Agenda 2018

Inside 3D Printing Conference & Expo - Seoul - Day 1 - Wednesday, June 27th, 2018

8:30 am
Registration
9:10 am
KEYNOTE

The history of the human race is recorded in the things that we have made and the way in which we've made them. We have been makers for millions of years and yet only in the last couple centuries did we see the revolution in production that started in Britain and reshaped the world, taking us from hand production to the mass-scale, factory-based mechanization that brings us today's cars, laptops and dishwashers. In today's world where we can download and print out the majority of a car from the internet, where a plastic surgeon can 3D print a replica of a patient's ear, and where Olympic swimmers are wearing suits printed from 3D scans of their bodies, are we in the midst of the ultimate digital revolution? In this keynote, Avi Reichental will share his latest take on where we are in the digital manufacturing revolution and his futuristic vision of where it's taking us.

Session description
Speaker
Avi ReichentalXponential Works
Founder | Chairman | CEO
Xponential Works
9:50 am
KEYNOTE 2:

Alex Lalumiere will showcase how HP is driving the adoption of 3DP printing into manufacturing to disrupt the industry. He will explain how HP is working with customers to develop true manufacturing applications in key verticals, and how the future offerings of HP will change the landscape for the 3D printing industry.

Session description
Speaker
Alex LalumiereHP
Director
HP
10:30 am
Morning Break (Session Change)
10:50 am
MANUFACTURING

Nano Dimension is a company that provides solutions for 3D Printing of professional electronics.

Industry 4.0, the latest industrial revolution, focuses on production efficiency and additive manufacturing. How do new 3D forms relate to it and what are the benefits?

Session description
Speaker
Amit DrorNano Dimension
nCEO & Co-Founder
Nano Dimension
BIO/MEDICAL

Imagine a world where drugs are developed without the use of animals, and where replacement organs are 3D printed from a patient's own cells, rather than being harvested. The award-winning interdisciplinary team at Aspect Biosystems is working towards making this a reality. Using a unique microfluidic approach to 3D bioprinting called Lab-on-a-Printer™, Aspect is 3D printing living tissues that are improving the efficiency of drug discovery and generating implantable tissue therapies to replace diseased or worn-out tissues. In his presentation, Tamer will discuss Aspect’s 3D printing technology, and will describe real-life use-cases that demonstrate the potential for bioprinting to revolutionize the fields of pharmaceutical drug development, disease research, personalized and regenerative medicine by providing living human tissues on demand. 

Session description
Speaker
Tamer MohammedAspect Biosystems
President & CEO
Aspect Biosystems
11:25 am
MANUFACTURING

Several GE businesses are already using additive manufacturing to make and develop new products. GE Aviation is printing fuel nozzles for the LEAP family of jet engines. The company is also building the Advanced Turboprop, the first commercial aircraft engine in history with a large portion of components made by additive manufacturing methods, which include 3D printing. The designers reduced 855 separate parts down to just 12. As a result, more than a third of the engine is 3D printed. GE Healthcare, GE Power and the oil- and gas-field services company Baker Hughes are also using the technology. GE's case study will show the status of additive manufacturing technologies.

Session description
Speaker
Ilyong JungGE Additive
Sales Manager
GE Additive
BIO/MEDICAL

Recently, the role of 3D printing has been rapidly emerging as the growth engine of digital dentistry. It is not easy to find a product that suits you, although a lot of products are pouring in line with this market trend. If you look at dirty little secrets of 3D printing that manufacturers want to hide, would not it be a good guide to product selection? Take a look at the workflow of digital dentistry and learn the core values 3D printing can bring to you and up-to-date technology trends in 3D printing and materials.

Session description
Speaker
Tony KimHEPHZIBAH CO., LTD
Director
Hephzibah
12:00 pm
MANUFACTURING

This presentation looks at the common workflows associated with additive manufacturing and how they can be dramatically improved by using more intelligent tools and fewer applications. Designing for additive manufacturing requires a new approach to maximize the return of investment and design is a key to achieve this. Learn how you can investigate whether additive is right for your business without investing in specialist tools or equipment and move into production.

Session description
Speaker
Seungchul LeeDassault Systemes Korea
Territory Technical Manager
Dassault Systemes Korea
BIO/MEDICAL

Shri Shetty, the CEO at PrinterPrezz is an accomplished senior executive in the semiconductor equipment industry for more than 20 years.  He is currently creating the next medical ecosystem to help create life changing devices.  With people are living a healthier lifestyle, the body will still suffer mechanical breakdowns.  The medical industry is not ready for the onslaught of issues that will occur.  In order to best prepare for this challenge, the medical industry is looking to new and improved methods in advanced manufacturing techniques, including 3D printing and advanced surface coatings, flexible platforms and world-class manufacturing, to build life changing devices to make the world a healthier place

PrinterPrezz is focused on developing new and improved methods in advanced manufacturing techniques, including 3D printing and advanced surface coatings.  The first company to deliver an innovative, carefully engineered medical manufacturing solutions, which include end-to-end medical platforms local to the networks, that have the potential to change the face of the medical industry. 

Shetty will outline this new methodology and product solutions which will represent a paradigm shift in the medical industry, bridging its expertise from the operating room to the manufacturing plant.

Session description
Speaker
Shri ShettyPrinterprezz
CEO
Printerprezz
12:35 pm
Lunch Break & Exhibit Hall is Open
1:45 pm
KEYNOTE 3:

The 3D Printing technology is the driving force behind changes in the world. It’s been widely applied in automotive, medical, aerospace, and education sectors, causing it to be the new leading technology of world’s manufacturing industry. 3D printing technology is expected to change the paradigm of manufacturing as well as to create a new culture by merging with the development of ICT technology. This is a form of the Industry 4.0. This keynote speech will examine the direction of the development of hardware, software, and printing material based on 3D printer development experiences and look into see how the 3D printing industry will evolve with future technologies.

Session description
Speaker
Byoung-Bag LeeSindoh
Senior Vice President
Sindoh
2:25 pm
Venue Change
2:35 pm
MANUFACTURING

As 3D printing technology continues to evolve, many people are sympathetic to the possibility that manufacturing and ordering can be easy innovatively in manufacturing area. Now, other traditional manufacturing methods as well as 3D printings are being offered online, and that area will be expanded. Most industries are changed from offline to online services and people are accustomed to getting services online rather than offline. A big change is expected to be comparable to the industrial revolution if manufacturing area is changed to online service. How do we prepare for the upcoming MaaS generation?

Session description
Speaker
San KoA·Team Ventures
CEO & Founder
ATEAM Ventures
BIO/MEDICAL

The additive manufacturing (AM) based on metal powder bed fusion (PBF) has opened its new era. Global market of metal PBF applications has been exploding. Since the state-of-the-art AM EMB machine, Arcam, was introduced in Korean 3D printing market, custom made 3D printed cranial implants has been applied to over 250 skull defect patients. Not only for skull defects but also craniofacial defects has been reconstructed. In March, 2015 Korean neurosurgeon did a tremendous job for sacral malignant sarcoma patient for replacing her half of sacrum with 3D printed implant which was designed as near anatomical structure. The story from the metal AM continues and the urgent needs about the standard practices or international technical standards. This topic will cover the continued story of 3D printing in real surgical field and internal standardization.

Session description
Speaker
Kyu Won ShimSeverance Hospital
Medical Doctor
Severance Hospital
3:05 pm
MANUFACTURING

The speaker will share the current status and trend of Additive Manufacturing in Silicon Valley and USA and introduce the status of each industry with additive manufacturing. And will show how government and university collaborate to develop additive manufacturing. Also, how Silicon Valley companies prepare for advanced manufacturing with AI, AR/VR, Blockchain, and etc.

Session description
Moderator
Hon YiTytus3D
Co Founder
Tytus3D System, Inc
BIO/MEDICAL

Currently, most 3D medical printing technologies have relied on the 3D surgical planning and modeling software developed by western countries such as Mimics and 3-matic by Materialise based in Begium. However, it still requires excessive manual operation for 3D modeling and planning. KIST Medical IT team has developed 3D surgical planning and modeling software for 3D medical printing. In this talk, we will introduce 3D medical applications using 3D surgical planning and 3D printing software.

Session description
Speaker
Youngjun KimKorea Institute of Science and Technology
Principal Researcher
Korea Institute of Science and Technology
3:35 pm
Afternoon Break
3:45 pm
MANUFACTURING

As an Enabler, 3D printing makes it possible to have different approaches, making value-added applications a reality and creating new industries. In applying the case, design engineering for Digital Manufacturing is concerned about how to connect AM's digital processes to our actual manufacturing environment, from the design engineering to the manufacturing in a strict Quality Requirement. To realize this, we will explore the real world of how Materialise is building a bridge to connect to 3D printing, from the 3D CAD phase to the 3D printer, and to the digital supply chain.

Session description
Speaker
Emma KwonMaterialise
Team Leader
Materialise
BIO/MEDICAL

The process of three-dimensional (3D) printing (also known as "additive manufacturing" or “rapid prototyping”) uses computer-created digital models to create real-world objects. The 3D printers can create objects with a desired shape by stacking materials through a layer-by-layer process by which everything from simple shaped figure toys to more complex objects such as facial bone can be fabricated. Meanwhile, the 3D printing technology enabling customization, personalized treatment, and ease of fabrication for complex geometries is particularly advantageous in biomedical fields. This talk will present a new 3D printing system and process designed for tissue engineering applications. Specifically, we applied tissue engineering and patient-specific 3D printed biodegradable scaffolds for maxillofacial bone reconstruction in patients with maxillary defect caused by surgical removal of cancer. This is the first trial in the world to have employed 3D-printed, patient-specific biodegradable scaffolds for maxillary bone regeneration of complex defects at a challenging site. We confirmed that the patient-specific, 3D-printed PCL scaffold effectively filled the maxillary defect. Moreover, we proved that scaffolds made of PCL, which is a biodegradable polymer, promoted regeneration of a deficient tissue while remaining stable in the body for a relatively long period of time. In addition, I would like to introduce a multi head printing system that can print various biomaterials including living cells. I will introduce 3-D structures that are printed with various cells, and its applications as an organoid for animal replacement, and 3D cell therapy for treating disease.

Session description
Speaker
Jin-Hyung ShimKorea Polytechnic University
Assistant Professor
Korea Polytechnic University
4:15 pm
MANUFACTURING

In this session, we share 3D printing market trends, utilization trends in supply chain (SCM), and introduce SAP strategy for 3D Printing, differentiated offerings and case study as an important pillar of SAP Digital Manufacturing. This way, We look at how SAP brings new technology (Emerging Technologies) to the business world.

Session description
Speaker
Seok Jin YounSAP AG
Head of Digital Supply Chain and Manufacturing Division
SAP Korea
BIO/MEDICAL

The application of medical industry using additive manufacturing is often using metal materials. Additive manufacturing utilizing structurally similar ceramic materials as bones will be a new challenge for the healthcare industry. In a situation where various materials are applied to the medical field through additive manufacturing, the suitability of the material may vary depending on the application field. You can check out the ceramic cases applied to the zygoma bone defect sites.

Session description
Speaker
Junyoung Lim3D Innovation Center at CGBio, Inc.
Manager
3D Innovation Center at CGBio, Inc.
4:45 pm
Afternoon Break (Venue Change)
5:00 pm
KEYNOTE PANEL

There’s always hype around disruptive technologies. 3D Printing or additive manufacturing has been widely used for 30+ years in various fields including medical, dental, jewelry, automotive and aerospace but there is still so much more to come. Is 3D printing just hyp or will can it become a real game changer? This highly informative panel is made up of entrepreneurs, visionaries, and industry veterans who are leading the charge into the future of additive manufacturing.

Session description
Moderator
Hon YiTytus3D
Co Founder
Tytus3D System, Inc
Speakers
Amit DrorNano Dimension
nCEO & Co-Founder
Nano Dimension
Alex LalumiereHP
Director
HP
Avi ReichentalXponential Works
Founder | Chairman | CEO
Xponential Works
5:40 pm
VIP reception takes place at 6pm, GBR B, KINTEX 1

Inside 3D Printing Conference & Expo - Seoul - Day 2 - Thursday, June 28th, 2018

8:30 am
Registration
9:10 am
KEYNOTE 1:

Companies, products, and services in additive manufacturing (AM) are developing at a staggering pace. With so much new activity, clarity on where to invest an organization’s efforts is critcal. The AM industry is excited about new approaches to design, and even biomimicry, but designers and engineers must now decide what is practical and where to focus their attention. Meanwhile, the AM industry is faced with opportunities and challenges related to material pricing, supply chains, quality, and infrastructure development. Can users of AM really achieve digital inventories and on-demand manufacturing? And, will they uncover the AM industry’s dirty little secret? Attend and find out. 

Session description
Speaker
Terry WohlersWohlers Associates, Inc.
Principal Consultant and President
Wohlers Associates, Inc.
9:50 am
KEYNOTE 2:

The evolution of additive manufacturing pushes the boundaries of resolution, speed, performance and precision to higher and higher levels, with the aim to become a significant manufacturing alternative for consumer goods, medical devices and biocompatible applications. For nearly three decades, stereolithography has been established as the most precise additive manufacturing method, taking advantage of a superior resolution and an increasing variety of new materials. DWS, a recognized Stereolithography pioneer and innovator, recently developed TSLA, a new proprietary technology that represents a quantum leap over 3D printing in terms of speed and efficiency. Maurizio Costabeber, DWS co-founder and CTO will present the state-of-the-art of this new TSLA technology together with a new generation of sophisticate materials that aim to revolutionize and mainstream additive manufacturing. 

Session description
Speaker
10:30 am
Morning Break (SESSION CHANGE)
10:50 am
METAL

Maximization of returns and throughput of metal AM parts through minimizing preparation time, material use and failures. An introduction to methods that can help companies best leverage their AM hardware.

Session description
Speaker
Peter RogersAutodesk Netfabb
Additive Manufacturing Product Specialist
Autodesk
TRANSPORTATION

Dr. Stephan Beyer, the CEO of Berlin based BigRep GmbH, will take us through some key industries and applications benefiting 3D Printing and Additive Manufacturing technologies. The main focus of his presentation being - Additive Manufacturing in Transportation.

Dr. Stephan will review some common usage and benefits of AM in today’s world and will showcase a number of impressive user case studies from the different industries.

BigRep GmbH is a German industrial 3D printer manufacturer based in Berlin with offices in Boston and Singapore. We are the developer and manufacturer of the world’s largest serial 3D printer and we set sail to transform the 3D printing and manufacturing business. Engineers, architects and designers now have access to large dimension 3D printing at a much lower price with BigRep 3D printers. From furniture to vehicles to robotics, everything is possible. Dream the impossible world-changing designs of tomorrow while we enable you to print them today using our BigRep 3D printers.

Session description
Speaker
Stephan BeyerBigRep
CEO
BigRep GmbH
11:25 am
METAL

With an accelerated implementation of additive manufacturing (AM) technologies and pursuit after quick results, the safety precautions at times remain overlooked. Direct Metal Laser Sintering (DMLS) uses electrically powered machine. Laser melts metal powder layer by layer. The process chamber is flooded with inert gas in order to protect against incineration during the build. It is critical to follow safety regulations for avoiding any accidents while working with 3D printing equipment or any peripheral systems. Safe operation will mitigate risks and ensure lasting development of AM production. 3D Printing system manufacturer should apply the relevant standards and perform extensive testing to make the product as safe as possible. During the part build machine is closed. Locking mechanism isolates from moving parts, fumes and laser radiation. Each AM equipment user must be trained on the machine operation and must utilize personal protective equipment. An opportunity to manufacture complex shapes, customized individual objects, and functionally integrated parts attracts more interest to 3D CAD data driven production. Application of additive production technologies is rapidly growing in aerospace, automotive, medical, tooling, and other industries. Successful implementation of AM will keep growing extensively if operators keep taking necessary precautions to ensure safe AM process.

Session description
Speaker
Maryna IeninaEOS
Applications Engineer - Metals
EOS OF NORTH AMERICA INC
TRANSPORTATION
The Session Description will be available shortly.
Session description
Speaker
Nadav SellaStratasys
Sr. Director, Products & Solutions
Stratasys North Asia
12:00 pm
METAL

As the metal Additive Manufacturing (AM) industry moves towards series industrial production, the need for standards covering all aspects of the technology becomes ever more prevalent. While some standards and specifications for the various aspects of AM process chain exist and continue to evolve, many such standards still need to be matured or are under consideration/development within standards development organizations (SDOs). A resource to aid in the identification and development and approval of AM standards is a framework that has introduced a comprehensive structure to target various aspects of the AM space, including feedstock materials, design, process/equipment, testing, safety, and finished parts properties. The approach will also enable the development of application-specific standards to address the needs of the various industries and support qualification and certification. This brief presentation will discuss the state of the AM standards including gaps, challenges, opportunities and insight based on a recent initiative to establish global centers of excellence to support research and development and close the standardization gaps that exist for metal additive manufacturing and other materials type. Potential collaboration opportunities with the stakeholders and technical considerations in support of ongoing/future standards development will also be discussed.

Session description
Speaker
Mohsen SeifiInternational Standard Worldwide
Director of Additive Manufacturing Programs
ASTM International
TRANSPORTATION

Modern engine hood hinge systems have become very complex products because of the vehicle design, the available building spaces ad pedestrian protection requirements. These demand an enormous amount of strength and stiffness from the material and are the reasons why steel hinges today are as heavy as 3kg per vehicle. To minimize and optimize the weight of steel hinges satisfying the design requirements, topology optimization techniques and bionic construction principles were applied in their design stage and 3D metal printing techniques were adopted in manufacturing stage. Such a complex design for hinges were not able to manufacture them with the traditional manufacturing process. LightHinge+ of this paper shows how a traditionally manufactured functional automotive metal part can be replaced by an additively manufactured part. With Simufact Additive, we have contributed to the improved design, protection and distortion optimization of the additively manufactured LightHinge+ hinge. This presentation provides a process simulation method for the engine hood hinge and on the basis of which the shape of deviations of the printed hinges to the CAD can be minimized. The quality of additive components can be improved significantly with Simufact Additive and expensive and time-intensive production tests can be reduced greatly.

Session description
Speaker
In-hyuk HwangMSC Software Korea
Technical Director
MSC Software Korea
12:35 pm
Lunch Break
1:45 pm
KEYNOTE 3:

Overall, additive manufacturing is changing how parts are designed and produced. As companies are incorporating additive manufacturing into their workflow, they are able to increase productivity, reduce time to market and drive down total cost of operation. Simultaneously, 3D printing solution suppliers are offering a broader portfolio of solutions for their customers. This includes a broader portfolio of printers which meets the needs of customers for low volume production through factory solutions. We are also seeing an increase in the number of material suppliers including large chemical process manufacturers and the powder metallurgy industry. Further, CAD/CAE companies are offering improved options to design for additive with the inclusion of new modules and plug-ins. Based on this, we would like to review and foresee how 3D printing benefits manufacturing continues to evolve. This evolution is transforming businesses across a variety of industries, and ushers in new possibilities with each new phase.

Session description
Speaker
Michelle Baek3D Systems
Director of Asia Sales
3D Systems
2:25 pm
Venue Change
2:35 pm
METAL

For years, Metal 3D Printing is only focusing on helping the customer in Prototyping or small batch of Production. The reason is the existing technology is either too slow or too expensive to do Mass Production for metal part. Therefore, the real benefit of Additive Manufacturing has not been fully realized for the majority of metal manufacturing. Desktop Metal’s goal is to make metal 3D printing not only accessible just to the engineering, but also to manufacturing in a mass production purpose.

Session description
Speaker
CK KanDesktop Metal
Regional Director-APAC
Desktop Metal
BUSINESS
The Session Description will be available shortly.
Session description
Speaker
William SH Joo
Chairman
KAMUG
3:10 pm
METAL

Commercial applications of the 3D Metal printing market have already begun. More than 52% of companies around the world are reporting that 3D Metal printing will become a key decision factor in the future, and they are growing rapidly every year. The top four Powder bed fusion (PBF) companies in the 3D Metal printing market occupy 80% of the world market. Direct energy deposition (DED) 3D Metal printing technology is rapidly growing as complementary technology with PBF. In fact, hybrid technologies, which is mixed PBF with DED Technology, such as DMG Mori and Mazak have been developed, and optomec, BeAM, and trumpf are beginning to be applied in the market with new systems, technologies and business models. Insstek provides a consulting service to offer the optimal solution to improve the competitive advantage of the potential customers and to provide solutions such as customized system, software and process technology according to consulting result. Based on the related technology, Insstek has started to expand into the world market, and has got a successful business in markets such as Europe, China and Russia.

Session description
Speaker
Daejung Kiminsstek
Process R&D Director
Inssteck Inc.
BUSINESS
The Session Description will be available shortly.
Session description
Speaker
Shamil HargovanWiivv
CEO
Wiivv Wearables
3:45 pm
METAL

Metal powder specifications are vital to ensure stable and reproducible AM processing. In this presentation, LPW will discuss how powder properties can influence metal Additive Manufacturing processing and the final mechanical properties of the built parts.

For metal powders to deliver AM built parts with the required properties, the powder specification must establish limits which are tight enough to ensure any variations do not have an effect on process and application performance, but have sufficient tolerance to accommodate manufacturing variance.

When a powder is reused, not only can it move out of specification, but it can also vary within the ideal specification limits, in terms of its chemistry and physical properties. This can result in issues with material processability during part manufacture or with the final mechanical properties of the part itself – potentially ruling out AM at the feasibility study stage.

Session description
Speaker
Dermot DesmondLPW Technology
Sales Manager
LPW Technology
BUSINESS

Success in the hypercompetitive 3D Printing landscape requires a new approach to creating – and sustaining – both technology and business advantage. To meet this challenge, we'll integrate innovation and intellectual property into actionable business strategies that ensure:

  1. Competitive advantage in both the technology and IP in your products
  2. Cost-effective innovation/product plans
  3. Reduce execution risk due to technology failure by providing multiple commercialization options from a single innovation investment
  4. Minimize IP litigation risk, plus give you solid IP positions you can use offensively or defensively as business tools
  5. Increasing profits e.g. generate additional revenue through licensing without impacting your main-line business
  6. Achieve greatest value at exit for startups

In short, we’ll learn agile innovation strategies to find and exploit the advantaged intersection of technology, market and intellectual property – where business value is created, or lost.

Session description
Speaker
Damon MatteoFulcrum Strategy
CEO
Fulcrum Strategy
4:20 pm
Afternoon Break
4:40 pm
METAL KEYNOTE PANEL

3D printing has had a number of false starts breaking out from prototyping to the manufacturing of actual parts. Join us as we discuss one of the hottest technologies in 3D printing today, Metal AM, and its application to the manufacturing of end parts. We will discuss where the technology is, the technological developments on the horizon and the industries that are leading its adoption. We’ll also shed some light of the challenges facing the pioneers using this technology, especially the challenges around controlling end part cost and quality – bottom line, manufacturing is all about part cost and quality.

Session description
Moderator
Mohsen SeifiInternational Standard Worldwide
Director of Additive Manufacturing Programs
ASTM International
Speakers
Maryna IeninaEOS
Applications Engineer - Metals
EOS OF NORTH AMERICA INC
CK KanDesktop Metal
Regional Director-APAC
Desktop Metal
Peter RogersAutodesk Netfabb
Additive Manufacturing Product Specialist
Autodesk
Terry WohlersWohlers Associates, Inc.
Principal Consultant and President
Wohlers Associates, Inc.
5:30 pm
End of Inside 3D Printing Seoul
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