Space Construction - Its not Rocket Science...is it? #COMIT2018

Space Construction:
It’s not Rocket Science…Is it?
Presented By:
Dr. Ravi Margasahayam, M.S., M.B.A.
Global Space Ambassador
VIP Tour Guide and International Public Speaker
NASA John F. Kennedy Space Center, USA

Presentation Outline
 Introductory Comments
 Reasons for the Exploration of Space
 Construction on Earth key to Exploration
 ISS: We are Living and Working in Space
 Aerospace/Construction Synergy from Space
 Technology trends and Innovations in Future
 Conclusions: Takeaway – Innovate or Perish

INTRODUCTION: Advance of civilization has been realized
through the ages by exploration of unknown parts of the Earth
and by exploiting new resources thus acquired. There are
currently practically no new areas on this planet to be explored and
exploited. This is achieved by the completion of the period called
globalization. As a natural continuation of this process, humans
will now explore and exploit new areas beyond Earth, i.e. in
space. Moon has already been explored partly, it awaits a complete
exploration and colonization. The next step will be Mars and
beyond. Habitation on these new space bodies will firstly
necessitate construction of outposts on these bodies. Thus
construction on the Moon, Mars, and other space bodies can be
considered to be an important component of space research. An
overview of space exploration is presented with an emphasis on
innovations past/future in space construction industry and the
importance of space spinoffs to construction on Earth.

Pale Blue Dot
(Earth)
NASA is a global leader in Space Exploration:
Been there, done that, call us. Seeing the Unseen –
daring the impossible - is what we do best.
Cassini image from
Saturn Earthrise image from
Moon (Apollo 8)
Windows to the universe
– Hubble (Earth 13.5
Billion years old)
Robotic
Rovers on
Mars (seven
landings) Voyager 1 – historic
planetary tour
beyond solar system
Six landings on the Moon
One small step for Man

6
Steam Engines for Mining, Ships
Before Laws of Thermodynamics

7
Famous First Flight (Wright Bros)
Even before Aerodynamics Laws

8
Microwave technology came from
A totally different field - Radar

It is possible to fly without motors, but not
without knowledge, skill & experience.
…… Wilbur Wright

Why Explore Space
Space: New frontier & conduit for innovations

I don’t think the human race
will survive the next thousand
years, unless we spread into
space……
Stephen Hawking

13
Explore we must – to save the Earth
Innovation = creativity * risk

Aerospace: shaped by fundamental difference -
taking risks: “We chose to go to the Moon” - 1961
Do things not because they are easy…but hard

Earth
Lagrangian Point L2
932,000 mi
Near-Earth
Asteroid
3,106,870 mi
Moon
238,855 mi70 t
Mars
34,600,000 mi
International
Space Station
230 mi
Curiosity
130t
HUMAN SPACEFLIGHT: FUTURE IS EXCITING

16
Even when Exploration is risky
expensive and dangerous (rewards?)

NASA Exploration had led to innovations
Commercialization then benefits people on Earth
Beyond Maslow’s Law: Food/Shelter/Water/Health

Exploration of Space requires
Construction on Earth

19
Launch : WW III with Gravity….and hidden
hazards on the ground &vacuum of Space

External Tank
Reusable Solid Rocket Motor
Solid Rocket Booster
Space Shuttle Main Engine
Complex System Configuration
High Performance
Challenging Material Systems
Rocket alone has
3 Million of Parts
Logistics/Safety

Largest Buildings, Roadbeds, Structures
Extraordinary Engineering

Fields of Expertise needed to develop a Spacecraft
structure….no one individual can learn all this
stuff….TEAMWORK is the key!!! No “I” in teamwork.
• Building blocks of education
- Mathematics, Physics, Chemistry
- Statics and Dynamics
- Materials Science
- Mechanics of Materials
- Structural analysis
- Mechanical design, Manufacturing
- Probability and Statistics
- Aerospace Systems
- Communication skills…writing,
speaking,
- Listening skills
• Training and Tools
- CAD/CAM/CAE and Solid modeling
- FE model and analysis
- Microsoft excel, word, etc.
- Fracture mechanics (FLAGRO etc.)
- Other tools (MATLAB, Math CAD)
• Fields of Specialty
- Structural design
- Mechanical design
- Structural dynamics
- Stress analysis
- Thermal analysis
- Materials testing
- Failure and Fracture analysis
- Manufacturing
- Test Engineering
- Quality Assurance
- Systems Engineering
- Field engineering
- Safety, reliability engineering
- Accident investigation skills

23
There is always Uncertainty in Structural Design -
Engineer always designs for a set failure criteria

24
Hubble - Most Valuable Window
To The Universe (Repair as well)

Space Construction by Reusable Rockets
Three million parts working harmoniously at liftoff

26
Columbia Accident – Fear of Failure

Buy her a plane ticket – Timely Innovations
Intelligence, Imagination and Ingenuity

State-of-the-art solution for woodpecker
problem on NASA launch pad

Heavenly Construction aids in
Living and Working in Space

These are static monuments built only
for a few people, not entire mankind.

FROM SCIENCE FICTION TO REALITY
Star Wars
Tie Fighter
Star Trek PADD
Rosie the
Robot
from the
Jetsons

Perfect Touchdown in Florida
Projects are all about …….Mission Success !!!!

33
Global Earth Observing Platform –
200 Billion US Dollars / 1 M Pounds
Lasers

International Space Station (ISS) - Dimensions
Wingspan : 361 feet (120 m)
Spacecraft Mass: ≈900,000 lb. (≈408,233 kg)
Spacecraft Pressurized Volume: 32,333 ft3 (916 m3)
Velocity: 17,500 mph (28,200 kph)
Science Capability: Laboratories from 5 international space agencies –
Europe, Japan, Canada, Russia and USA.
Direction of travel (front)

Elements are constructed around the world and
come together in space with hairline tolerance.
Lego-like modules built with high precision

Payload or Module inside
Space Shuttle Cargo Bay
After Launch

December 2006 - Astronaut Robert L. Curbeam Jr. (left) and European Space Agency
astronaut Christer Fuglesang work on the Port 1 (P1) truss. The Pacific Ocean with New
Zealand and Cook Strait is seen. Cook Strait divides New Zealand's North and South
Islands.
Astronauts work on the Truss Outside ISS – What a View

38
Sent UK Astronaut Tim Peake to the ISS -
To conduct Research and also study Earth

39
A Palace in the Sky for all mankind
What Tim Peake saw from Space
Lasers

40
Earth Observation Platform – Hurricane
Danny observed from ISS
This
Expedition 45 Commander Scott Kelly took this photograph during a spacewalk
on Oct. 28, 2015. Sharing the image on social media, Kelly wrote,
"#SpaceWalkSelfie Back on the grid!

41
Robotic Eyes to Assist Satellite
Repairs in Orbit
One of the tools that could be used for satellite servicing in the future: the
Visual Inspection Poseable Invertebrate Robot (VIPIR) .

42
Research in Space for all Mankind
Robotic surgery and Robonauts
 Foam strike detected in
launch videos on Day 2
 Engineers requested
inspection by crew or
remote photo imagery
to check for damage
 Mission managers
discounted foam strike
significance
 No actions were taken to
confirm shuttle integrity or
prepare contingency plans
Fruit Fly Heart Beat
at 1 Week
(Humans – 7 years)
Fruit Fly Heart Beat
at 7 Weeks
(Human – 70 years)

43
We are Living and Working in Space
Innovations: Impossible to I’m possible

Aerospace and Construction:
Synergy has existed

45
Observation – head of infrastructure and development
Michael Buehler states in a 2016 World Economic Forum report
• Most industries have undergone significant changes – reaped
benefits of process, product and service innovations
• Construction industry has relied less nor fully embraced
innovation opportunities – labor productivity has stagnated or
decreased over many decades (at NASA - Innovate or Perish )
• Main Causes – internal & external challenges, fragmentation in
the industry, inadequate collaboration between players, not
adopting new technologies, difficulty in recruiting talent,
insufficient knowledge transfer from project to project
• Aerospace industry on the other hand – is inherently
innovative, doing the impossible, redefining the ultimate
frontier, its business models, products and services demanded
continuous innovation and improvement (common theme)
• Success for Aerospace – incremental change was rarely an
option, instead far-reaching challenges or radical goals
demanded leap-frogging and disruptive technologies, many
innovative out-of-the-box solution –

46
NASA’s vision for manned exploration
of Mars by 2030 – immediate goal
NASA Completes Successful Heat Shield Testing for Future Mars
Exploration Vehicles

Getting to Mars is easy; landing is very hard
Out of 40+ attempts, only 7 have been successful (NASA)

Maslow’s Law of Hierarchy – Basic Needs Key
Regardless one lives on Earth or in Space

Even for Building on Mars NASA needs best
Construction Industry experts from Earth

Tech Trends Revolution
Future of Construction

51
Tech Trends Revolution Areas
1. New materials enter construction (Nanomaterials
2. Building Information Modeling (CAD concepts)
3. 3-D Printed Habitats (ISRU concept – Regolith)
4. Building with autonomous Robots (Safety)
5. 3-D printed Objects (Self assembly & Reshape)
6. Off-the-Earth Assembly of Satellites
7. Enhancing Machine Learning – Drones/UAVS
8. Application of new materials (Graphene)
9. BEAM Concepts for remote/disaster application
10.Self deployable habitat - extreme environment
11.Augmented and Virtual Reality
12.Artificial Intelligence – Predictive Analytics
13. Wearable Technology – Internet, Cloud, etc.

As we embark on an ambitious Mission
Mars – Space is our canvas for future Innovations

Nanomaterials(high strength-to-weight ratio) for
skyscrapers, silicon nanoparticles to capture light
and self-healing plastics (NASA) for space

Building Information Modeling (BIM)- 3D Design,
4-D schedule and 5-D is budget and Co2 emissions
cycled as Co2NCRETE by UCLA – ISRU

NASA’s 3D Printed Habitat Challenge – create
sustainable housing solutions for Earth and beyond
including ISRU (Regolith Mining and Usage)

New frontier of Building with autonomous Robots
Eliminate human safety issues and potential build
in any environment (space/Earth/Underwater)

Using 3-D and 4-D printers (4-D printing involves
3-D printed & expandable objects reshape and self-
assemble by adding water or heat (MIT lab)

Made In Space and Nano racks launch 3-D printer
on ISS to build and assemble CubeSats in orbit
from printed parts and deploy in space– first off-the
Earth assembly line

Unmanned aerial Vehicles and Drones – for aerial
photos, generating maps and 3D images, thermal
imaging and track progress of projects
Enhancing Machine Learning concepts

MIT Engineers and Scientists are thinking of Space
Elevator concepts –using Graphene – a 2-D variety
of carbon (stronger, thin, and 1 atom thick)
Porous, withstand pressure and disperse tension

Bigelow Expandable Activity Module(BEAM) for ISS

Self-deployable Habitat for Extreme Environments
(SHEE) – autonomous construction - could be used
on alien worlds Mars and Earth – areas hit by
natural disasters

Augmented reality allows users walk through 3D
and 4D model environments with their feet for
interference issues and gathering more data

AI _predictive analytics uses data from all
stakeholders to analyze project risk

Wearables technology makes construction safer
looks for real time hazards – wearables track where
workers are on job site (Internet of Things)

Closing Remarks
What does future hold?

As mankind continues his quest to explore planets
and spread into space for survival of the species

68
Aerospace & Construction:Takeaways
1. Go beyond “on time, on budget” – disruptive
technologies like Space X – reusability concepts
2. Overcome constraints – recycle water and oxygen - ISS
3. Enable continued support of Life on Earth – reduce
carbon footprint (Bezos, Branson) and recycle waste
4. Smart and affordable housing/travel – Bigelow- BEAM
and Virgin cost for space travel (20K per Don Thomas)
5. Learn from Experience – disaster resiliency and learn
from accidents – change culture and reduce unknowns
6. Put humans in the center : Human-centric
designs(veggie:how light affects astronaut sleep habits)
7. Create high-performance organizations (culture/retention
of employees lost to IT sector from Aerospace/Const.)
8. Collaborate beyond boundaries (different industries)
9. Sky is NOT the limit (graphene, nanotubes)
10.Take calculated risks – no risks – no rewards

69
Large data must be transferred from
Space to Earth using Light :OPALS
Lasers

Reach for
New Heights In
Your Life …….
Failure is NOT
an OPTION.

71
Goodbye from…NASARavi
QUESTIONS
Anyone ?

Space Construction - Its not Rocket Science...is it? #COMIT2018

Space Construction - Its not Rocket Science...is it? #COMIT2018

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