thursday July 25, 2024 11:00am - 11:30am EDT
The Automotive Parts Manufacturers’ Association of Canada launched the first, original, full-build zero-emission concept vehicle named Project Arrow. As an all-Canadian effort, Arrow has been designed, engineered and built by Canadian researchers and manufacturers. This project brought together the best of the best of Canada’s vehicle design, electric-drive, alternative-fuel, connected and autonomous and light-weight technology engineers and Canadian companies to work with university researchers. Ontario Tech partnered in Project Arrow as the lead academic institution to complete the engineering design and the fabrication phase of this national project. Packaging is traditionally the most complex task in vehicle structural design, responsible to accommodate for all the parts and components integrated in the vehicle in minimum space and optimum level of mass distribution, while the interactions between the parts and assemblies are accurately maintained. As the main requirement for this important task, all the parts and components need to be accurately modeled. Due to the large variety of the parts and assembly items collected from the various suppliers, accurate 3D modeling for many of these items were missing. The Original Equipment Manufacturers (OEM) in automotive industries typically collect the required information and 3D models over the years and decades through their organic development. However, this was not the case in project arrow design and fabrication. Therefore, a comprehensive reverse engineering project was conducted at Advanced Digital Design, Manufacturing, and Metrology (AD2M Labs), Ontario Tech university to complete this task. Digital metrology using various optical and tactile sensors were conducted by the team to digitize over 50 parts and assemblies. The objective has been to interactively revise the overall packaging of the vehicle for an optimum functionality and fit of the designed components.

Working within a very tight timeframe, the team innovatively developed a consistent and efficient procedure to reconstruct surfaces and model the parts and assemblies in high level of accuracy and at the minimum cost. The team structured and implemented a systematic reverse engineering process to complete this task, which allows deconstructing individual components of complex assemblies, piece by piece, to collect and revise the engineering knowledge in their original design and re-model them for the purpose of Arrow project. The developed innovative process named as 5Cs includes five stages of Combining, Cleaning, Converging, Coordinate Alignment, and Condensing. This paper principles of the developed procedure and presents the employed methodologies behind this development. The procedure successfully implemented in reverse engineering of all the digitalized parts and assemblies used in project arrow and the highly satisfactory results have been achieved. Following the successful completion of the project, the 5Cs procedure have been used to model in several other reverse engineering projects with satisfactory results. This procedure can be well adopted by many other industrial sectors when there is a need to reconstruct surface and solid models from actual parts and assemblies.

Ahmad Barari*
The University of Ontario Institute of Technology
Oshawa, Ontario, Canada
Ahmad.Barari@ ontariotechu.ca

Dylan Bender
The University of Ontario Institute of Technology
Oshawa, Ontario, Canada
Dylan.Bender@ontariotechu.ca


Speakers
avatar for Ahmad Barari

Ahmad Barari

Professor and Director of AD2M Labs,, Faculty of Engineering and Applied Science, Ontario Tech University
An Efficient Procedure for Reverse Engineering Parts and Assemblies in Vehicle Packaging to Improve Surface Reconstruction AccuracyAhmad Barari is a Professor at the Department of Mechanical and Manufacturing Engineering, and director of Advanced Digital Design, Manufacturing, and... Read More →
Thursday July 25, 2024 11:00am - 11:30am EDT
Concord Convention Hall - A B C D

11:30am EDT

On The “Edge” With Automated Applied Metrology
Thursday July 25, 2024 11:30am - 12:00pm EDT
The Edge Coating Verification (ECV) process has been transformational to F-35 production and quality in Fort Worth and throughout the world. The team integrated 3D scanning automation to verify the application of F-35 component edge coatings, driving down variation and ensuring adherence to engineering and performance requirements (process known as seam validation). The Edge Coating Verification process was originally developed in 2017 for F-35 Component Final Finishes to mitigate downstream seam validation issues in assembly. In 2023, the team completed integration of two automated industrial robotic scanning cells in Fort Worth to further increase scope/efficiency and support F-35 rate requirements.

An intuitive user interface guides an operator through the proper steps to setup panels within the cell. Optical projectors, in-cell displays, and cameras are integrated in the work cells to errorproof the process and enhance operator repeatability. The panels are fixtured in the work cell with Lockheed Martin developed vacuum cup standoffs that are compatible with 107 unique panels across the three F-35 variants. The standoffs quickly secure and elevate the part, allowing the systems to scan both the outer and inner planes of all edges.

The scanning robot cell is a commercial off-the-shelf system. After the operator sets up the panel in the system, an industrial robot manipulates a 3D laser scanner to automatically collect surface data along a pre-programmed path. All data needed to generate a report is collected within minutes, compared to the legacy manual process that took 2-3 times longer per panel. Complex and robust metrology analysis algorithms automatically compare scan data of coating conditions once scanning is complete. Easily interpretable reports are produced to guide any operator rework and corrective action activities necessary.

Impact
Significantly reduced coating variation to help meet 100% Quality/On-Time Goals.
Reduced downstream scrap, rework, and repair (SRR) hours by identifying any issues prior to panels leaving the coatings facility.

Future
Partner sites, both domestic and international, are leveraging the new “standard” for edge coating verification in support of seam validation. This means supporting sites can avoid development costs and inspect with the same tools to the same standard across the program, both during initial manufacturing all the way through depot maintenance teams.
Most recently, an additional Aeronautics site is implementing a similar solution based on the success of the integrated Fort Worth systems. Future expansion of this automated metrology solution is very strong with the support of the suppliers and Operations Technology team.

© 2024 Lockheed Martin Corporation. All Rights Reserved.
Speakers
avatar for Joseph DeFazio

Joseph DeFazio

Senior Applications Engineer, Lockheed Martin
On The “Edge” With Automated Applied MetrologyJoey DeFazio is a Senior Applications Engineer within the Operations Technology team at Lockheed Martin Aeronautics. He is the project manager for both the Edge Coating Verification system and Applied Metrology for Assembly development... Read More →
Thursday July 25, 2024 11:30am - 12:00pm EDT
Concord Convention Hall - A B C D

12:00pm EDT

Lunch
Thursday July 25, 2024 12:00pm - 1:30pm EDT
Thursday July 25, 2024 12:00pm - 1:30pm EDT
Concord Convention Hall - G H I J

12:30pm EDT

Exhibit Hall Open for Attendees
Thursday July 25, 2024 12:30pm - 5:30pm EDT

Thursday July 25, 2024 12:30pm - 5:30pm EDT
Concord Convention Hall - E F

1:00pm EDT

CMS Certification Exam
Thursday July 25, 2024 1:00pm - 5:00pm EDT
CMSC Committee
avatar for Thomas Kinnare

Thomas Kinnare

CMS Certification Chairman, ECM Global Measurement Solutions
After rolling like a bad penny across a wide range of industries for 15 years, Tom landed at East Coast Metrology (ECM), where he has spent nearly 20 fruitful years laboring to bestow the blessings of dimensional metrology on clients at a global level.As a Principal Engineer at ECM... Read More →
Thursday July 25, 2024 1:00pm - 5:00pm EDT
Fairway Ballroom - B

1:30pm EDT

CMS Standards Committee Overview
Thursday July 25, 2024 1:30pm - 2:00pm EDT
Experienced Metrology professionals discuss challenges faced in Metrology applications for ship repair.
Thursday July 25, 2024 1:30pm - 2:00pm EDT
Education Zone

2:00pm EDT

UNC Charlotte Program Overview
Thursday July 25, 2024 2:00pm - 2:30pm EDT
Thursday July 25, 2024 2:00pm - 2:30pm EDT
Education Zone

2:30pm EDT

Career Discussion
Thursday July 25, 2024 2:30pm - 3:00pm EDT
Speakers
avatar for Gary Confalone

Gary Confalone

Founder, ECM Global Measurement Sloutions
Gary Confalone has been working in the metrology industry for the past 30 years. He began his career in Systems Integration as an Engineer at Sikorsky Aircraft. At Sikorsky Gary was an active member of the American Helicopter Society, where he was involved in laser metrology research... Read More →
Thursday July 25, 2024 2:30pm - 3:00pm EDT
Education Zone

2:30pm EDT

Afternoon Break
Thursday July 25, 2024 2:30pm - 3:30pm EDT
Sponsors
avatar for HUBBS Metrology Solutions

HUBBS Metrology Solutions

Hubbs Metrology Solutions
Hubbs Machine is the oldest and most trusted source for three dimensional close- tolerance industrial survey targeting, adapters, and supportive accessories. Success is options! Our recognized product line provides the widest range of product options supporting close-range industrial... Read More →
Thursday July 25, 2024 2:30pm - 3:30pm EDT
Hubbs Metrology Booth 306 in the Exhibit Hall

3:00pm EDT

Hardware Changes over 40 Years (Panel Discussion)
Thursday July 25, 2024 3:00pm - 4:00pm EDT
Thursday July 25, 2024 3:00pm - 4:00pm EDT
Education Zone

4:00pm EDT

CMS All-Member & Exhibitor Happy Hour and Feedback Session
Thursday July 25, 2024 4:00pm - 5:00pm EDT
Thursday July 25, 2024 4:00pm - 5:00pm EDT
Education Zone

5:30pm EDT

Exhibit Hall Teardown
Thursday July 25, 2024 5:30pm - 9:00pm EDT
Thursday July 25, 2024 5:30pm - 9:00pm EDT
Concord Convention Hall - E F
 
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