2. Trends in Manufacturing
• Robots and information systems replace workers in
the more mundane, repetitive task areas
• Demand for information and automation systems in
manufacturing is soaring
▫ Systems need to deliver high-quality, reliable and
repeatable solutions, improving their processes
• From Traditional Engineering and Construction to
Architecture and Medical industries are looking for
these types of efficient and cost-effective solutions

3. Industry Transformation
• Transforming raw materials into finished
goods, efficiently and cost-effectively, does not
have to be on a large scale
• The ability for the masses to copy and reproduce
physical objects individually is the next
important transformation of the manufacturing
industry
• Significantly reduces shipping costs

4. Radical Transformation
Core Assets CORE ASSETS
1) Subtractive vs Additive
Manufacturing technq.
2) Knowledge Changes Threatened Not Threatened
Core Activities Threatened Radical Change
1) Replicable on Smaller
CORE ACTIVITIES
- “Additive” vs “Subtractive”
(and Local) Scale manufacturing techniques Creative Change
2) Customer relations - Activities replicable on
change smaller scale
Threatened
Progressive
Not
Intermediating Change
Change

5. Critical Success Factors
• User involvement
▫ Ability to retain and develop a large user base
regardless of peripheral industry served
• Acquiring New Customers
▫ Through branding and being a pioneer in the industry
• Innovation
▫ Continually improving upon design and capabilities of
product

6. 3D Printing Industry Analysis
Barriers to Entry (Medium) Government (High)
• High technology turnover • Copyright Laws
• High focus on quality • Idea of Ownership changing
• Requires significant education • Intellectual Property changing
• Requires high capital investment
Supplier Power (Medium) Consumer Power (High)
• Few materials absolutely needed that Competition (Medium) • Wealth of free information
designers can’t create themselves • Many niche players • Make many technological changes to
(whole idea around open source) • Differentiation Strategy end product
• Specific materials can present • Interest of consumers drives demand
• Consolidation in the industry
barriers (high cost, high lead (not Need), so highly unstable
time, but only for end consumer)
Substitutes (Low)
• Very specialized products
• Relatively low switching costs (as
new tech increases, prices drop)
• But you only need one device

7. Rate of Innovation Diffusion
Rogers 5 Factors
Relative
Advantage
Observability Compatability
Trialability Complexity

8. 3D Printing Value Chain
• R&D, Testing
• Designers, Builders
• Printing Devices
• Distribution Channels
• Tech Community (Forums)

9. 3D Printing Value Chain
• R&D, Testing
• Designers, Builders
• Printing Devices
• Distribution Channels
• Tech Community (Forums)

10. MakerBot Industries
• WHO
▫ Adam Mayer , Zach "Hoeken" Smith, Bre Pettis
• WHAT
▫ Brooklyn-based company founded in January 2009
▫ Producing open source hardware, specifically 3D printers
• WHY
▫ Goal to bring desktop 3D printing into the home at an affordable price.
▫ Democratizing Manufacturing
• HOW
▫ Smith was a founding member of the RepRap Research Foundation
▫ Demand for the kits was so great in 2009 that the company solicited
MakerBot owners to provide parts for future MakerBots from their own
MakerBots.
▫ Seed funding + Venture capital

11. Evolution of MakerBot
• The RepRap Project
Open Source • End goal of Self Replication
Fabrication
• MakerBot Industries
• “As complicated as assembling
Do-It-Yourself
Kits IKEA furniture”
• Thingiverse
Hyper- • “Peer-to-Peer” exchange
Customization

12. MakerBot Industries
• Resources
▫ Knowledge and Expertise from RepRap project
▫ Significant Funding (has increased the press coverage)
• Competencies
▫ Engingeering/Robotics expertise
▫ Dedication to Open Source fabrication
• Competitive Advantages
▫ First Mover with Thingiverse
▫ Knowledge and Data aggregator (Experts)
▫ Is the company to replicate (see Ultimaker)

13. MakerBot Evolution
RepRap Project MakerBot MakerBot MakerBot
“Darwin” “CupCake” “Thing-o-Matic” “The Replicator”

14. Competitors – Desktop + Kits
$19,900 $1,499+ $1,299+
9.21 x 7.58 x 5.85 5.5 x 5.5 x 5.25 5.5 x 5.5 x 5. 5

15. Open Source Complexities
€1,194+ ($1,584)
8.3 x 8.3 x 8.6
$1,749
8.9 x 5.7 x 5.9

16. Competitors – Commercial Services
Office Printers $24,999+

17. MakerBot Fit in the Industry
Small Build Volume
Ultimaker
MakerBot
Hypothetical: Stratasys?
New: 3D Systems
Commercial Individual
Objet
Use Use
24
Stratasys Choke Points:
- Scale of Product
Concept 3D
- Supplier Prices
- New distribution channels
Systems - Retaining Ownership of
Userbase Platform
Large Build Volume (Thingiverse)

18. How Well is the Firm Doing?
• Speed, Size, Scope
2009 2010 2011 2012
Founded and $10M invested by
Received Seed Foundry Group
Funding $75,000 and joins board
Cupcake Model Thing-O-Matic The Replicator
released Model released Model released
750 Units Sold 2300 Units Solds 3500 Units Sold Distributed in 19
= $562,500 = $5,520,000 = $8,400,000 Countries
5 Employees 25 Employees 54+ Employees

19. Current Challenges Presented
• Intellectual Property Issues
• Nature of Open Source Fabrication - To share, or not to share?
• Smaller Players leading the charge
▫ Open to large organization resistance to this movement claiming
loss of tangible assets (loss of sales, lower profits, etc.)
▫ Policy makers will have to weigh on these tangible losses to the
future potential benefits
• Economic Implications
▫ If anyone can print what they need in-home, what happens to
those goods manufactured in China?
• Potential White Spaces
▫ Large build volume for personal use
▫ Span small scale commercial and personal need

20. How is Firm Navigating Challenges
• Vulnerable to Open Source complications
▫ New Competitors “stealing” work
▫ However, first-mover with Thingiverse gives advantage
• Completely replicable Business Model
▫ Including all “proprietary” technology and knowledge – but
this is their mission
• Has yet to be seen how involved MB is in Legal Copyright
battles
• No growth strategy
▫ Simply putting out newer and newer models
▫ Is there a limit to perfection from the mass?
▫ As demand increases, need to adjust distribution process

21. Trajectory of Firm + Industry
Emergence Convergence Coexistence Dominance
Sales Volume
Traditional Manufacturing
Additive Manufacturing
Potential MB Trajectory
Time

22. Trajectory of the Industry
• 3D printing will not be used by “everyone to
make anything” but rather be used by some to
make the things they care about most.
• This path will slow down mass production and
give options to overseas manufacturers, but not
significantly.
• Goal: enable the manufacturing of ideas
▫ The 3D printing industry could anticipate on and
respond to demand for any type of specific goods.

23. Trajectory of the Firm
• Dependent on Strategic Choices:
▫ Be a key player in legal complications to the
copyright of ideas.
▫ Position itself as a leader in the movement to push
3D printing into individual use
▫ Continue to innovate, Move towards bigger
platform, Acquire New Customers