sridhar_innovative package design
TRANSCRIPT
INOVATIVE PACKAGE DESIGN AND
ANTI- COUNTERFEIT
INDUSTRIAL PROJECT REPORT
Submitted by
SRIDHARAMANIKANDAN.M
in partial fulfillment for the award of the degree
of
MASTER OF ENGINEERING
IN
PRINTING AND PACKAGING TECHNOLOGY
ITC LIMITED
SBU PACKAGING AND PRINTING DIVISION
COLLEGE OF ENGINEERING GUINDY
ANNA UNIVERSITY: CHENNAI 600 025
APRIL 2015
ANNA UNIVERSITY: CHENNAI 600 025
BONAFIDE CERTIFICATE
This is to certify that the following document is a bonafide
record of work done by SridharaManikandan. M at ITC Limited – SBU
Packaging and Printing Division, Chennai in part fulfillment of the
requirements for award of the degree M.E. (PRINTING AND
PACKAGING TECHNOLOGY, College of Engineering Guindy,
ANNA University, Chennai- 6000025. During the internship, his
performance was ………………………… and his conduct was
…………… .
Guide
(Mr. R. Boobalan)
Internship Co-ordinator.
Dept. of PPT, CEG.
ACKNOWLEDGEMENT
I am very much indebted to the ITC – Packaging and Printing Division,
Chennai for granting permission to do my Industrial Internship in their plant.
It is my privilege to submit my fervent indebtedness and heart felt profuse
thanks to my project coordinators, Dr. N.Rajeshwari , HOD , Department of Printing
and Packaging Technology, College of Engineering Guindy, ANNA University,
Chennai for his meticulous guidance, constructive criticism and keen interest in
guiding me to a better future.
A special note of thanks has to be extended to the ITC officials –
Mr.Ravishankar, Mr. Sreeramulu, Mr. Shanmuganathan, Ms. Manisha Rana
for their consent to do my project work in their plant.
It is my profound privilege to express ineffable and deep sense of gratitude to
Mr. R. Boobalan,Mr. B. Gopinath, Ms. PreetiRamakrishnan, Mr. N. Jayaprakash,
Ms. BavyaRavisankar, Ms. ArunaVahini, Mr. Baskar, Mr. Subhash, Mr.
Chandrasekar, Mr. Ponmaran, Mr. Eswar, Mr. Pavan Kumar, who have shared
their experiences with me and helped me overcome the difficulties I encountered
during the course of this project.
This section wouldn’t be complete without mentioning the name of Mr.
Angamuthu, Mr. Sridhar, Mr. Kirubakaran, Mr. Alaguraj, Mr. Subburaj,
Mr.SaravanaPerumal, Mr. Vadivel, Mr. Kariteeswaran, Mr. Anandh, and all other
workers from Quality lab and Flexible Shop Floor, who made the environment
friendly to me and helped me in my assignments throughout my project work at ITC.
Table of contents
SL. NO TITLE PAGE NUMBER
ITC- COMPANY PROFILE 1
I INTRODUCTION 8
II REVIEW OF LITERATURE 10
III MATERIALS AND METHOD 12
I V INNOVATIVE AND PACKAGE DESIGN 16
V SUMMARY AND CONCLUSION 20
VI REFERENCES 21
Project Report - 2015
1 CEG, Anna University ITC-PPD, Chennai
ITC-The Company
Indian Tobacco Company Limited is one of India‟s foremost private sector companies
with a market capitalization of nearly US $15 billion and a turnover of over US $4.75 billion.
ITC ranks among India‟s top 10 „Most Valuable (Company) Brands’, in a study conducted by
Brand Finance and published by the Economic Times. ITC has a diversified presence in
cigarettes, Hotels, Paperboards, Printing and Packaging, Agri Business, Packaged foods &
confectionery, Information Technology, Branded Apparel, Greeting Cards, Safety Matches and
other FMCG products. While ITC is an outstanding market leader in its traditional businesses of
cigarettes, hotels, Paperboards, Packaging and Agri-Exports, it is rapidly gaining market share
even in its nascent businesses of packaged foods & Confectionery, Branded Apparel and
Stationery.
ITC PPB (Printing and packaging business), a division of ITC is one of the biggest
converter of packaging material in India. The rise of this division has been through the consistent
delivery of innovative, high quality, and cost effective solutions that have enhanced brand values
and improved the quality of packaging.
ITC PPB operating from three factories located in Chennai (TVT), Haridwar and
Munger, equipped with some of the best technologies in the world. ITC PPB was started in 1925
in Munger (Bihar) and as of today they produce 70,000 tonnes of paperboard cartons and they
are the largest converter in India.
ITC PPB ventured into flexible packaging in 2006 and is a formidable player in that
segment also. ITC PPB has a strong R&D focus and they promote innovative solutions for
packaging which adds a lot of value thus enhancing the brand value of the products. ITC PPB
caters to customers from diverse sectors like tobacco, liquor, FMCG, telecom, etc., providing
them with the best quality packaging solutions.
Project Report - 2015
2 CEG, Anna University ITC-PPD, Chennai
Packaging and Printing Division(PPD)
Thirvottiyur Plant( TVT)
ITC's Packaging & Printing Business is the largest value added converter of paperboard
packaging in South Asia. It converts over 70,000 tonnes of paper, paperboard and laminates per
annum into a variety of value-added packaging solutions for the food & beverage, personal
products, cigarette, liquor and consumer goods industries.
The Division, which was set up in 1925 as a strategic backward integration for ITC's
Cigarettes business, is today India's most sophisticated packaging house. State-of-the-art
technology, world-class quality and a highly skilled and dedicated team have combined to
position ITC as the first-choice supplier of high value added packaging.
With three packaging factories at Tiruvottiyur, Chennai (in the South), Munger in Bihar
(in the East), and Haridwar (in the North of India), the Company offers a comprehensive
product range in packaging backed by its packaging expertise over the decades and cutting edge
technology making it truly a "One stop shop for Packaging".
Product Lines
ITC's Packaging Business has 3 major product lines
• Carton Board Packaging
ITC occupies a leadership position in catering to the needs of the liquor, mobile phones &
food. ITC offers a range of value additions for carton board packaging such as UV offset
printing, Foil Stamping, Embossing, Window patching & lined cartons, etc.
Project Report - 2015
3 CEG, Anna University ITC-PPD, Chennai
• Flexible Packaging
Flexible Packaging is an area of high growth, supported with investments in technology
and equipment from world class suppliers. ITC offers a completely integrated solution for
laminates from Pre-press, In-house Blown Film, Cast film, Extrusion Lamination, Hot Melt
Coating, specialty pouching and bag making. This is backed by in house cylinder making and
pre-press support.
• Tobacco packaging
ITC offers a range of products line including flip top boxes (Square, Round, Beveled and
Pillow Pack Hinge lids etc), Outers, Soft Cup labels, Pack inserts, Printed cork tipping, printed
overwraps, inner frames. ITC makes value added shoulder boxes for cigars and cigarettes.
ITC supplies packaging for over 80 billion cigarettes a year domestically, and supplies
packaging for 15 billion cigarette sticks a year for the export market to leading tobacco majors.
Innovation & New Product Development
ITC has enhanced the value of some of the most favoured brands with superior look-and-
feel packaging, using the best raw materials and process combinations, and an in-house pre-press
Design Centre.
A Product Introduction Process team pioneers packaging innovations. The team uses a
unique process to pilot the client's packaging through its manufacturing system. Specifications
are evolved based on clients' needs based on which a variety of packaging solutions is generated.
The efficacy of the packaging is tested simulating the client's factory conditions. ITC has
contemporary laboratories for its 3 product lines for testing packaging requirements.
Green Packaging
ITC Packaging has pioneered offering of Green Packaging which includes usage of raw
material from sustainable sources and conversion of the same in a facility which is 100%
powered by renewable energy (Wind Energy). This clean energy initiative along with the other
sustainability initiatives helps the Packaging Business to significantly contribute to ITC being a
carbon Positive, Water Positive and Solid Waste Recycling Positive Company.
Project Report - 2015
4 CEG, Anna University ITC-PPD, Chennai
Awards
ITC's Packaging business has won numerous awards for its quality, environmental
management systems and product excellence:
• All the 3 factories are ISO 9001, ISO 14001 and OSHAS 18001 certified.
• ITC Packaging is the first in India to achieve Level 8 certification on the International
Quality Rating System (IQRS).
• Chennai Unit & DHQ achieved Level 8 in 2007 , Munger Unit in 2009.
One among the manufacturing facility of ITC‟s Packaging and Printing Division and a
pilot plant for most of the development and innovation inputs, TVT is setting new records of
production along with utmost care to the ultimate quality served.
All Research and Development work is carried out in TVT, as per business sourced
through dedicated marketing team and all such R&D inputs are fed to other plants viz., UPF
(Haridwar) , MPF (Munger, Bihar). Such a blend of services rendered by this old plant makes it
perfect to learn all Technical, Managerial, organisational and Logical skills and makes a perfect
launch pad for any technical intern to inculcate basics of packaging industry.
A glimpse of vast area comprises following vital components of TVT is as follows:
• General Office: All top level management including Works manager, Finance Head,
Material Head, Flexible Module head operate from here.
Departments like Finance, Materials have all their operations running from this office.
Office also has conference rooms for important meetings including monthly management
review (MMR) meeting.
• Marketing Office: Having B2B (business to business) type industry, marketing team is
responsible to fuel the business along with the support from PIP (Production Introduction
Process), their Technical Wing to give the best possible Packaging Solution to the
customer.
Project Report - 2015
5 CEG, Anna University ITC-PPD, Chennai
All such think tanks operate from Marketing Office as Head Marketing and PIP team also
operates from there.
• HR: Provides manpower solution to the factory by recruiting employee for smooth
running of the system. Recruitment, Training, Security, Employee welfare and Mess
facility are their functional area.
• MIS: Cater all the IT related needs of the plant like Data management, SAP Module
Working and Internal Communication Needs like Lotus Notes and Data Sharing.
• Other areas include Security office, Utility Building, Waste Yard, Warehouse, Time
office, Siegwork inks, In-house Cylinder making, Engineering.
• Production Facility is trifurcated and prominent as three different „Modules‟ on the basis
of input pattern and materials forms the most part of TVT Plant.
Production:
All production facility is operated at different components of whole plant:
Plant A
Converting Paper boards to high-end cartons with Input Material is in the form of Sheets,
Heidelberg Offset machines prints the paper substrate followed by other Value-addition optional
steps like Gravure Coat, Foil Stamping, Corrugating Board Lamination, Paper Lamination,
Polymer Lamination, Embossing and Window Patching and also some mandatory steps like
Cutting and Creasing, Folding and Gluing to complete the routing of carton making.
Module is serving sectors like electronics, Liquor, Foods, FMCG industries and Tobacco
Industry etc.
Project Report - 2015
6 CEG, Anna University ITC-PPD, Chennai
Plant B
Input material is in Reel Form, substrate is most of the times Paper board. Gravure is the
printing method used and some machines have Cutting and Creasing, Folding and gluing, built
in.
Module comprises of high end machines like Hinge Lid Pack Printing machine, Cigarette
Box Outer Printing Machine, Cigarette Cork tipping Printing machine, 6-color, Gay wrap
Printing Machine.
FLEXIBLES –QUALITY TESTING
Printing Tests:
Treatments (dyne/cm2)
Thickness (µ)
Seal Strength (kgf/25mm)
Ink GSM (Operator, Centre, Drive)
Shade
Print Register
Tape Test (Scotch Tape)
Repeat Length
Coil Width
Unwinding Direction (Readable/Unreadable)
Odour
Pouch Testing
Pouch Height/Width
Centre Seal Width
Bottom Seal Width
Pouch weight
Gusset width
Gusset sealing
Lamination Tests:
Seal Strength (Kg/25mm)
Adhesive GSM (Operator, Centre, Drive)
Oven Test
Green Bond
Back Treatment
Speckling/Pin Holes
Blown Film Testing/Cast Propylene
Testing
GSM (Avg. GSM)
Lay flat Width (mm)
Thickness (µ)
COF (F-F/F-M)
Tensile Strength (Kgf/cm2MD/CD)
Drop Test
Elongation (% MD/CD)
Seal Strength (kgf/25mm)
Treatment Level (dyne/cm2)
Opacity (%)
Dart Impact (gm/50% failure)
Slitting/Finished Coils
GSM
Coil Width (mm)
Repeat Length (mm)
Coil Inner Diameter (mm)
Coil Outer Diameter (mm)
Core Type (Paper/Plastic)
Unwind Direction (Readable/Unreadable)
Bond Strength (gmf/25 mm)
Seal Strength (Kgf/25 mm)
COF
Hot Tack
GC (Gas Chromatography)(mg/m2)
Treatments (dyne/cm2)
Project Report - 2015
7 CEG, Anna University ITC-PPD, Chennai
FLEXIBLES –PRODUCTS
Food Sector:
Biscuit laminate
Instant Noodle Laminate
Atta Laminate
Snack laminate
Confectionery laminate
Shrink Sleeve for Beverages
Butter – Cup Lid
Sugar Laminate
Dhal Laminate
Tea Laminates (Primary Pack)
Laminate for Tomato Paste
Project Report - 2015
8 CEG, Anna University ITC-PPD, Chennai
INOVATIVE PACKAGE DESIGN AND ANTI- COUNTERFEIT
CHAPTER - 1
INTRODUCTION
Packaging plays a huge role in terms of the retail success of a product, and innovative
packaging design can even boost the brand behind a given product. Many companies have
approached this strategy in different ways, but what's the big payoff for investing time into
boosting a product's packaging.
It can define and set your brand apart. Companies have become famous for their
innovative package design, and were able to dominate older with fresh style and strong branding.
To set itself apart, the company debuted packaging that was very aesthetically different from
other products on the market. The products were consistently monochromatic with a very distinct
sketch-like appearance that set it far apart from more traditional brands.
Great packaging can elevate the perceived value of your product. Aside from furthering
your company's branding and message, innovative packaging design can help define your
product as exceptional. It offers consumers a reason to choose your product over others.
Creative packaging, particularly packaging that serves consumers in an innovative way, gives
customers good reason to select your brand's products over others. In addition to the branding
advantages of creative packaging design, it can boost sales by simply offering more value to
customers. Innovative packaging design can be a fantastic way to achieve branding and sales
goals, and should be carefully considered when it comes to strategy.
There are a many anti-counterfeit technologies available to manufacture for the brand
owners, ranging from very simple but effective, through to the highly sophisticated and
extremely secured. The majority is to add one or more of the packaging components. Some
futures to be applied on the package either by markings or by using physical or chemical markers
within the formulation.
Project Report - 2015
9 CEG, Anna University ITC-PPD, Chennai
The purpose of an anti-counterfeit features is primarily to enable the authentication of an
item, by government, industrial investigator, or ideally, by the wider public. The second function
may be act as a deterrent to anyone considering counterfeit to the product based on the difficulty
or cost loss involved set against the liking hood of detection, and therefore prosecution. It must
be stressed that security device on packaging components provide no assurance as to the
authenticity of the content, which may have been substituted or adulterated. Security device
alone do not reduce counterfeits, but are designed to make them easier to detect.
Objectives
• To study the Anit-counterfeit methodology and design a new Innovative package
Project Report - 2015
10 CEG, Anna University ITC-PPD, Chennai
CHAPTER – 2
REVIEW OF LITERATURE
LITERATURE REVIEW:
The literature review contains the abstract of published by different authors on the subject
relevant to the project. A brief description is given below.
2.1 Anti-Counterfeiting Packaging by Technology (Authentication & and Track & Trace),
by Application (Food & Beverage, Pharmaceuticals, and Others):
Mark Anes, etal studied the packing of the FMCG goods in a secure way by using FRID tags in
March 2014 and publish his paper. In this study he explained about the implementation Anti-
counterfeiting in packaging by using technology. The pack is tracked by using RFID strips.
2.2 Board interlocking network and the design of executive compensation packages:
The standard approach used to model interlocks in the business and management literature is to
treat each interlock of a network as an independent data point. However, such an approach
ignores the complex inter-dependencies among the common director interlocks. We propose that
an interlocking board network is an important inter-corporate setting that has bearing on how
company boards make corporate decisions. Using a sample of 725 large U.S.-based public
companies over the period 2007–2010, board member information, executive compensation
information, and exponential random graph modeling (ERGM) techniques for social networks,
we present evidence that board interlocks are positively linked with similarities in the design of
executive compensation packages in interlocked firms, particularly the proportions of the options
component. We also find evidence that board interlocks are positively linked with similarities in
a number of board characteristics.
Project Report - 2015
11 CEG, Anna University ITC-PPD, Chennai
2.3 Considering Emotions in Product Package Design through Combining Conjoint
Analysis with Psycho Physiological Measurements:
Successful new product development is a basis for economic growth and exporting ability. It is
also a guarantee of survival for enterprises. As products have to be attractive for customers, the
main role in new product development is on the customer-needs analysis. Conjoint analysis is
one of the most used methods in mapping of consumer preferences. Nowadays consumers are
mainly satisfying higher-order needs and therefore the role of emotions and thus visual design of
product package in buying decisions has increased. Conjoint analysis in the same time presumes
that consumers are rational in their decisions and are maximizing their utility functions. In this
paper we combined conjoint analysis method with psycho physiological measurements. Usually
in conjoint analysis respondents have to rank conception cards based on their preferences. We
ranked pictures of product versions based on the measured strength of the positive emotions
these pictures created to respondents. In the study we manipulated with the visual elements of
apple juice carton and conducted an “emotion based conjoint analysis” with 107 persons. Results
indicate that with the help of our combined method it is possible to detect how important are
different visual factors on the package in generating positive emotions to buyers.
Project Report - 2015
12 CEG, Anna University ITC-PPD, Chennai
CHAPTER – 3
MATERIALS AND METHODS
3.1 Preliminary Tests
The used Hologram materials for Anti-counterfeit is checked for Tensile strength and
COF before lamination and after lamination is tested
3.2 Hologram Studies and solution:
Hologram strip is incorporated into film in the lamination process. 60µ white LDPE is laminated
with printed 35µ PET film. In this process the Hologram strip of 10µPET film printed with 3µ of
Hologram is introduced at 80°c and 5bar pressure. The print gets transferred at this condition and
remaining PET film is removed using suction pump.
3.3 Problems faced in hologram:
The laminator machine has maximum speed of 450meters/minute, when the Hologram
input is added the speed can‟t be achieved above 150meters/minute. Rejection of jobs occurs due
to pressure marks, improper transfer of hologram print and occurrence of air bubbles.
3.4 Observation Trial And Error Result:
Tensile strength of the Hologram strips are tested and tensile strength at which the Hologram
print starts to deform is noted.
Table 3.1
920
930
940
950
960
970
sample 1 sample 2 sample 3 sample 4
Tensile strength (kgf/cm2)
Tensile strength (kgf/cm2)
Project Report - 2015
13 CEG, Anna University ITC-PPD, Chennai
The graph shows the point at which the print starts to deform in the strip due to tensile force.
Table 3.2
The point 22.9N*5mm is the load at which the print gets deformed. The tension force is
formed in the input due to the following parameters, torque of the roller, angular velocity, feed
pressure, gravity, roller diameter, roller width.
In the company systematic process alternating this parameter will make production loss,
thus my research suggested a motor in feed mechanism instead of in feed due to the nip point
force. Thus the tension between the nip point and in feed wind is maintained.
During the work the final reel gets improper wind makes a telescopic reel. This problem
occurs due to the change in the Co Efficient of Friction value changes due to the continuous strip
of hologram is laminated.
Before lamination the COF value of poly film static= 0.274 and dynamic= 0.236, after
lamination the COF value changes to static= 0.365 and dynamic= 0.314
0
5
10
15
20
25
30
35
-20 0 20 40 60 80
Load (N) vs Extension (mm)
Project Report - 2015
14 CEG, Anna University ITC-PPD, Chennai
3.5 Mechanical Parameters cause these problems:
Tensile Force:
Ultimate tensile strength (UTS), often shortened to tensile strength (TS) or ultimate
strength, is the maximum stress that a material can withstand while being stretched or pulled
before failing or breaking. Tensile strength is not the same as compressive strength and the
values can be quite different. Some materials will break sharply, without plastic deformation, in
what is called a brittle failure. Others, which are more ductile, including most metals, will
experience some plastic deformation and possibly necking before fracture. The UTS is usually
found by performing a tensile test and recording the engineering stress versus strain. The highest
point of the stress–strain curve is the UTS. It is an intensive property; therefore its value does not
depend on the size of the test specimen. However, it is dependent on other factors, such as the
preparation of the specimen, the presence or otherwise of surface defects, and the temperature of
the test environment and material. Tensile strengths are rarely used in the design of ductile
members, but they are important in brittle members. They are tabulated for common materials
such as alloys, composite materials, ceramics, plastics, and wood.Tensile strength is defined as a
stress, which is measured as force per unit area. For some non-homogeneous materials (or for
assembled components) it can be reported just as a force or as a force per unit width. In the
International System of Units (SI), the unit is the pascal (Pa) or, equivalently to pascals, newtons
per square metre (N/m²). A United States customary unit is pounds per square inch (lbf/in² or
psi), or kilo-pounds per square inch (ksi, or sometimes kpsi), which is equal to 1000 psi; kilo-
pounds per square inch are commonly used when measuring tensile strengths.
Nip Pressure:
The pressure between the rollers, the "nip pressure", can be reduced by heating the rolls and/or
moistening the paper surface. This helps to keep the bulk and the stiffness of the web paper
which is beneficial for its later use.
Angular Velocity:
The angular velocity is defined as the rate of change of angular displacement and is a
vector quantity (more precisely, a pseudo vector) which specifies the angular speed (rotational
Project Report - 2015
15 CEG, Anna University ITC-PPD, Chennai
speed) of an object and the axis about which the object is rotating. The SI unit of angular
velocity is radians per second, although it may be measured in other units such as degrees per
second, degrees per hour, etc. Angular velocity is usually represented by the symbol omega (ω,
rarely Ω). The direction of the angular velocity vector is perpendicular to the plane of rotation, in
a direction which is usually specified by the right-hand rule.
3.6 Results and Discussions:
Many methodologies for Anti-counterfeit is analyzed and new design are made. The existing
method is analyzed and better solution is made and alternative solution for the problems is
explained.
Problems Identified in Hologram
Identified a suitable Idea to face the problem
Suitable solution are made
Project Report - 2015
16 CEG, Anna University ITC-PPD, Chennai
CHAPTER – 4
Innovative Package Design
4.1 Plastics Cups
A plastic cup is a cup made out of plastic. It is most commonly used as a container to hold beverages.
Some are reusable while others are intended for a single use followed by recycling or disposal.
4.2 Distinguishing features
Plastic cups come in a variety of colors, textures and sizes. Most plastic cups contain a resin
identification code which can be seen by inverting the cup and reading the numerical value
printed on the bottom. One should check the adequacy of the cup material for hot drinks, since if
it contains bisphenol-A, at 100ºC it gives off 55 times more of this chemical to the liquid, than at
20ºC.
4.3 Uses
Plastic cups are often used for gatherings where it would be inconvenient to wash dishes
afterward, due to factors such as location or number of guests. Plastic cups can be used for
storing most liquids, but hot liquids may melt or warp the material.
4.4 Environmental issues
Most plastic cups are designed for single uses and then disposal or recycling. A life cycle
inventory of a comparison of paper and plastic shows environmental effects of both with no clear
winner.Production of one metric ton of plastic cup emits 135 pounds of green house gases. The
choice between paper cups and plastic cups resides in the life of the after use. A paper cup may
biodegrade faster than a Styrofoam cup or a plastic cup. In general cardboard or paper takes 1 to
3 months for biodegradation as the majority of the content, up to 95%, is made with wood chips.
As for a plastic cup it can take up to 90 years, depending on the type of plastic. Plastic cups are
made with oil, which is not a renewable source, where paper could come from the 20% of this
planets forest who fall under sustainable management. Plastic cups, specially made with
Project Report - 2015
17 CEG, Anna University ITC-PPD, Chennai
Polystyrene are also a possible health hazard as chemicals may leach into the beverage. This is
more likely to happen with warm drinks (hot chocolate, tea and coffee) than with cold drinks.
4.5 Concept
In FMCG market now a day semi solid food products are packed in round shaped cup and
sealed by using aluminum foil. In order to make that simple, the cups are designed in triangular
shape so that the closure can be used as spoon.
4.6 Design Consideration:
o Height of the triangle should be greater than the depth of the cup
o Triangle can be Isosceles or Equilateral
o Angles and Dimension
4.7 Design Dimensions:
Equilateral triangle is selected; it can be easily accommodate in bulk packaging and stack
height can be achieved drastically compared to round cups.
Base Triangle dimension 150mm all sides at 60 °
Top Triangle dimension 100mm all sides at 60°
Depth of the Cup is 50mm
Swept angle of the cup is Appox 62°
Project Report - 2015
18 CEG, Anna University ITC-PPD, Chennai
4.8 Designed 2-D and 3-D with Auto-CAD and PRO-E:
Auto CAD is used to design in 2-D, the 2-D representation of the design is shown below
Fig 4.1
Project Report - 2015
19 CEG, Anna University ITC-PPD, Chennai
Pro-E is used to design in 3-D; the 3-D representation of the design is shown below
Fig 4.2
Project Report - 2015
20 CEG, Anna University ITC-PPD, Chennai
CHAPTER – 5
SUMMARY AND CONCLUSION
Collected the literature survey and Analysed the key anti-counterfeit
technologies and to implement in flexible packaging.
Identified a suitable methodology.
Analyzed the problem faced in existing Anti- Counterfeit
Design parameters for Innovative Ideas is analysed
Design is made using Auto-Cad and Pro- E software
Testing for the safety and utility
In this project the basic materials needed are collected. The Innovative Package
design is made for better customer satisfaction and easy to use. Anti counterfeit
problems are analysed successfully.
Project Report - 2015
21 CEG, Anna University ITC-PPD, Chennai
REFERENCES
1. http://www.goodfood-project.org/.
2. K. Opasjumruskit, T. Thanthipwan, O. Sathusen, P. Sirinamarattana,P.
Gadmanee, E. Pootarapan, N. Wongkomet, A. Thanachayanont,
M.Thamsirianunt, Self-powered wireless temperature sensors exploit RFID
technology, IEEE Pervasive Compute. 5 (2006) 1268–1536.
3. D. Numakura, Flexible circuits, in: Printed Circuits Handbook, fifth ed.,
McGraw Hill, New York, 2001, p. 1205.
4. http://www.dupont.com/fcm/products/pyralux.html/.
5. E. Abad, V.S. Raffa, B. Mazzolai, S. Marco, A. Krenkow, T. Becker,
Development of a flexible tag microlab, Proc. SPIE 5836 (2005) 599–606.
6. MSP430x1xx Family user‟s Guide, Texas Instruments (SLAU049E).
7. en.wikipedia.org/wiki/Packaging_and_labeling
8. http://www.iopp.org/files/public/UWStoutErinHoppe
9. www.copackflexible.com