This document summarizes an upcoming conference on additive manufacturing for government. The conference will take place December 8-10, 2014 in Washington D.C. and feature speakers from the Joint Strike Fighter Program Office, NASA, Lawrence Livermore National Laboratory, US Army Research Laboratory, and America Makes. Session topics will include additive manufacturing applications in aerospace, defense, and energy. There will also be discussions on developing certification protocols, improving manufacturing competitiveness, and using additive manufacturing to create multi-functional materials. The goal is to provide government professionals with the latest strategies and ideas to advance their additive manufacturing initiatives.
R&D Projects and Emerging Technology Due Diligence using NASA/DoD Technology ...UCICove
About UCI Applied Innovation:
UCI Applied Innovation is a dynamic, innovative central platform for the UCI campus, entrepreneurs, inventors, the business community and investors to collaborate and move UCI research from lab to market.
About the Cove @ UCI:
To accelerate collaboration by better connecting innovation partners in Orange County, UCI Applied Innovation created the Cove, a physical, state-of-the-art hub for entrepreneurs to gather and navigate the resources available both on and off campus. The Cove is headquarters for UCI Applied Innovation, as well as houses several ecosystem partners including incubators, accelerators, angel investors, venture capitalists, mentors and legal experts.
Follow us on social media:
Facebook: @UCICove
Twitter: @UCICove
Instagram: @UCICove
LinkedIn: @UCIAppliedInnovation
For more information:
cove@uci.edu
http://innovation.uci.edu/
How to Build Out a Tech Eco-System | Dan Cregg | Lunch & Learn UCICove
About UCI Applied Innovation:
UCI Applied Innovation is a dynamic, innovative central platform for the UCI campus, entrepreneurs, inventors, the business community and investors to collaborate and move UCI research from lab to market.
About the Cove @ UCI:
To accelerate collaboration by better connecting innovation partners in Orange County, UCI Applied Innovation created the Cove, a physical, state-of-the-art hub for entrepreneurs to gather and navigate the resources available both on and off campus. The Cove is headquarters for UCI Applied Innovation, as well as houses several ecosystem partners including incubators, accelerators, angel investors, venture capitalists, mentors and legal experts.
Follow us on social media:
Facebook: @UCICove
Twitter: @UCICove
Instagram: @UCICove
LinkedIn: @UCIAppliedInnovation
For more information:
cove@uci.edu
http://innovation.uci.edu/
Measuring Technical Lag in Software Deployments (CHAOSScon 2020)Tom Mens
Presentation at CHAOSSCon Europe 2020 about the generic technical lag software measurement framework. Technical lag measures the increasing difference between deployed software components and the ideal upstream software components.
For more information, see https://doi.org/10.1002/smr.2157
Learn about what AlphaSTAR Corporation has been up to this past quarter. Talk with CTO, Dr. Frank Abdi to gain some insight on the future of 3D Printing!
"Engaging with DARPA"
Dr. Tyler McQuade,
Program Manager
Defense Sciences Office
DARPA
February 13, 2015
***
Dr. Tyler McQuade Bio
Dr. D. Tyler McQuade joined DARPA as a program manager in the Defense Sciences Office in 2013.
Prior to joining DARPA, Dr. McQuade was a visiting group leader at the Max Planck Institute of Colloids and Interfaces, on leave from his faculty position at The Florida State University.
Dr. McQuade was an NIH Post-doctoral Fellow at the Massachusetts Institute of Technology. He received a Doctor of Philosophy in Organic Chemistry from the University of Wisconsin, and Bachelor of Science degrees in Chemistry and Biology from the University of California – Irvine.
R&D Projects and Emerging Technology Due Diligence using NASA/DoD Technology ...UCICove
About UCI Applied Innovation:
UCI Applied Innovation is a dynamic, innovative central platform for the UCI campus, entrepreneurs, inventors, the business community and investors to collaborate and move UCI research from lab to market.
About the Cove @ UCI:
To accelerate collaboration by better connecting innovation partners in Orange County, UCI Applied Innovation created the Cove, a physical, state-of-the-art hub for entrepreneurs to gather and navigate the resources available both on and off campus. The Cove is headquarters for UCI Applied Innovation, as well as houses several ecosystem partners including incubators, accelerators, angel investors, venture capitalists, mentors and legal experts.
Follow us on social media:
Facebook: @UCICove
Twitter: @UCICove
Instagram: @UCICove
LinkedIn: @UCIAppliedInnovation
For more information:
cove@uci.edu
http://innovation.uci.edu/
How to Build Out a Tech Eco-System | Dan Cregg | Lunch & Learn UCICove
About UCI Applied Innovation:
UCI Applied Innovation is a dynamic, innovative central platform for the UCI campus, entrepreneurs, inventors, the business community and investors to collaborate and move UCI research from lab to market.
About the Cove @ UCI:
To accelerate collaboration by better connecting innovation partners in Orange County, UCI Applied Innovation created the Cove, a physical, state-of-the-art hub for entrepreneurs to gather and navigate the resources available both on and off campus. The Cove is headquarters for UCI Applied Innovation, as well as houses several ecosystem partners including incubators, accelerators, angel investors, venture capitalists, mentors and legal experts.
Follow us on social media:
Facebook: @UCICove
Twitter: @UCICove
Instagram: @UCICove
LinkedIn: @UCIAppliedInnovation
For more information:
cove@uci.edu
http://innovation.uci.edu/
Measuring Technical Lag in Software Deployments (CHAOSScon 2020)Tom Mens
Presentation at CHAOSSCon Europe 2020 about the generic technical lag software measurement framework. Technical lag measures the increasing difference between deployed software components and the ideal upstream software components.
For more information, see https://doi.org/10.1002/smr.2157
Learn about what AlphaSTAR Corporation has been up to this past quarter. Talk with CTO, Dr. Frank Abdi to gain some insight on the future of 3D Printing!
"Engaging with DARPA"
Dr. Tyler McQuade,
Program Manager
Defense Sciences Office
DARPA
February 13, 2015
***
Dr. Tyler McQuade Bio
Dr. D. Tyler McQuade joined DARPA as a program manager in the Defense Sciences Office in 2013.
Prior to joining DARPA, Dr. McQuade was a visiting group leader at the Max Planck Institute of Colloids and Interfaces, on leave from his faculty position at The Florida State University.
Dr. McQuade was an NIH Post-doctoral Fellow at the Massachusetts Institute of Technology. He received a Doctor of Philosophy in Organic Chemistry from the University of Wisconsin, and Bachelor of Science degrees in Chemistry and Biology from the University of California – Irvine.
Matej Popadic, Customer Consultant for Knovel.
Is project management is an important topic to you and your company? Do you want to become more effective in planning and executing projects?
Knovel contains dozens of prime project management resources.
This session will cover:
• An overview of what PM resources are available in Knovel
• How to use Excel templates from Knovel for project charter and business case
• Learn to find best practices in creating project plan
• Use Knovel to create PM knowledge base shareable across project teams
Presentation given at PrefabAus 2014. http://www.prefabaus.org.au/conference/
The material has been sourced from a number of researcher, including: Nico Adams, Robert Zlot, Paul Flick, Alberto Elfes, Laurent Lefort, Sarah King, Peter King, Peter Kambourios, Craig James, Leila Alem, Swee Mak.
Why is TDD so hard for Data Engineering and Analytics Projects?Phil Watt
This slide show describes the difficulties in implementing Test-Driven Development (TDD) in the context of analytics and data engineering in development and maintenance phases. If we assumes that the objective of TDD is to reduce cycle time, improve developer productivity and improve production quality. It identifies 7 challenges from the analytics literature and a further 10 from interviews (n=14) and survey respondents (n=20) selected from analytics leaders. A key theme emerging as an output is that many of the challenges can be addressed through education and coaching, notably around data literacy for key stakeholders and executives
Manufacturing Innovation Model | Has Patel | Lunch & Learn UCICove
About UCI Applied Innovation:
UCI Applied Innovation is a dynamic, innovative central platform for the UCI campus, entrepreneurs, inventors, the business community and investors to collaborate and move UCI research from lab to market.
About the Cove @ UCI:
To accelerate collaboration by better connecting innovation partners in Orange County, UCI Applied Innovation created the Cove, a physical, state-of-the-art hub for entrepreneurs to gather and navigate the resources available both on and off campus. The Cove is headquarters for UCI Applied Innovation, as well as houses several ecosystem partners including incubators, accelerators, angel investors, venture capitalists, mentors and legal experts.
Follow us on social media:
Facebook: @UCICove
Twitter: @UCICove
Instagram: @UCICove
LinkedIn: @UCIAppliedInnovation
For more information:
cove@uci.edu
http://innovation.uci.edu/
Why is Test Driven Development for Analytics or Data Projects so Hard?Phil Watt
Preview of research results for my Master's thesis on Test-Driven Development in Analytics. Prepared for my Term 4 assignment, oral thesis presentation
Michael G. Szarka, Director, Commercial Development, GreenCentre Canada, spoke at the CEC Chemicals Management Forum in San Antonio, Texas, on May 16, 2012. More information at: http://www.cec.org/chemicals2012
3D Printing & Additive Manufacturing: Production Application Initiative 2014marketinglbcg
Additive manufacturing offers the potential to overcome the limitations of traditional manufacturing techniques and reduce material waste and costs. For years, industries have used AM for rapid prototyping, but material supply, machine capabilities, standardisation concerns and risky business cases have hindered the integration of the technology into mass production manufacturing processes.
However across industry sectors as diverse as aerospace, automotive, medical, construction and apparel, industry is beginning to successfully integrate 3D printing and additive manufacturing, benefiting from significant cost reductions and enabling the development of innovative new products for customers.
title
The 2nd annual 3D Printing & Additive Manufacturing: Production Application Initiative 2014 builds upon the success of the inaugural London event to provide the very latest successful case studies and analysis of the remaining challenges. At this unique congress, with an agenda forged by the hottest experts in the industry, you will hear how major manufacturers have introduced innovative design methodologies, created robust material supply chains and leveraged the latest machines to revolutionise manufacturing.
Matej Popadic, Customer Consultant for Knovel.
Is project management is an important topic to you and your company? Do you want to become more effective in planning and executing projects?
Knovel contains dozens of prime project management resources.
This session will cover:
• An overview of what PM resources are available in Knovel
• How to use Excel templates from Knovel for project charter and business case
• Learn to find best practices in creating project plan
• Use Knovel to create PM knowledge base shareable across project teams
Presentation given at PrefabAus 2014. http://www.prefabaus.org.au/conference/
The material has been sourced from a number of researcher, including: Nico Adams, Robert Zlot, Paul Flick, Alberto Elfes, Laurent Lefort, Sarah King, Peter King, Peter Kambourios, Craig James, Leila Alem, Swee Mak.
Why is TDD so hard for Data Engineering and Analytics Projects?Phil Watt
This slide show describes the difficulties in implementing Test-Driven Development (TDD) in the context of analytics and data engineering in development and maintenance phases. If we assumes that the objective of TDD is to reduce cycle time, improve developer productivity and improve production quality. It identifies 7 challenges from the analytics literature and a further 10 from interviews (n=14) and survey respondents (n=20) selected from analytics leaders. A key theme emerging as an output is that many of the challenges can be addressed through education and coaching, notably around data literacy for key stakeholders and executives
Manufacturing Innovation Model | Has Patel | Lunch & Learn UCICove
About UCI Applied Innovation:
UCI Applied Innovation is a dynamic, innovative central platform for the UCI campus, entrepreneurs, inventors, the business community and investors to collaborate and move UCI research from lab to market.
About the Cove @ UCI:
To accelerate collaboration by better connecting innovation partners in Orange County, UCI Applied Innovation created the Cove, a physical, state-of-the-art hub for entrepreneurs to gather and navigate the resources available both on and off campus. The Cove is headquarters for UCI Applied Innovation, as well as houses several ecosystem partners including incubators, accelerators, angel investors, venture capitalists, mentors and legal experts.
Follow us on social media:
Facebook: @UCICove
Twitter: @UCICove
Instagram: @UCICove
LinkedIn: @UCIAppliedInnovation
For more information:
cove@uci.edu
http://innovation.uci.edu/
Why is Test Driven Development for Analytics or Data Projects so Hard?Phil Watt
Preview of research results for my Master's thesis on Test-Driven Development in Analytics. Prepared for my Term 4 assignment, oral thesis presentation
Michael G. Szarka, Director, Commercial Development, GreenCentre Canada, spoke at the CEC Chemicals Management Forum in San Antonio, Texas, on May 16, 2012. More information at: http://www.cec.org/chemicals2012
3D Printing & Additive Manufacturing: Production Application Initiative 2014marketinglbcg
Additive manufacturing offers the potential to overcome the limitations of traditional manufacturing techniques and reduce material waste and costs. For years, industries have used AM for rapid prototyping, but material supply, machine capabilities, standardisation concerns and risky business cases have hindered the integration of the technology into mass production manufacturing processes.
However across industry sectors as diverse as aerospace, automotive, medical, construction and apparel, industry is beginning to successfully integrate 3D printing and additive manufacturing, benefiting from significant cost reductions and enabling the development of innovative new products for customers.
title
The 2nd annual 3D Printing & Additive Manufacturing: Production Application Initiative 2014 builds upon the success of the inaugural London event to provide the very latest successful case studies and analysis of the remaining challenges. At this unique congress, with an agenda forged by the hottest experts in the industry, you will hear how major manufacturers have introduced innovative design methodologies, created robust material supply chains and leveraged the latest machines to revolutionise manufacturing.
Topic 7 Tooling Applications And Hybrid Processes KTN
On July 10th Innovate UK and the KTN held a business innovation day to showcase 30 of the Innovate UK projects that are currently active in the area of Additive Manufacturing. The presentations and pitches made on the day are now available to download. Topic 7 focuses on Tooling Applications and Hybrid Processes.
The industrial ‘revolution’ brought about by 3D Printing and Additive Manufacturing technologies calls for an extensive rethinking of Economic Policies and Regulation. This talk will focus on three critical aspects: Industry Policy and support to innovation, Competition policy,
1. Sponsors: Media Partners:
www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org
New for 2014 The OEM Perspective!
December 8-10, 2014 · Twelve & K Hotel • Washington, D.C.
Redefining Additive Manufacturing for Land, Sea, and Air
Amanda Gentry
Lead Science and Technology Team
Joint Strike Fighter Program Office
Ted Swanson
Assistant Chief for Technology
NASA Goddard Flight Center
Chris Spadaccini
Materials Engineer
Lawrence Livermore National
Laboratory
LJ Holmes
Principal Investigator for Additive
Manufacturing Materials Development
US Army Research Laboratory
Featured
Keynote Speaker
Don’t Miss...
Ed Morris
Vice President
and Director
America Makes – National
Additive Manufacturing
Innovation Institute
National Center for Defense
Manufacturing and Machining
(NCDMM)
• Perspectives from the leading
government contractors
using additive manufacturing
• The leading mind behind the
nation’s largest collaborative
additive manufacturing
project
• Insight into upcoming RFP’s
and expiring production
patents
Hear from government speakers driving key
changes in additive manufacturing
Overseeing Additive
Manufacturing in the
JSF program
Creating designer
engineered materials
Overseeing additive
manufacturing usage in
cooling, packaging, and
shielding for electronics
Creators of the
LEAP Engine!
Making Huge
Strides in Additively
Manufactured
Munitions!
Successfully test fired
the “Baby Bantam”
engine made entirely
from additive
manufacturing
Implemented
Additively
Manufactured Parts into
the Juno Spacecraft!
Manufacturing
multifunctional parts and
embedded components
2nd
Annual
2. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org2
Implement non-destructive certification techniques
that save you waste and money
Protect your manufacturing process from cyber attacks
Print objects with embedded RFID tags or electrical
conductivity cutting down on weight, cost and
manpower
Design objects with planned transformational
properties mitigating damage and increasing
performance reliablility
Visualize final products before production removing
unpredictable results
Save time, limitations, and trouble shooting efforts with
high performance computing and high speed cameras
Print objects with multiple materials for finite
properties control
Understand the risks and opportunities in expiring
core patents
Develop lattice like and non naturally occurring
shapes with strong impact absorption or load bearing
capabilities
Break away from stringent print environment
requirements to print anywhere
Top 10 Reasons
to Attend
1
6
3
8
5
10
2
7
4
9
The Most Cutting Edge
Techniques From Leading OEM’S
DoD investing 30 million
into Additive Manufacturing!
22 ongoing applied
research projects
are being performed by 90
organizations and funded with a
$13.5 million public investment!
9 Unique, new, NAMII
Additive Manufacturing Requests-
For-Proposal have hit the market!
Mike Daly
CTO
Raytheon
Joy Gockel
Lead Engineer
GE Aviation
James Yang
Lead Engineer
GE Global Research
Mark Skeehan
Staff Engineer
Lockheed Martin
Setting the standard for enterprise
wide security initiatives for the internet
of things and manufacturing initiatives
Spearheaded groundbreaking work
in process mapping, microstructure
prediction, and control in additive
manufacturing
Advancing Direct Write Manufacturing
to streamline manufacturing of
intelligent machines
In charge of an Additive
Manufacturing/FDM facility producing
13,000 Additively Manufactured parts
for aircraft assembly line tooling,
engineering prototypes, flight test,
and wind tunnel models.
3. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org3
Dear Additive Manufacturing Professionals,
We are excited to bring you our annual 2nd
Annual Additive
Manufacturing for Government Conference, December 8th to 10th, 2014
in Washington, DC.
Being successful in Additive Manufacturing means being on top of the
latest opportunities in certification and qualification, harnessing the newest
material capabilities, overcoming restrictive environments, and simplifying
manufacturing processes to be streamlined. Rest assured if you’re not
mastering this your competitors are! Have you positioned yourself ahead of
global competition in every way you can?
This event will empower you with everything you need to come back to your
agency or company to make a compelling case for significant improvements
to your efforts. Spelling out profit for your company and credit for providing
significant value to your agency.
You’ll find:
• Insights into the most cutting edge techniques being used by colleagues and
competitors
• Collaborative opportunities to further your additive manufacturing initiatives
• Strategies to overcome some of the most significant challenges in this space.
• Products and services you’ll need to implement the newest ideas
Designed for advanced manufacturing, engineering, materials, and R&D
professionals who work directly with Additive Manufacturing, this conference
will stretch your thinking, provide collaborative opportunities, and leave you
with practical tools and ideas for action. After attending, we hope you will go
back with a plan that will allow you to enhance, upgrade, and develop your
initiatives in Additive Manufacturing.
Come to 2nd
Annual Additive Manufacturing for Government 2014 and return
with everything you need to push yourself ahead of the competition!
Sincerely,
Trevor Sosvielle
Program Director
P.S. Bring your team and
take advantage of our group
discounts!
Chris Spadaccini
Engineer, Materials
Engineering Division
Lawrence Livermoore
National Laboratory
Wayne E. King
Director :Additively
Manufactured Metals
Lawrence Livermore
National Laboratory
William Cass
Partner
Cantor Colburn
Theodore Swanson
Assistant Chief for Technology
NASA Goddard Flight Center
24% NIST
10% DARPA
10% Lawrence Livermore
National Laboratory
7% Department of Energy
7% DTSA
7% National Science Foundation
7% Sandia National Laboratories
2% Army Armaments, Research,
Development Engineering Center
2% ATK
2% Department of State
2% Nasa Goddard Space
Flight Center
2% National Additve Manufacturing
Innovation Institute
2% Naval Research laboratory
2% Oak Ridge National Laboratory
2% The Netherlands Office for
Science & Technology
2% Walter Reed National Military
Medical Center
Solve Your Core Additive
Challenges
Redefining Possibilities
Creating Consistency
Opening Doors
Reducing Waste
Developing Certification and Qualification
Protocols for Additive Metals in a Limited
Resource Environment
Additive Manufacturing: Ensuring
Quality for Spacecraft Applications
Creating and designing architected materials
and multimaterials to overcome any functional
challenge
Avoiding the Pitfalls and Identifying
the Opportunities of Copyrights and
Patenting in Additive Manufacturing
End User Breakdown
4. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org4
Pre-Conference Workshop Day
Monday, December 8th, 2014
Enabling Technologies for Military
Applications - “Additive Manufacturing
Methods, Techniques, Procedures, &
Applications”
In this session we will explore:
• Printed Electronics
• 3D Printing for Weapon Systems
• Materials Development & Qualification
• Integration - Electronics, Structures, and Enhanced
Capabilities
• Technology Transition to Industrial Base & The Field
Jim Zunino
Materials Engineer / ARDEC Project Officer
US. Army - ARDEC
Avoiding the Pitfalls and Identifying the
Opportunities of Copyrights and Patenting
in Additive Manufacturing
With the recent and upcoming developments in patent
expirations in the copyrighting industry many of us are
clamoring to understand what opportunity is suddenly
available and where the chief benefits lie. It also goes
without saying that the legal ramifications of these
developments are by no means a black and white issue.
Learn from an industry thought leader how you can protect
yourself from counterfeiting and manage the patent and
copyright landscape. In this session you will learn to:
• Protect yourself from counterfeiting abuses in additive
manufacturing
• Realistically grasp the opportunities and pitfalls present in recent
patent expirations
• Properly harness patenting and copyrighting to protect your
work whether on the molecular level or a final product
• Understand your choices in the face of an intellectual
property disaster
Bill Cass
Partner Copywriting and Intellectual Property
Cantor Colburn LLP
Networking Break
Predictive Modeling of Metal Additive
Manufacturing Processes
In this session we will look at finite element tools, the problems
they can solve, and the ways they are being used today to predict
distortion, residual stress and process parameter variations. In this
session you will learn to:
• Enact efficient prediction capabilities
• Improve build speeds and reduce build failures
• Significantly reduce the costs for developing new parts and
processes
Brent Stucker
Professor
University of Louisville
& Clark Chair of Computer Aided Engineering
Department of Industrial Engineering
Lunch for Workshop Attendees
PRE-CONFERENCE Workshop
9:30AM
10:15AM
11:00AM
11:15AM
12:00PM
What our Past Attendee’s Have Said About the Event
“
““
“
“Got a good overview of complex science
behind the AM industry..”
-Allen Gandy (Northrop Grumman Corp.)
“Good overview of many directions
that AM is taking.”
- Mike Sweeney (General Dynamics)
5. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org5
Main Conference Day 1
MAIN CONFERENCE BEGINS
1:00PM Registration and Coffee
1:45PM Chairperson Opening Remarks
2:00PM KEYNOTE: America Makes – the National
Accelerator for Additive Manufacturing & 3D
Printing
What’s trending and what’s in store for 2015
• America Makes – National Additive Manufacturing Innovation
Institute actions to accelerate additive manufacturing & 3D
printing in the United States
• Understanding and overcoming technical barriers and challenges
• A vision for future additive manufacturing and the national impact
Ed Morris
Vice President and Director
America Makes – National Additive Manufacturing
Innovation Institute
National Center for Defense Manufacturing and
Machining (NCDMM)
2:45PM Additive Manufacturing for Liquid Rocket
Engines
RocketDynes recent initiatives show that rocket engines can be
made entirely from additive manufacturing. What other products
can this influence? What are the overall implications of this
advancement? In this session you will learn:
• Key design considerations for additive manufacturing
• To manage materials characterization and design allowables
• Best practices for additive manufactured engine validation
testing.
Jeff Haynes
Program ManagerAdditive Manufacturing
Aerojet Rocketdyne
3:30PM Networking and Refreshment Break
4:15PM Developing Certification and Qualification
Protocols for Additive Metals in a Limited
Resource Environment
While additive manufacturing offers boundless potential in
rapid production and micro molecular control the industry is
still constrained by long certification protocols that fail to fully
account for the complex time and chemical effects of the additive
manufacturing process. In this session you will learn to:
• Develop predictive protocols embedded into your production
process
• Draft informed processing conditions and reduce attempt/fail
rates
• Adopt an efficient materials certification strategy
• Reduce overall time usage, cost, and waste in production
processes
Wayne King
Director Accelerated Certification of Additively
Manufactured Metals
Lawrence Livermoore National Laboratory
5:00PM Additive Manufacturing - An Acquisition
Perspective on Development, Qualification, and
Production
The JSF F35 program has proven to be an absolute cornerstone
piece in the world of additive manufacturing. Through strategic
acquisitions and partnerships, streamlined qualification
processes and strong production values its proven what can be
accomplished with cooperative efforts in additive manufacturing.
In this session you will learn to:
• Understand how government/industry partnership resources
can be used to develop the Additive Manufacturing process
• Harness insights to qualification, acceptance, business case
requirements and remaining hurdles for implementation into
a large Department of Defense program
• Utilize real world examples of progress towards qualification
of Selective Laser Sintering and Electron Beam Direct
Manufacturing for DOD production use
Amanda Gentry
Team Lead F35 Science and Technology
Joint Strike Fighter Office Program
5:45PM Chairperson’s Closing Remarks
6:00PM End of Day One
MAIN CONFERENCE BEGINS
“
“
“A great variety of speakers covering
all aspects of AM, plus some
fantastic networking.”
-William Treseder (BMNT Partners)
6. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org6
7:45AM Registration and Coffee
8:15AM Chairpersons Opening Remarks
Mark J. Cotteleer
Director, Theme Program Research Director
Deloitte Services, LP
8:30AM Keynote: Public-Private Partnership to Advance U.S.
Competitiveness and Security
Renewed attention by the federal government-- both to 3D
printing and cyberphyscial systems— now has the potential to
catalyze unprecedented levels of innovation in wide-reaching fields,
ranging from medical and nutrition to automotive, propulsion,
shipbuilding, aerospace/defense, and logistics fields. In this session
you will learn to:
• Navigate the current technology trajectory (in a range of
technologies, materials, speeds, and process/parameters)
• Understand the conflation of 3D digital and physical systems
(design optimization; 3D scanning for reverse engineering,
monitoring, and post-process inspection)
• Align with areas of common interest with the federal
government for advancing qualification and adoption
Neal Orringer
Vice President for Alliances and Partnerships
3D Systems Corporation
9:15AM Improving Manufacturing Competitiveness and
Process Efficiency with Additive Manufacturing
Additive manufacturing’s vast potential as a manufacturing toolkit
has yet to be realized or even fully understood. By affecting
product lead-times, material choices, possibly topologies, design
customization and so many other factors of production, AM will be
a crucial tool for maintaining U.S. manufacturing competitiveness
in the global economy. In this session you will learn:
• Manufacturing competitiveness and energy implications of
additive manufacturing
• How additive manufacturing tools are being developed for and
applied across different industries relevant to energy
• In-situ process monitoring techniques and the benefits of real-
time data
Blake Marshall
Technology Manager for Additive Manufacturing
Advanced Manufacturing Office
DOE Office of Energy Efficiency and Renewable Energy
10:00AM Substituting information for assets – digitizing the
supply chain supply chain
This session will explore:
• How additive manufacturing , in combination with other
advanced technologies, is creating a logistical revolution
• Point of use manufacturing
• Supply chain disintermediation and digitization of inventory
• Drawing from an emerging set of logistical models and practices
Jim Joyce
Strategy & Operations - Supply Chain,
Manufacturing Operations and Strategy
Deloitte
10:45AM Networking Break and Demo Drives
Demo Drives provide our attendees the opportunity
to take a break from the action planning that comes
as a result of the many content driven sessions and
begin considering the solutions that will allow for
implementation. Join in on this evaluation exercise
that will assist you in benchmarking and assessing our
solution providers
11:30AM Additive Manufacturing: Changing the Way
We Build and Test Aircraft
How additive manufacturing has impacted the
following areas:
• Aircraft assembly line tools
• Aircraft flight test parts
• Wind tunnel model parts
Mark Skeehan
Staff Engineer
Lockheed Martin
1:15PM Lunch
2:00PM The Scientific and Cost Benefits of Additively
Manufacturing Multi-Functional Materials
The multifunctional material revolution within additive
manufacturing has introduced some fascinating
benefits to the industry particularly in weaponry and
transportation. By adding functionality into light weight
we can offer low density products with high stiffness
and strength especially where high performance, cost,
resiliency or excellent fuel efficiency are primary. In this
session you will learn to:
• Create objects that can morph during flight or
transportation to efficiently respond to environmental
changes reducing accidents and costs
• Increase material resiliency introducing objects that
heal damage or maintain shape and functionality in
extreme environments such as heat or cold
• Design objects that are naturally conductive and
electronically enhanced reducing costs and labor that
would otherwise be needed to embed electronics in
a final product
• Create smart structures with controlled thermal
expansion and buckling to ensure damage is mitigate
to less critical areas
James Yang
Manufacturing process engineer
GE Global Research Aviation
Main Conference Day 2
Tuesday, December 9th, 2014
7. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org7
Day Two Continued
2:45PM Manufacturing for Rapid Response
The practice of 3D printing tools has long been supporting the
DoD. In this session we will look at:
• Jigs, fixtures, and other tools that can be created through
additive manufacturing
• How additive manufacturing gets systems back into working
order quickly and efficiently
• Case studies and success stories on Additive initiatives
John Cobb
Executive Vice President, Corporate Affairs
Stratasys
3:15PM Networking and Refreshment Break
4:00PM Big Metal Additive Manufacturing – Process
Benefits and Industry Challenges Associated
With Incorporating Sciaky Ebam Technology
An overview of the Electron Beam Additive Manufacturing
process including an overview of equipment offerings, and
patented closed loop process control technology. With a
discussion on how the entire manufacturing work flow
should be considered when evaluating “big metal” additive
applications. In this session you will learn to:
• Implement key several case study applications
• Identify key attributes to selecting the right part for EBAM
• Understand industry barriers to entry that include;
qualification testing, process modeling, non-destructive
testing and inspection
Scott Stecker
Chief Engineer
Sciaky
4:45PM Additive Manufacturing: Ensuring Quality for
Spacecraft Applications
One of the greatest challenges within Additive Manufacturing is
undoubtedly qualifying properties in your materials and your product.
The lack of a strong universal understanding of our source material
strength poses an interesting challenge. How do we determine the
quality of a product prior to production without committing to immense
amounts of trial & error? In this session you will learn to:
• Understand the key strategies behind property validation and how
you can make informed decisions long before production
• Incorporate a strong level of well aligned technical checks and
monitors into your production process
• Identify core problem areas in your observation, technical monitoring,
and validation techniques and processes
Theodore Swanson
Assistant Chief for Technology
NASA Goddard Flight Center
5:00 PM Integrated Process Mapping of Solidification
Microstructure and Melt Pool Dimensions in Additive
Manufacturing of Ti-6Al-4V
In this session you will learn to:
• Use process mapping to map out process outcomes (ie-melt pool
dimensions and microstructure) in terms of primary process variables
for an additive manufacturing process.
• Use process mapping of microstructure to identify key paths or
areas in processing space to produce a consistent and predicable
microstructure (grain size and morphology.)
• Understand that through process mapping, it has been shown
that the solidification microstructure of Ti-6Al-4V can be indirectly
controlled by controlling melt pool dimensions insitu for both electron
beam wire feed and electron beam powder bed process in single bead
and thin wall deposits.
Joy Gockel
Lead Engineer
GE Aviation
5:45PM Chairpersons Closing Remarks
Mark J. Cotteleer
Director, Theme Program Research Director, Deloitte
Services, LP
6:00PM End of Main Conference Day 2
“
“
“Additive manufacturing is a truly disruptive technology. It does not only
revolutionize the way how people can make parts, but also the way how people
design parts to realize functions. Multi-material additive manufacturing is one of
the research frontiers of the industry. It will be a key enabling technology for more
intelligent machines.” - James Yang, Manufacturing process engineer, GE Global Research
8. www.AdditiveManufacturingGovernment.com | 1-800-882-8684 | idga@idga.org8
8:00AM Registration and Coffee
8:30AM Chairperson’s Opening Remark
8:45AM Industrial Cyber Security in Additive
Manufacturing
It goes without saying that those who would do harm to any
countries government and infrastructure are growing more savvy
and are rarely complacent to only conducting direct attacks.
Cyber attacks are a constant threat everywhere and with the
development of Additive Manufacturing and the economic and
growth boom it provides it makes for a lucrative target. How do
we protect ourselves? In this session you will learn to:
• Understand the newest most sophisticated cyber threats to the
manufacturing industry
• Harness the newest technologies and methodologies available
to protect yourself from cyber attacks on your manufacturing
• Identify even the most passive cyber-attacks that may be
designed to cause small amount of untraceable systematic
corruption
Mike Daly
Chief Technology Officer
Raytheon
9:30AM New Material Opportunities Within Additive
Manufacturing
With the boon the past year has represented in metal printing
materials it’s easy to forget that there have been some serious
developments in other areas of the industry. Here we will
show you what materials have become available and what
opportunities they represent. In this session you will learn to:
• Harness wood pulp filament to create a final product with the
qualities of wood
• Utilize ceramics and the thermo dynamic or made to break
properties it represents
• Incorporate wool or nylon to print objects with insulating and
flexible properties
LJ Holmes
Principal Investigator Materials Development for Additive
Manufacturing
Army Research Laboratory
10:15AM Networking and Refreshment Break
10:45AM Creating and Designing Architected Materials
and Multimaterials to Overcome any Functional
Challenge
One of the chief questions on everyone’s mind with the newest
developments in 3d printing is “can you design a lattice like
material at microscale which possibly even uses multiple
materials?” The implications for these developments and the
potential they represent are exceedingly positive and may blow
open many new doors in additive manufacturing. In this session
you will learn:
• How architected materials and multi-materials can allow you to
develop light and dense materials with stiffness ratings outside
of their class
• The implications architected materials offer for built in
photonic pathways within a final object
• Possibilities in improved heat transfer and impact protection
within lattice type materials
Chris Spadaccini
Engineer, Materials Engineering Division
Lawrence Livermoore National Laboratory
11:15AM Fully Understanding and Leveraging Industry
Organizations
Many manufacturers who are struggling with common challenges
in the additive manufacturing industry haven’t wrapped their
head around the wealth of opportunity available to them via non
profits and industry associations:
In this session you will learn to:
• Create streamlined and affordable certification processes
• Communicate and align with key technology stakeholders
• Harness organization resources for proxy hires and other
international opportunities
Tim Shinbara
Technical Director
Association for Manufacturing Technology
12:00PM Chairperson’s Closing Remarks
12:15PM End of Main Conference Day Three
“
“
“Additive Manufacturing is a disruptive technology in markets requiring complex
designs and bespoke products. The marriage of Additive Manufacturing with the
Internet of Things, through the physical embedding of wireless and functional
capabilities into 3D printed objects, has the potential to further disrupt the
manufacturing of sensing systems and wireless connectivity in our daily lives.”
- Thomas A. Campbell, Ph.D., Associate Director for Outreach, Research Associate Professor, Virginia Tech
Main Conference Day 3
Wednesday, December 10th, 2014