PAPER AND PAPER BOARDS
Prepared by Mrs.M.Janani
Department of Commerce (International Business)
Government Arts College, Coimbatore – 18. Reference: Fundamentals of Packaging Technology
Authors: S.Natarajan M.Govindarajan
V.Kumar
TYPES OF PAPER Paper is truly a renewable resource used for packaging. Paper and paper board packaging comprises about 30
per cent of total use of packaging materials in India. Two broad types of paper used in packaging are coarse
paper and fine paper.
I. Coarse Paper
Nearly all the papers used for packaging come into the category of coarse paper. The classifications of the
coarse paper used in packaging are:
• Kraft paper
• Vegetable parchment paper
• Sulphite paper
• Tissue paper
II. Fine Paper
Fine paper are classified as:
• Greaseproof paper
• Glassine
TYPES OF PAPERS AND THEIR CHARACTERISTICS
Types of paper Thickness in mm Characteristics Applications
Kraft 0.1-0.8 A strong paper that is brown when unbleached, can be bleached white and
printed. Usually used in multiple layer or ‘plies’ (3 or 4 ply are most
common) in order to give the necessary strength. Can also be laminated to
polythene or wax treated paper to give greater moisture protection. Sack
material is designated from the outer ply according to the number and
weight of the layers. For example, 2/90-1/80 kraft, means that there are 3
plies, the two outer ones having a weight of 90 gsm and the inner having a
weight of 80 gsm.
25-50 kg sacks used for containing
flour, sugar, dried fruits, vegetable
and cement
Vegetable
parchment
0.05-0.1 Kraft paper that has been further treated with acid during its preparation to
make the surface smoother and more resistant to penetration by oils or
water (more greaseproof and greater wet strength than kraft paper).
Negligible barrier properties to air or moisture and not heat sealable. It is
not used for food package that require protection against air or moisture
pickup.
Fats, such as butter or fresh / dried
fish
Sulphite paper 0.04-0.06 A lighter and weaker paper than kraft or parchment, usually made with a
glazed surface to improve the appearance and to increase wet strength and
oil resistance. (When glazed it is known as Machine Glazed (MG) sulphite
paper). The glazed surface can be printed using flexographic methods, but
for higher print quality the paper should be coated. It is also used to
laminate paper with plastics or foil.
Used as small bags or wrapper for
biscuits or confectionery
TYPES OF PAPERS AND THEIR CHARACTERISTICS
Types of paper Thickness in mm Characteristics Applications
Greaseproof
paper
0.05-0.08 Made by beating fibres more thoroughly during the
manufacture of sulphite pulp. The smaller fibres make a
denser surface which is more resistant to oil. However, this
resistance is lost when the paper becomes wet.
Fresh fish or meat, liner for
shipping boxes, butter /
cheese, liner for packs of
biscuits, fats and other oily
foods.
Glassine 0.03-0.05 A translucent sulphite paper gives a high gloss surface. The
gloss makes it more resistant to water when it is dry, but if
the papers become wet it loses resistance.
Liner for biscuits, cooking fats
and fast foods
Tissue paper 0.035 A thin, weak sulphite paper, it is often machine glazed on one
side (known as MG tissue). A special type of tissue paper
with small regular perforations is used to make tea bags.
Wrapping fresh fruits to
prevent bruising, making dip
tea bags
TREATED PAPERS Paper are generally treated with wax or laminated with poly material to improve barrier
properties. Two types of treated papers are wax treated and laminated paper.
1. Wax Treated Paper
Papers can be treated with wax to improve their barrier properties and make them
heat-sealable. These papers are used to package cereal products, bread and
spices.
The methods of applying wax to paper are as follows:
• Coating
Coating is applied after the paper has been made. However, the coating is easily
damaged by folding the paper or by abrasive foods (e.g. dried foods). Damage can
be avoided by laminating a layer of wax between two layers of paper or between a
layer of paper and a layer of polythene.
TREATED PAPERS • Dry waxing
During manufacture, the hot paper is treated with melted wax so that it penetrates into the fibrous
structure of the paper. This improves the durability of the wax barrier.
• Wax sizing
The wax is added to the pulp during the initial stages of preparation and becomes fully integrated
into the structure of the paper. This method of waxing enables the ingredients to become deeply
ingrained into the paper and therefore, it is not easily damaged by folding the paper or by
abrasion.
2. Laminated Paper
Paper can be laminated to low-density polythene to make it heat sealable and to improve its
barrier properties (air and moisture). Lamination to aluminium foil or to other types of plastic can
also be made. However, in each case the cost is increased. Laminated paper are used to pack
herbs, coffee powder, dried soup, spices and other dried foods which requires a barrier
protection to moisture, air and to give longer shelf-life.
ADVANTAGES / LIMITATIONS OF PAPER BASED PACKAGE MATERIALS
Advantages Limitations
Lowest unit cost Poor mechanical properties
Lowest tare weight ratio Non-supporting character of paper body
Securely closed on all sides Poor durability
Bags/Pouches tailored to fit snugly
around the product
Wrinkles and folds makes the package
unattractive
Less storage space Susceptible to fail under mechanical
hazards and climatic hazards
Sizes to suit conceivable product Breakage factor ½-2% to be considered
in the design problems in warehouse
stacking
FOLDING CARTONS Folding cartons are popular in food and pharmaceutical packaging. The folding cartons are also used as
primary package to contain collapsible tube and similar products. The folding cartons give adequate
mechanical protections as well as good shelf stability for the collapsible tubes. The flat die cut board can be
folded to make box of the required shape and style. The folding cartons are also called as Collapsible Folding
Cartons (CFCs). The reasons for wide choices are:
• Very economical in cost of material as well as in fabrication and assembly.
• Being collapsible, it can occupy minimum space in shipping and in storage.
• Good printing and embossing can be done on the carton surface.
• Attractive designs, value-added features and sales appeal to the carton can be provided.
• Versatility of the packaging is evident with different size and styles.
• Special features like windows can be cut into blank with little or no additional cost.
Some limitations of folding cartons are:
• Folding cartons are rather flimsy in comparison with setup box or plastic container.
• Less rigidity of the folding cartons.
• The maximum size and weight of the package is relatively low and hence, it is not suitable for containing
heavy and bulky objects.
FOLDING CARTONS Style and Designs of Boxes
• Several boxes with elegant design can be printed on single sheet and can be die cut on single sheet and creased at the same time. Mixed size printing and die cutting operation to make varied boxes is called as combinational run.
• The carton quality can be adjusted by the number of ups on the board or by drops-off.
• The folding cartons are kept in flat position and erected during use.
• The folding cartons can be handled with automatic machines for folding, glueing, filling the products, sealing and palletizing operations.
• A great variety of style, size can be made, with built-in-platform, extended panel, curved scores and other novel treatments.
• The folding box is a useful versatile packing form. The folding cartons are also called as tubular cartons. In this construction, the board is folded on four parallel lines with a small overlap, which is glued down to form a tube. The ends of cuts are creased to provide flaps and lock in place.
DIFFERENT TYPES OF FOLDING CARTONS
Parallel tuck-in end
Reverse tuck-in end
Skillet end cartons
Envelope base
Crashlock base
Six spot corner glued
Pillow pack glued
FOLDING CARTONS Depending on the design, end of a carton and type tuck, the cartons are
classified as parallel or reverse and skillet end cartons. The tuck end cartons
are not generally sealed. In a sealed end carton the outer flaps are glued
down after filling. These types of cartons are called skillet end cartons and
contain product like powder, liquid, solid and granular items, special locks are
also provided at bottom flap of cartons to contain heavy object. Extra tongues
and slots are provided on the envelope base cartons to ensure that they will
not open during transit. The other styles like cutouts, extensions are also
used to increase the visibility or for holding objects in right position. The
design of the folding boxes can be enhanced with perforations, hinges, slots
and sleeves with little additional cost.
FOLDING CARTONS Selection of Material for Folding Cartons
• The paperboard used for folding carton should not crack along score lines.
• The different thickness and grade of board are used for varied application. These boards
usually have 140-200 gsm with outer layer for better quality printing.
• If the carton is used to protect the contents mechanically no special requirements are
imposed.
• For pasty liquids or frozen food materials, the board must be treated to give protection
and impermeation to water vapour and gas.
• The board must be modified with paraffin wax or hot melt coating or laminated with
polyethylene or polycarbonate. These materials also permit easy heat sealing qualities
and provide hermetically closed ends.
• The board stiffness is a function of elasticity of a material in grain and cross grain
direction of the board. Since most fres are oriented in machine directions, the stiffness is
FOLDING CARTONS • The grain of the board for a good design of cartons usually runs around the box and
perpendicular to the main scores. This provides more stiffness across the span from one
score line to the other and facilitate main panel to lie flat.
• Bulk carton with granular products will bulge due to internal pressure of contents. The panel
area is an important factor for such cases. The degree of bulge also has little effect in
increasing thickness of the board.
• The humidity also affects performance of the board and may reduce the stiffness. As the
caliper of the board increases, the moment of inertia increases in proportion to square of the
distance from the centre of the board to the outside surface. The outer plies, therefore, have
the highest effect on the surface.
• Chipboard is generally used for packing dry fruits, cereals and cake mixes. It is also used for
non-food items like toys and hardware supplies. For direct contact with food and cosmetics
applications, high quality surface is required. The bleached board is generally used for such
applications. The clay coated paper board is used for ultra fine printing of half tone images.
CARTON DESIGN CONSIDERATION • The choice of material, style of the box will depend on the type of product and
market requirement of particular item.
• The selection of the cartons may be based on factors such as cubic volume,
weight, standard shelf size (dimension), convenience feature and cost.
• The cost is a prime consideration, if the carton structure is utilitarian, such as
customer pack or institutional or industrial package. Besides, providing protection
against mechanical hazards, the carton must give good display and stability in
shelf. It should also give good appearance when stacked in mass display.
• The physical dimensions of cartons should be proportioned to give good
impression, but it should not be deceptive. The strength of the carton board,
quality of the board and press work all contribute to good appearance on shelf.
The package should also provide customer convenience by giving easy to pick up
and hold facilities.
CARTONING SYSTEM A cartoning system combines a special carton with the machinery to erect it from a flat position, filling it
with a product and closing it. The machinery may be semi-automatic or fully automatic in operation. In
cartoning system, main operations performed are:
Forming or erecting the carton: The material may be fed to the carton erection point as continuous
web, as flat carton blank or as folded carton flat with a manufacturer's joint secured.
Loading the carton: Product loading can be done by top loading or side loading. Top loading system
has only one face open at the point of filling.
Closing or sealing of the cartons: The factors listed below are considered for selection of the
cartoning system.
Machinery consideration
• Production rate and expected peak load
• Range of pack size involved
• Frequency of the change in size
• Whether the existing system can accommodate changes in the pack size
CARTONING SYSTEM Product factor
• Product variation-easiness to control and product compatibility with machine.
• Availability of material handling-equipment like conveyor, monorails, lift truck
and cranes.
• Board and carton requirement-required barriers properties to odour, moisture
and oxygen
• Loading techniques -top loading is better than side loading
Board and carton requirement
• Board requirement in terms of decoration and selling power
• The degree of protection the carton must provide to content
General consideration
• Compatibility of the proposed machine with the existing system
SETUP BOXES The setup boxes are rigid boxes made from fibreboard. These boxes cannot be
collapsed. This is in contrast to folding cartons which is shipped flat and erected at the
point of filling.
Advantages
• Less use of sophisticated machines and tooling .
• Complicated and expensive dies are not required .
• Better versatility and rigidity of the box
• Good appearance to provide better display values .
• Easily accommodate small production runs and unusual forms
Limitations
• Occupies large floor area in shop floor and warehouse
• Cost is higher than folding cartons
STYLE OF SETUP BOXES
CORRUGATED BOARD
Corrugated board consists of a central member-medium
(flute). These flutes are glued with one or two flat sheets
of paper or paper board (facing) to form different types of
corrugated board. The corrugated board is classified
based on the number of liner or medium used The
configuration of corrugated board is based on the
principle of arch.
BASIC COMPONENTS OF CORRUGATED BOX
TYPES OF CORRUGATED BOARD
PROPERTIES OF CORRUGATED BOARD
The corrugate board is the dominant in transport packing. Corrugated board has
achieved its position due to:
• Using wide variety of paper and board material to give a wide range of properties –
structural and graphic
• Creating a large number of structural designs adopted to the needs of both
products and distribution system
• Mechanical properties of the paper in corrugated board being comparable to other
basic materials like glass and polystyrene
• Strength / cost value of board is outstanding
• Ease and flexibility of changing structural and graphic designs depending on display
and information needs
• Suitability to meet the varied production needs
• Flexibility to change structural designs depending on consumer needs and other
PROPERTIES OF CORRUGATED BOARD
The corrugated medium may be made of kraft, bagasse or straw board. Liner boards
are generally cylinder kraft, filled sheet made from scrap paper. The process of
adhering to the flat sheet with corrugated medium is called combining. The machine
used for this purpose is called combiner. A Corrugated board package is usually built
so that the flutes are oriented in the direction of the compression load of package. If
the load direction is parallel to corrugation, the board provides maximum stacking
strength. The rigidity of the board is influenced by the factors, such as:
• Height of flutes,
• Frequency of flutes,
• Integrity of flutes,
• Elastic stiffness of the liners, and
• Fibre orientation of the paper used.
FLUTE SELECTION • Corrugated board is normally made in four flute sizes designated as A, B, C and E.
• The type of flute to be used depends on the product contents and their fragility, density and self-supporting
characteristics.
• If top to bottom compressive resistance is important, A-flute is better choice. Fragile products needs better
cushioning effect from A-fluted board, except for denser product which create flat crush.
• For greater crush resistance, B-flute with more lines, contacts between the corrugated medium and the
facing, is a better choice. It also gives greater strength at the score line and better end to end crush
resistance. B-flute fold more easily and makes a neat looking package for small boxes.
• C-fluted board is an economic compromise between A and B-flute. C-flute uses less material than A-flute. It
gives the cushioning quality of A-flute and flat crush value of B-flute. It also gives reasonably good stacking
qualities and stiffness properties.
• E-flute provides an excellent printing surface and works well with automatic equipment. It provides better
strength than comparable carton board for the same weight. The E-flute can combine with other flutes to
give improved properties. Combination of different flute provides a large number of alternatives for varied
applications. For providing good compressive strength and printing surface, E-flute board may be combined
TYPES OF CORRUGATED BOXES
• The corrugated box is the most widely used shipping container. These containers
are generally collapsed to make it flat.
• The most frequently used style of box is the regular slotted container, which are
popularly called as RSC.
• In addition to its use as shipping container, corrugated board is also used for
bracing, blocking and cushioning applications. Partitions inside the box are
provided to hold the products in place or apart from each other.
• Stacked sections inside the box act as cushion for heavy products.
• Corrugated board provides the cost-effective protection to the products. It gives
major contribution to the modern distribution system.
TYPES OF CORRUGATED BOXES • The corrugated shape offer rigidity to board and cushioning properties.
The most frequently used style of box is Regular Slotted Container
(RSC) in which all the flaps are of the same length and the outer flaps
meet in the centre. It is made from single piece of fibreboard and is
shipped flat to the user plant.
• Normally the direction of corrugation in a box is vertical. This provides
the maximum strength in stacking. The liners have corrugation usually
in horizontal direction, to withstand the shock from sliding down from
the chutes. The end of blank box can be joined in several ways. The
edges may be joined by metal stitches or stables. This joint is called
manufacturer joint.
TYPES OF CORRUGATED BOXES
TYPES OF CORRUGATED BOXES
STYLE OF INTERIORS USED IN CORRUGATED BOXES
STYLE OF INTERIORS USED IN CORRUGATED BOXES
STYLE OF INTERIORS USED IN CORRUGATED BOXES
STYLE OF INTERIORS USED IN CORRUGATED BOXES
TYPES OF MANUFACTURING JOINTS
FIBRE DRUM Fibre drum is used for shipping bulk chemicals and other
industrial products like adhesives, pastes, paints and certain food
products with proper lining. Fibre drums are generally used for
dry products. It can also be used to contain pastes and certain
kind of liquids with suitable liners. Fibre drums are light weight.
and have good strength in proportion to their weight. Although a
fibre drum is a single trip container, it can be reconditioned and
used for several trips. Fibre tubes and composite cans are made
from paper board to contain cosmetic and hard ware items.
FIBRE DRUM Advantages of Fibre Containers
• Light weight and less tare weight
• Shipping weight can be reduced
• Fibre drum have a strength to weight ratio as long as they are stacked
upright
• Provides excellent protection against spoilage
• Easy opening and closing features
• Recycling and easy disposal
• Fibre drum is the most economical rigid shipping container for bulk
packaging of powder and granular materials.
FIBRE DRUM • Three methods of producing fibre containers are spiral winding, lap seaming and convolute wounded
containers.
• In the spiral winding system. the paper board is slit into narrow width and wound into roll of 75 to 100
mm diameter. The outer stock forms a label. The printing is inclined, so that when it is wrapped
around, the tube printing becomes straight and matches where edges built together. The roll
containing paper is mounted on unwind stand. The paper board is threaded in the glue pot, where it
is coated with the adhesives like silicate and dextrin.
• Convolute winding of several layers coiled on the top of spiral wounded bodies. Liquid products are
shipped in fibre drum with special liners. All fibre drums are made as straight cylinders. The end
pieces are either made of 24-30 gauge steel or water proof fibreboard. The outer layer of fibreboard
and end disc may be water proofed using wax coating.
• The barrier material, such as asphalt or polyethylene is applied between the plies.
• Steel covers are secured by locking ring with a toggle to draw it up tightly against metal rim of the
drum. A gasket in the cover provides hermetic seal.
• Toggle action of the lever makes it easy to close and pilfer-proof. Wire seal can also be used for
MULTIWALL PAPER SACKS • Multiwall paper sacks are made of kraft paper or extensible kraft paper.
• The sacks are made of multiple layers of paper ranging from 2-6 layers of
different grammages with different strength.
• The diferent types of paper sacks are: pillow type. guset type. etc. Multiwall paper
sacks provide a good print.
• They can be made waterproof by providing waterproof on the outer layer or
protecting the product from moisture by using polyethylene on the inner side of
the sack.
• Multiwall paper sacks are gaining popularity in recent times. They are being used
for keeping products, like cement, fertilizers, carbon blocks, bulk drugs and plastie
granules.
• The selection of multiwall paper sack depends on nature of product, handling
methods and storage hazards.
PLASTIC WOVEN SACKS
These sacks are becoming popular as
an alternative to jute bags. They are
used to pack food grains, chemical
fertilizers, bulk drugs, cement, plastic
and granules.
PAPER BAGS
Paper pouches or bags are used to
contain powder granular products.
Laminated papers are also used in
making pouch to contain liquid and
pasty products.
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