The document discusses various functional fibres including Nomex, Kevlar, Dyneema, Hygra, carbon, glass, phenolic and Killat N. It provides details on their properties and applications. Nomex and Kevlar are aramid fibers with heat and flame resistance. Dyneema is an ultra high molecular weight polyethylene that is 15 times stronger than steel. Hygra is a nylon fiber that can absorb 35 times its weight in water. Carbon fiber has high strength and is used in aerospace applications. Glass fiber is used for reinforcement in composites. Phenolic fiber has heat resistance and is used where thermal and chemical resistance is required. Killat N is a hollow nylon filament providing
2. WHAT ARE FUNCTIONAL
FIBRES?
Specifically engineered to deliver a pre
defined performance or functionality to
the user, over and above it's normal
functions.
Made from a mix of innovative
materials, and functionality in this case
would imply the added value or
function that a garment is expected to
perform.
Fig.: Heathcoat Fabrics
3. NOMEX:
Aromatic polyamide resin which have
been developed by Du Pont include the
zig zag linked meta type is called Nomex.
Nomex is made in fiber and fibrid forms.
Nomex can also be produced as a woven
material or as honey comb structure.
Fig: Nomex fiber
4. PROPERTIES OF NOMEX:
Nomex meta-aramid are excellent heat and
flame resistance , and stands up to long
term use at temperatures over 300 c.
It is extremely useful when outstanding
electrical insulation properties required.
Nomex is flexible and higher in elongation
also low thermal shrinkage.
This fiber used for fire fighting apparel to
allow smoke and high radiation heat.
Fig: Nomex Fabric
5. KEVLAR:
Kevlar is the trademarked brand name for
the aramid fiber made by Du Pont.
Heat-ageing lifetime of para-aramids are
superior than meta-aramids.
Kevlar is made of a chemical compound
called poly-para-phenylene terephthalamide.
Kevlar is manufactured using interchain
bonds.
Fig: Kevlar Fiber
6. PROPERTIES OF KEVLAR
Kevlar has an impressive tensile strength,
kevlar is ten times stronger than steel in
tensile strength.
Kevlar is an ideal combination of suitability in
ballistic performance , these are not only very
strong also have dynamic energy absorption
behavior.
This fiber produce a thick char which act as
thermal barrier.
Fig: Woven Kevler Fabric
7. DYNEEMA:
Dyneema is ultra high molecular weight
polyethylene (uhmwpe, uhmw) a subset of the
thermoplastic polyethylene.
It has extremely long chains, with a molecular
mass usually between 2 and 6 million units.
It is synthesized from monomer of ethylene.
The gel spinning process is used for yarn
required for special applications.
Fig.: Dyneema Fibres
8. PROPERTIES OF DYNEEMA:
It has good molecular alignment
High crystallization, low density
It has long molecular chains due to which they
are load absorbing fibers
15 times stronger than steel and up to 40%
stronger than aramids
Floats on water, resistant to moisture,
chemicals and UV
Soft as silk & High pliability
Low melting point, Cut and tear resistant
Fig.: Woven with
Dyneema
9. HYGRA:
Recently high moisture absorptive and highly
moisture releasing nylon was developed by
Unitika.
When nylon was used for clothes the lacks of
moisture absorbency caused stuffiness,
stickiness and was uncomfortable.
Unitika succeeded in making fiber from highly
water absorptive polymer, which can absorb
water 35 times, the polymer weight and
developed an epoch-making fiber Hygra.
10. PROPERTIES OF HYGRA:
It is produced by melt spinning process.
The skin core structure of Hygra consists of
nylon skin part and hydrophobic core part.
Good dimensional stability.
It has good tensile strength.
The main apparel applications include
sportswear like athletic wear, skiwear, golf
wear etc.
Fig.: Hygra Fabrics
11. CARBON:
It is a high-tensile material made by rayon or
polyacrylonitrile fibres or petroleum residues to
appropriate temperatures.
A carbon filament thread is a bundle of
thousand of carbon fibres, and each fibre may
be only 5 to 8 microns in diameter.
Fibrous active carbon is produced from
cellulosics through carbonization and
activation processes
Fig.: Twill Carbon fibre
fabric
12. PROPERTIES OF CARBON:
It has greater strength than Graphite although
they both have same atomic structure.
It has electrical and low thermal conductivity.
Carbon has been widely used in fibres
reinforcement composite materials in the
aerospace industry, high-performance
vehicles, sporting equipment and wind farms.
Fibrous active carbon fabrics have found
many applications, including pollution
prevention and decontamination.
Fig.: Carbon fibre
airplane wing
13. GLASS FIBRE:
It is an inorganic man-made fibre.
The ingredients normally used in making glass
fibres are silicon dioxide, calcium oxide,
alluminium oxide, boron oxide, plus a few
other metal oxides.
More than 99% of continuous glass fibres are
spun from an E-glass formulation.
Fig.: Glass fibre
chopped strand
14. PROPERTIES OF GLASS:
It is brittle, has high tensile strength, high
electrical and insulation resistance, and low
moisture absorption.
It is widely used for reinforcing thermoplastic
composites heat and electrical insulation, filter
cloth for chemical and dye industries, high
strength fabrics and boat frames.
Common end uses are mats, corrosion
resistant fabrics, residential heat insulating
material.
Fig.: Glass fibre Mat
15. PHENOLIC:
Phenolic fibers were prepared by melt
spinning from corresponding resin which
was polymerized from phenol.
This is a extremely heat resistant synthetic
fiber.
Phenolic fiber is otherwise known as
Novolid, Novolid fibers do not melt.
Fig: High strength phenolic
16. PROPERTIES OF
PHENOLIC:
Phenolic fiber are generally amorphous,
highly crosslinked polymers having
excellent properties such as good thermal
and chemical resistance, electrical thermal
insulation.
It is used for demanding and diverse
applications.
They have poor abrasion resistance and
used for many mechanical applications .
Fig: Phenolic carbon
prepreg fabric
26. KILLAT N:
Killat N from kanebo limited is a nylon hollow
filament.
The hollow portion is about 33 per cent of the
cross section of each filament due to which it
gives good water absorbency and warmth
retentive property.
The yarn is spun as bi‐component filament
yarn with soluble polyester copolymer as the
core portion and nylon as the skin portion.
28. BUSINESS MODEL
ABSTRACT
We based our research on market trends and social media
DESIGN
We believe people need more products specifically dedicated
to this niche market
RESEARCH
Minimalist and easy to use
20XX Pitch Deck 28
29.
30. MARKET OVERVIEW
$3 BILLION
Freedom to invent
Selectively inclusive market
Serviceable available market
$1 BILLION
Opportunity to build
Fully inclusive market
Total addressable market
$2 BILLION
Few competitors
Specifically targeted market
Serviceable obtainable market
20XX Pitch Deck 30
31. MARKET COMPARISON
$3B $2B $1B
OPPORTUNITY TO
BUILD
FREEDOM TO INVENT FEW COMPETITORS
Addressable market Serviceable market Obtainable market
20XX Pitch Deck 31
32. OUR COMPETITION
CONTOSO
Our product is priced below that of other
companies on the market
Design is simple and easy to use,
compared to the complex designs of the
competitors
Affordability is the main draw for our
consumers to our product
COMPETITORS
Company A
Product is more expensive
Companies B & C
Product is expensive and inconvenient to
use
Companies D & E
Product is affordable, but inconvenient to
use
20XX Pitch Deck 32
34. GROWTH STRATEGY
FEB 20XX
Roll out product to high profile or top-level participants to help
establish the product
MAR 20XX
Release the product to the general public and monitor press
release and social media accounts
OCT 20XX
Gather feedback and adjust product design as necessary
20XX Pitch Deck 34
37. FINANCIALS
20XX Pitch Deck 37
Year 1 Year 2 Year 3
INCOME
Users 50,000 400,000 1,600,000
Sales 500,000 4,000,000 16,000,000
Average price per sale 75 80 90
Revenue @ 15% 5,625,000 48,000,000 216,000,000
GROSS PROFIT 5,625,000 48,000,000 216,000,000
Expenses
Sales & marketing 5,062,500 38,400,000 151,200,000 70%
Customer service 1,687,500 9,600,000 21,600,000 10%
Product development 562,500 2,400,000 10,800,000 5%
Research 281,250 2,400,000 4,320,000 2%
TOTAL EXPENSES 7,593,750 52,800,000 187,920,000
38. MEET THE TEAM
TAKUMA HAYASHI MIRJAM NILSSON FLORA BERGGREN
RAJESH
SANTOSHI
President Chief Executive
Of f icer
Chief Operations
Of f icer
VP Mark eting
20XX Pitch Deck 38
39. MEET THE TEAM
TAKUMA H AYASHI
P r e s i d e n t
MIR JAM N ILSSON
C h i e f E x e c u t i v e O f f i c e r
FLORA BERGGREN
C h i e f O p e r a t i o n s O f f i c e r
R AJESH SAN TOSHI
V P M a r k e t i n g
GR AHAM BAR NES
V P P r o d u c t
R OW AN MU R PHY
S E O S t r a t e g i s t
ELIZABETH MOOR E
P r o d u c t D e s i g n e r
R OBIN KLIN E
C o n t e n t D e v e l o p e r
20XX Pitch Deck 39
40. FUNDING
$14,000
ANGEL INVESTMENTS
Amount obtained through
other investors
$12,000
PROPERTY
Revenue obtained from
property rentals
$82,000
SHARES
Number of shares
converted into USD
$32,000
CASH
Liquid cash we have on
hand
20XX Pitch Deck 40
41. SUMMARY
At Contoso, we believe in giving 110%. By using our
next-generation data architecture, we help organizations
virtually manage agile workflows. We thrive because of
our market knowledge and great team behind our
product. As our CEO says, "Efficiencies will come from
proactively transforming how we do business.”