3D Printing & Additive Manufacturing: Production Application Initiative 2014

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www.3d-printing-additive-manufacturing-2014.com
Organized by
The Only Additive Manufacturing Conference 100% Led By Industrial
End Users, Focussing On High Volume Production Applications
Translating Advances In Business Models, Materials,
Machine Technologies, Design Methodologies &
Standardisation Into Strategies For
Optimising The Economics Of
Utilising Additive Manufacturing For
High Volume Industrial
Production Applications
Register By Friday
26th September
SAVE
£200
25th-26th November | London | UK
• BUSINESS CASE ANALYSIS:
Assessing the very latest economic factors to determine whether the return
on investment justifies the costs of technology adoption
• MATERIALS FOCUS:
Revealing the very latest emerging materials and building unique
relationships with suppliers to develop reliable supply chains across metals,
plastics and ceramics
• NEW INDUSTRY SECTOR CASE STUDIES:
Identifying the roadmap to AM adoption across aerospace, automotive,
medical, construction, apparel and retail industries to deliver personalised
business case analysis for each delegate
• STANDARDISATION:
Understanding what work is being done to standardise materials and
machines to speed up quality assurance
• DESIGN & DESIGNERS:
Examining the new rules of design for AM and 3D Printing and methods to
train a new generation of designers to fully leverage the potential of additive
manufacturing
u PLUS: The very latest innovations across intellectual property,
machine capabilities and material performance to make additive
manufacturing ready for integration in your manufacturing processes.
i BRAND NEW CASE STUDIES FOR 2014:
20+ Brand New Case Studies From Industry Including:
Neil Burns
Director
Croft Filters Ltd
Metin Bilgili
Technical Leader Of Production
Technologies
Arcelik A.S.
Ralf Schwenger
R&D Director
HEAD Sports
Harry Kleijnen
Manager Development And Engineering Grids
Smit Rontgen (Philips Healthcare)
Maltesh Somasekharappa
Head Of Advanced Manufacturing Solutions
Wipro Infrastructure Engineering
Ajay Purohit
Technical Chief Rapid Proto And
Craftsmanship Tools
TATA Motors
Sam Stacey
Head Of Innovation
Skanska UK
Sonia Ramirez-Garcia
Senior Research Coordinator
DePuy Synthes
Michael Banach
Senior Research Manager
Plastic Logic

www.3d-printing-additive-manufacturing-2014.com + 44 (0) 800 098 8489 info@london-business-conferences.co.uk
Every week more companies and
industry sectors investigate the
potential of 3D printing and additive
manufacturing to reduce material
use, lower costs and enable the
production of new product streams,
yet major challenges still remain
across machine capabilities, material
supply, standardisation and design
methodologies before the business
case is proven to be robust enough
to integrate the new technology into
traditional manufacturing processes.
From high quality, critical aerospace
components to customisable
apparel and medical implants, the
2nd annual 3D Printing & Additive
Manufacturing: Production
Application Initiative 2014 will
develop upon the success of last year
and provide dozens of more companies
such a yours with the data you need
to determine when and if additive
manufacturing is ready for widescale
adoption.
REASONS TO ATTEND
• MASS PRODUCTION FOCUS:
From material supply to standardisation,
each presentation shares success
stories and strategies for taking additive
manufacturing from prototyping to mass
production
• APPLICATION DEVELOPER LED:
Presentations are delivered by industry
end-users, those looking to leverage
technology to develop innovative
new products. No sales pitches or
consultants.
• REQUESTED BY INDUSTRY:
In-depth research with industry is used
to determine the very latest challenges,
write the agenda and ensure every detail
delivered is targeted towards the specific
audience.
• TARGETED NETWORKING:
We have a limited number of delegate
places for industry decision makers and
experts with no free access expo. Every
conversation you have will be with an
industry peer sharing your challenges.
• NO MOMENT MISSED:
Our intimate, purposefully designed
venues and downloadable presentations
ensure you won’t miss a single second
of the discussions and you can share
lessons with colleagues upon your return
to the office.
200+ Attendees From Around The World:
VOLVO, Germany
“A great opportunity to learn from the
experience of additive manufacturing
pioneers on various industry segments.
Also good insights on the state of the art
research about technologies and
material development.”
Intellectual Property Office, UK
“The conference has been
an excellent opportunity
to understand what the
current thinking on 3D
printing is I’ve met a lot of
interesting people and feel
better informed.”
Medtronic Spinal & Biologics, US
“Was enlightening across
a broad range of industrial
applications, it helped
build relationships and
resources for our future
endeavours in additive
manufacturing.“
Centre For Robotic Surgery, Singapore
“Excellent content, great
organisation, sound
topic breadth.”
VENUE INFORMATION
Central London.

OPTIMISING BUSINESS MODELS, MATERIALS DEVELOPMENT & NEW MACHINE TECHNOLOGIES FOR 3D PRINTING
Day 1
Tuesday 25th November 2014
8.30 Chair’s Opening Remarks
BUSINESS MODELS & ECONOMICSUNDERSTANDING PRACTICAL STEPS MANUFACTURERS CAN TAKE TO ENSURE THE PROFITABILITY OF INDUSTRIAL-SCALE PRODUCTION USING 3D PRINTING
KEYNOTE: BUSINESS CASE
8.40 Understanding How To Establish A Business Model For Developing Additive Manufacturing Beyond R&D In A Way That Will Deliver A Tangible Return In Investment
•
Examining how to create a business case for using 3D printing for design optimisation, prototyping or part production
•
Determining strategies for justifying large scale investment in 3D printing given potential delays in recouping the investment
•
Identifying examples of how 3D printing has been used to practically make money in real life business application
•
Understanding which applications 3D printing shows the most promise at industrial scale and why to help build the business case for future projects
Ralf Schwenger, R&D Director, HEAD Sports
Daniel Lau, Technical Specialist In R&D Pre-Development, HEAD Sports
9.10 Question & Answer Session
HIGH VOLUME PRODUCTION
9.20 Providing A Case Study On Going Beyond Prototyping To Use 3D Printing For The High Volume Production Of Functional Parts
•
Pinpointing the key obstacles for using 3D printing for mass production including machine speeds, material costs and quality control issues and determining how they can be overcome
•
Evaluating the extent to which 3D printing is suitable for fabricating genuinely usable parts in large volumes
•
Breaking down the key costs of using 3D printing at mass produced scales to determine when it makes economic sense
•
Benchmarking strategies for achieving the speed of throughput required to make 3D printing economical at industrial scale
Metin Bilgili, Technical Leader Of Production Technologies, Arcelik A.S.
COMPARISON TO TRADITIONAL TECHNIQUES
10.00 Evaluating The Commercial Advantages Of 3D Printing Over Traditional Production Techniques To Determine When It Offers A More Cost-Effective, Reliable Option
•
Providing examples of how 3D printing has provided tangible advantages over traditional techniques in real life applications
•
Understanding under which circumstances 3D printing is cost- competitive with more traditional techniques
•
Comparing the reliability of 3D printing to existing production methods to determine when it represents the most appropriate choice
•
Establishing what hard data exists to support the idea that additive manufacturing can achieve better results than traditional techniques due to the design freedoms
Neil Burns, Director, Croft Filters Ltd
10.40 Morning Refreshments In Exhibition Showcase Area
MATERIALS OPTIMISATIONEVALUATING ADVANCES IN DEVELOPING MATERIALS FOR ADDITIVE MANUFACTURING WHICH ARE DELIVERING THE PROPERTIES, PERFORMANCE & QUALITY CONTROL REQUIRED FOR INDUSTRIAL APPLICATIONS
MATERIALS SUPPLY CHAIN
11.10 Discussing How Manufacturers Are Creating Strategies For Developing Secure Relationships With Material Suppliers That Deliver Consistent Material Quantities And Qualities For Production-Scale Manufacturing
A: Metals
•
Assessing the supply chain of metals including titanium, steel and aluminium to ensure the quantity and availability of materials meets industry requirements
•
Examining which materials are currently available and expected in the near future for additive manufacturing compared to material supply for traditional production techniques
•
Hearing how industry has been leveraging a wide variety of metals in additive manufacturing to reduce the costs of product mass production
Maltesh Somasekharappa, Head Of Advanced Manufacturing Solutions, Wipro Infrastructure Engineering
B: Plastics & Polymers
•
Hearing how manufacturers are developing long term, reliable relationships with suppliers to ensure the consistent supply of key plastics for 3D printing, including:
•
CFRP (Carbon Fibre Reinforced Plastic)
•
ABS •PLA •Nylon
•
Polystyrene •PEEK
Lionel T Dean, Founder & Creative Director, FutureFactories
C: Ceramics & Natural Materials
•
Examining the current availability of ceramics for additive manufacturing in Europe to assess whether the reliability of supply can justify use
•
Assessing which types of natural materials are applicable to which industries to ensure optimal material properties for each application
Richard Beckett, Design Tutor, Bartlett School Of Architecture
EMERGING 3D PRINTING MATERIALS
11.50 Identifying The Very Latest Additive Manufacturing Materials That Manufacturers Have Used To Cost Effectively Deliver The Same Product Performance Characteristics As Traditionally Manufactured Parts
•
Hearing which materials have recently been proven viable for use in mass scale additive manufacturing in terms of material properties, without compromising production speed and economics
•
Evaluating materials that are still being proven by industry to be viable for 3D printing on a production scale to forecast emerging application opportunities
•
Examining methods being used to predict the heat, tension and compression limitations of newer materials to determine which are viable for production
Damien Buchbinder, TeamWWleader (Advanced SLM Systems), Rapid Manufacturing Group, Fraunhofer ILT
12.30 Networking Lunch In Exhibition Showcase Area
MATERIAL PERFORMANCE
1.30 Assessing Methods For Improving Material Properties During 3D Printing To Ensure Parts Can Be Consistently Manufactured With The Heat, Tension And Compression Requirements For Production
•
Assessing how manufacturers are maintaining mechanical and physical properties during 3D printing and high temperature manufacturing processes to determine which materials can be used in production
•
Mechanical property focus: Identifying how manufacturers are maintaining the strength, stiffness and durability of materials such as metals to enable the adoption of a wider rage of materials into production
•
Physical property focus: Examining which 3D printing technologies are being used to maintain coefficient of thermal expansion, conductivity, and lubricity during production
•
Post-Processing: Assessing the limitations of additive manufacturing and what post-processing operations are required to meet the specifications of industry parts
Moataz Attalah, Professor Of Advanced Materials Processing, University Of Birmingham
QUALITY CONTROL
2.10 Examining The Challenges And Processes Of Large Volume Additive Manufacturing In A Regulated Environment To Produce Medical Devices Of Industrial Quality
•
Understanding how to match technology capabilities with product requirements to enable adequate productivity and yield.
•
Assessing strategies to overcome challenges in new materials qualification and process development
•
Identifying enablers for short design cycles to deliver fast ramp-up to large volume manufacturing
•
Assessing what process innovations have been implemented to deliver accuracy and repeatability during manufacturing
•
Revealing which product and process verification methods have been implemented during mass production to deliver 100% functional inspection.
Pieter Nuijts, Director OEM Grids, Tubes And Components, Smit Rontgen (Philips Healthcare)
Harry Kleijnen, Manager Development And Engineering Grids, Smit Rontgen (Philips Healthcare)
3D PRINTING MACHINESEVALUATING HOW MANUFACTURERS CAN SELECT & OPTIMISE THE LATEST 3D PRINTING MACHINE TECHNOLOGIES TO ENSURE THE RELIABILITY & REPEATABILITY OF THEIR PRODUCTION PROCESS
MACHINE CAPABILITIES
2.50 Providing A Case Study On How A Company Has Applied Recent Advances In The Capabilities Of 3D Printing Machines To Manufacture Fully Functional Parts To Their Desired Specifications
•
Contrasting additive manufacturing cycle time to traditional manufacturing technology to determine the feasibility of large scale adoption
•
Explaining what speeds the manufacturer was able to achieve with currently available 3D printing technology and what improvements they expect in the near future
•
Explaining how they used the latest 3D printing machines to optimise the reliability and repeatability of their production process
3.30 Afternoon Refreshments In Exhibition Showcase Area
MACHINE COMPARISON PANEL
4.00 Comparing The Key Current & Emerging 3D Printing Technologies To Determine Which Ones Offer The Optimal Solution For Which Industrial Applications
•
Explaining how an end user has successfully selected the right 3D printing machine to reduce the cost and time of manufacturing their product
•
Comparing the pros and cons of different FDM and SLS technologies to ascertain which offers the most advantages for different prototyping and production applications
•
Determining which machines offer the best capabilities for manufacturing fully functioning parts
•
Providing an overview of the latest cutting-edge machines to hit the markets to see which will be the most exciting emerging options
INTELLECTUAL PROPERTYDEVELOPING BEST PRACTICE FOR NAVIGATING THE RAPIDLY DEVELOPING INTELLECTUAL PROPERTY LANDSCAPE BEING CREATED BY THE EMERGENCE OF 3D PRINTING
INTELLECTUAL PROPERTY
4.40 Assessing The Economic Implications Of Intellectual Property Rights To Ensure The Business Models For 3D Printing Adoption Are Robust
•
Providing an introduction to the types of intellectual property rules which have potential implications for those engaged in 3D printing and additive manufacturing
•
Analysing the challenges and opportunities of intellectual property rules upon the business models for machine and material suppliers and application developers
•
Reviewing the very latest innovation aspects within intellectual property to understand how they have incentivised innovation within 3D printing
Nicola Searle, Economic Advisor, Intellectual Property Office
DESIGN METHODOLOGIESDEVELOPING DESIGN RULES & TRAINING PROGRAMMES TO ENSURE DESIGNERS CAN MAXIMALLY TAKE ADVANTAGE OF THE NEW CREATIVE OPPORTUNITIES OFFERED BY ADDITIVE MANUFACTURING
DESIGN METHODOLOGIES
5.20 Understanding How To Develop A Set Of Design Rules Specific To 3D Printing To Maximise The Degree Of Creative Freedom That Can Be Given To A Designer
•
Identifying opportunities to use 3D printing to achieve a wider range of design possibilities in terms of the complexity of structures that can be manufactured compared with traditional techniques
•
Examining which design techniques provide a methodology to fully harness the possibilities opened up by 3D printing technologies
•
Evaluating what restrictions additive manufacturing puts on designers to determine how they can optimally overcome them
•
Assessing which design methodologies are more appropriate to prototyping and manufacturing at scale when using 3D printing
Lionel T Dean, Founder & Creative Director, FutureFactories
TRAINING DESIGNERS
5.50 Developing Training Programs Which Produce Designers Who Can Fully Exploit The New Creative & Commercial Opportunities Offered By 3D Printing
•
Evaluating strategies for training designers in sufficient quantities to fill the skills gap in 3D printing design
•
Understanding what manufacturing companies can do to accelerate the integration of 3D printing design education into university curricula
•
Quantifying the need for designers with specialised 3D printing knowledge to determine whether some aspects could be achieved just as well by non-specialists
•
Examining structures for creating a 3D printing design team within an organisation and understanding how it would interface with other design departments
Steinar Killi, Researcher, Oslo School Of Architecture And Design
6.20 Chair’s Closing Remarks
6.30 - 7.30 Networking Drinks In The Exhibition Showcase Area

INDUSTRIAL APPLICATION CASE STUDIESBREAKING DOWN THE TRANSFERABLE LESSONS EMERGING FROM SUCCESSFUL APPLICATIONS OF 3D PRINTING IN THE AEROSPACE, AUTOMOTIVE, MEDICAL, APPAREL, CONSTRUCTION & DOMESTIC SECTORS
8.30 Chair’s Opening Remarks
KEYNOTE: CONSTRUCTION CASE STUDY
8.40 Investigating 3D Concrete Printing: Developing New Processes And Technology To Enable New Applications In Construction For Additive Manufacturing
•
Understanding the innovative additive manufacturing processes being leveraged to enable the printing of high quality concrete and other materials
•
Examining which applications within the construction industry would be suitable for 3D printing solutions compared to traditional building methods
•
Assessing what work still needs to be overcome to enable 3D printing on an industry scale to determine the roadmap to implementation
Sam Stacey, Head Of Innovation, Skanska UK
Richard Buswell, Senior Lecturer, Building Energy Research Group, Loughborough University
AUTOMOTIVE CASE STUDY
9.20 Identifying Which Additive Manufacturing Applications An Automotive OEM Is Using To Take The Manufacture Of Parts From Prototype Stage Into High Volume Production
•
Understanding the selection criteria for technology adoption that enabled an OEM to move from designing prototypes to producing high volume, useable parts
•
Examining the next generation of high volume, commercial additive manufacturing technologies being integrated into the high volume production process of the next generation of vehicles
•
Assessing which materials provide the required durability and lightweight properties to determine which are feasible for use in vehicle manufacturing
Ajau Purohit, Technical Chief Rapid Proto And Craftmanship Tools, TATA Motors
ELECTRONICS & CONSUMER GOODS CASE STUDY
10.00 Examining the role and benefits of leveraging additive manufacturing within production to deliver a new generation of flexible electronics and wearable devices
•
Assessing manufacturing methods including additive manufacturing to optimise the production of flexible electronics
•
Understanding the role of 3D printed mechanical components alongside flexible electronics to develop innovative and attractive wearable devices
•
Reviewing the business case including costs of using additive manufacturing compared to traditional production techniques in the electronics industry
Michael Banach, Senior Research Manager, Plastic Logic
10.40 Morning Refreshments In Exhibition Showcase Area
AEROSPACE CASE STUDY
11.10 Detailing How To Leverage Additive Manufacturing To Manufacture A Product With The Levels Of Structural Integrity And Reliability Required By The Aerospace Industry
•
Assessing the latest advances in material deposition and mechanical properties of titanium and other metals to develop parts which meet the rigorous requirements of aerospace applications in the absence of standardised materials and manufacturing platforms
•
Examining the latest innovations in machine capabilities such as deposition rates to produce large metal components for the aerospace industry
•
Identifying the extent to which the need to meet EASA standards creates unique restrictions for aerospace manufacturers wishing to use 3D printing and how to ensure 3D printed parts meet these standards
•
Analysing the business case for aerospace manufacturers to invest in creating their own blend of materials so that they can design their own characteristics into them
Filomeno Martina, Research Fellow In Additive Manufacturing, Cranfield University
MEDICAL CASE STUDY
11.50 Examining The Very Latest Material Validation And Manufacturing Innovations Being Used To Custom 3D Print Medical Implants
•
Examining the very latest evaluation, testing and validation processes being used to determine the usability of different materials in custom made bio-printing
•
Hearing which pre-processing and inspection techniques can be used to eradicate impurities during printing of medical implants in an industry where errors could mean lives
•
Assessing the optimal material classifications that have so far proven viable in medical additive manufacturing and unveiling those that are close to validation
Sonia Ramirez-Garcia, Senior Research Coordinator, DePuy Synthes
12.30 Networking Lunch In Exhibition Showcase Area
APPAREL & RETAIL CASE STUDY
1.30 Providing Examples Of How 3D Printing Could Be Used In Fashion And Mass Customisation Of Apparel And Identifying The Transferable Lessons For Other Retail Sectors
•
Assessing the readiness for using 3D printing to achieve mass customisation for consumer products and what commercial impact this would have on the industry
•
Evaluating which materials are available for 3D printing that have the properties required for clothes and shoes and determining the optimal and most fashionable ways of using them
•
Providing ideas on what opportunities low-volume customisation using 3D printing may open up for creating new retail products that currently do not exist
•
Envisioning a roadmap towards a world where customers can be scanned upon entry into a shop and have customised products 3D printed for them
Bryan Oknyansky, Founder, Shoes By Bryan
DOMESTIC 3D PRINTING
2.10 Quantifying The Current & Forecasted Size Of The Domestic 3D Printing Market To Assess The Scope Of The Commercial Opportunity Compared With The Industrial Market
•
Projecting the growth of the domestic printing market for 3D printing to track where it is expected to be by the end of next year
•
Providing an overview of the state-of-the art 3D printing technologies for the consumer and what capabilities they will offer
•
Determining where the line can be drawn between domestic and professional 3D printers to identify which ones should be aimed at the consumer market
•
Forecasting timescales for mass adoption of 3D printers in the consumer space to assess how it will compare with the industrial market
2.50 Afternoon Refreshments In Exhibition Showcase Area
STANDARDISATIONEXAMINING PROGRESS IN DEVELOPING STANDARDS FOR MATERIALS & MACHINES THAT WILL PROVIDE A BASIS FOR THE RELIABILITY & REPEATABILITY REQUIRED FOR 3D PRINTING AT HIGH VOLUME
MATERIAL STANDARDS
3.20 Defining Strategies For Moving Towards International Standards For Ensuring The Quality Of Materials Used In 3D Printing
•
Determining the roles of powder manufacturers, machine manufacturers and end users in developing standards for materials used for 3D printing
•
Evaluating what different standards may be required by different industries to scope out the need for industry-specific standards
•
Identifying which bodies would be most suitable to develop standards and which new bodies may need to be created
•
Envisioning what guidelines on material standards might look like and what steps can be taken to move towards them
John Collins, BSI AMT8 Standards Committee Member, British Standards Institute
MACHINE STANDARDS
3.40 Brainstorming Ideas On Creating A Roadmap Towards A Set Of Standards For 3D Printing Machines That Would Deliver The Reliability & Consistency Required To Accelerate Industrial Scale Applications
•
Examining early progress in moving towards standards for 3D printers to pinpoint the key areas where further work needs to be done
•
Evaluating the optimal ways in which the industry can accelerate the standardisation of manufacturing platforms for 3D printing
•
Providing ideas on how to create standards for machines that would ensure they deliver a repeatable process that can be relied upon
•
Identifying ways in which software for 3D printing could be standardised to contribute to a more consistent and reliable process
John Collins, BSI AMT8 Standards Committee Member, British Standards Institute
4.20 Chair’s Closing Remarks
4.30 End Of Congress
PROVIDING INDUSTRY BY INDUSTRY CASE STUDIES ON SUCCESSFUL INDUSTRIAL SCALE APPLICATIONS & EVALUATING DEVELOPMENTS IN STANDARDISATION & DESIGN OPTIMISATION
Day 2
Wednesday 26th November 2014

SPONSORSHIP OPPORTUNITIES
The 3D Printing & Additive Manufacturing: Production Application Initiative 2014 offers a unique platform for highly relevant machine providers, material suppliers and service bureaus to outline their solutions and manufacturing success stories across the globe.
Achieving Your Business And Marketing Objectives At The Summit
DEMONSTRATE THOUGHT LEADERSHIP
The reliable supply of high quality, affordable materials and capabilities of machines are the biggest hurdles facing industry application developers aiming to justify the business case for additive manufacturing adoption. Your products may be offering the solutions they need, but do your customers really know what differentiates you from your competitors?
EXCLUSIVE NETWORKING OPPORTUNITIES
At 3D Printing & Additive Manufacturing: Production Application Initiative 2014, industry leaders will be identifying the machine and material partners to turn additive manufacturing into an implemented production process.
SHARE YOUR SUCCESS
Have you recently integrated additive manufacturing into a major international company, or an exciting start-up? To apply for one of our limited showcase opportunities, simply send a summary of your recent success and business development aims to:
John Duggan
+44(0) 800 098 8489
sponsorship@london-business-conferences.co.uk
VISITOR PROFILE
•
Attendees By Industry
•
Attendees By Industry
15% CEO, Managing Directors
30% Director R&D, Engineering, Additive Manufacturing
25% Department Head Of Material Science, Strategy, Manufacturing
20% Additive Manufacturing Lead
10% Senior Manager Additive Manufacturing, New Technologies
16% Medical & Dental
14% Consumer Goods & Apparel
12% Heavy Industrial Equipment
12% Aerospace
9% Construction & Architecture
8% Domestic Appliances & Electronics
7% Defense
5% Oil & Gas
5% Designers
4% Other
9% Automotive

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3D Printing & Additive Manufacturing: Production Application Initiative 2014

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