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dnfsdd858
| Zuletzt Online: 09.12.2021
Registriert am:
09.12.2021
Beschreibung
Introduction
This article provides comprehensive information about
paper tubes, paper core and
composite cans. You will learn how these paper and paperboard products are made and
their materials of construction as well as paper tube applications, advantages and
drawbacks.
Read further to answer questions like:
What‘s the difference between paper tubes, paper tubes and composite cans?
Why should you select paper tube containers instead of plastic, glass, or metal
packaging?
What types and sizes of paper tubes are available from leading manufacturers?
How do I specify paper tubes when ordering or submitting an RFQ?
How is the quality of paper tube products I am buying tested and assured?
How easily can I dispose of or recycle used paper tubes and paper cores?
And much more...
Paper Tubes
Paper Tubes from Ace Paper Tube
I. What is a Paper Tube?
Paper tubes consist of paper or paperboard sheet layers wound together to form
strong, hollow, and usually cylindrical shapes. The paper layers are laminated or
bonded together using adhesives. The wall thickness of the tube can vary depending on
the number of layers wrapped during manufacturing.
Paper tubes are also known as paper cores, paperboard tubes, paper cans, fiber
drums with [url=http://www.papertubemachine-factory.com/paper-packaging-
machine/paper-drum-machine/]paper drum machine[/url], fiber tubes, paper tubing,
wound tubes, composite cans, coreboard tubes, and cardboard tubes. While widely used
everywhere, the term "cardboard tube" is a misnomer. Cardboard consists of
three kraft layers with the central layer corrugated.
II. Paper Tube Types and Shapes
Paper Tube and Core Types
While paper tubes, paper cores and related products are all made from wound plies
of paper or paperboard. Paper tubes with [url=http://www.papertubemachine-
factory.com/paper-core-machine/paper-tube-cutting-machine/]paper tube cutting
machine[/url] or cores can be constructed from one, two or many plies of brown kraft
paper or paperboard.
The innermost layer or ply, the liner, and the outermost layer, the wrap, can
consist of different materials (foil, film, etc.) or specialized paper. The
specialized paper and materials can provide water resistance, graphics or labeling,
or a specific color.
The two main types of paper tubes and cores include spiral wound and convolute or
parallel wound paper tubes. Convolute wound tubes are used in applications requiring
high bend strength, crush resistance and dynamic strength.
A spiral wound tube has the paper ply or plies wrapped around at an angle to the
tube's axis. In convolute tubes, the outer two edges of the paper strip are
wrapped parallel or at a 90-degree angle to the tube‘s axis.
Paper tubes have thinner walls and are widely used as containers or packaging for
products with
paper packaging machine.
A paper core is essentially a heavy-walled paper tube. The much thicker wall of
paper cores enables their use in winding webs or sheets of flexible material into
rolls in converting operations.
Paper machines produce extremely large rolls (also known as machine, jumbo,
tambour or mother rolls), which are rotary slit or converted into many narrower
smaller rolls on a winder with a paperboard core. Similar jumbo rolls are converted
in plastic film, foil, textile and coated abrasive plants.
You will be surprised that not all paper tubes are geared toward packaging
applications. Paper cores can be machine elements. Paper cores used for winding large
rolls in a paper mill or plastic film production plant are machine elements and
require extremely high strength paper cores, which are often convoluted.
Paper cores for retail or small diameter width rolls of adhesive tape, label,
foil, paper, tissue or plastic film are a packaging and dispensing product, which can
consist of a thinner, spiral wound core.
The paper tube material is rotary or saw cut into paper cans or composite cans,
shipping tubes, push tubes, pyrotechnic tubes, display poles, converting cores,
concrete piling forms, and other paper tube products.
Large fiber or composite drums and even paper straws are manufactured in a
similar winding process. Convolute winders are typically used to make composite
drums, which are a more eco-friendly alternative to steel drums. Paper straws are
spiral wound at very high speeds.
Paper Tube Shapes
You will find that most paper tubes have a cylindrical shape or round cross-
section, but paper tubes can be made with square, oval, hexagonal, triangular, and
other custom shapes by using a square, oval and custom shaped winding mandrel. Custom
shapes are useful for fitting the tube specifically to a part or product shape while
eliminating wasted space and additional spacers or packing material.
Tapered paper tubes or paper cones are wound with a cone-shaped mandrel. Paper
cones are used as yarn carriers in the textile industry.
For certain applications, you may want your paper tubes slit or cut along their
length to make half-shells such as facilitates covering large rolls for protection.
They can be reconnected with tape or h-profiles. You will find covering a paper roll
or coiled steel roll easier with half-shells compared to sliding a roll into a large
protective paper tube.
III. How Are Paper Tubes Made?
Paper Tube and Core Manufacturing
Paper tube and core manufacturing is a paper converting process combining web
slitting, web winding and lamination or adhesive bonding steps. Through multiple
wraps or revolutions of one or more paper webs or ribbons around a steel mandrel,
several layers or plies of paper or paperboard are laminated together around a steel
mandrel to form rigid, high strength tubes or fiber cores with
[url=http://www.papertubemachine-factory.com/paper-core-machine/paper-core-making-
machine/]paper core making machine[/url].
In my experience, plies are usually around 2 to 10 inches (50 to 250 mm) wide,
but in some plies are as wide as 20 inches (500 mm). Ply thicknesses are typically
around 0.008 to 0.050 (0.2 to 1.3 mm). The number of plies ranges from 1 to 50 or
more, but paper cores with 3 to 30 plies are more common.
We find that the strength of paper core is a function of the paperboard ply bond
strength, ply thickness, bond area or overlap and adhesive bond strength. What I find
interesting is that paperboards are made in a single thicker papermaking process or
by bonding or laminating several plies together, so some paper tubes can consist of
laminations or laminated plies!
To me, a review of related patents and technology definitions in the USPTO
website can help provide a greater understanding and in-depth details on the paper
tube making process. Subclass B31C provides the United States Patent and Trademark
Office (USPTO) cooperative patent classification (CPC) and technology definitions for
paper or wound tube manufacturing processes. B31C 9/00 is defined as
"Simultaneous forming of cylindrical and conical shapes by winding separate
webs, e.g. forming bottles".
The paper tube making process can include winding, folding and bending depending
on the specific shape (round, square, conical, etc.) desired in the finished end
product.
Spiral Paper Tube or Core Manufacturing
In the spiral paper tube or core manufacturing process with
paper core machine
, jumbo rolls of paper, paperboard, and lining materials are converted in a
rotary slitting operation with [url=http://www.papertubemachine-factory.com/paper-
slitting-machine/]paper slitting machine[/url] into narrower width ribbons. The paper
ribbons are rewound into narrow rolls on rewinding stands.
The narrow paper ribbon rolls are stacked in what looks to me like giant stacks
of "poker chips". The "poker chip" stacks or rolls of paper
ribbon are transported and loaded into the tube manufacturing machine.
Narrow paper webs or ribbons from several different rolls are passed through
guides and attached, adhered or taped to a steel mandrel in an overlapping fashion or
with spacing between leading edges of the paper ribbons. The festooning or spacing
allows the ribbons to feed without interference between ribbons.
You will see that by attaching the leading edge or end of the ribbon obliquely or
at an angle less than 90 degrees to the axis of the mandrel, the result is the
formation of spiral during winding.
The outer diameter of the steel mandrel determines the inner diameter of the
finished paper tube. The wall thickness of the tube is a function of the thickness of
the paper or paperboard ribbons, the adhesive thickness and the number of ribbons
used in the process.
Adhesive or glue is applied to each paper ribbon or ply before being wound onto
the steel mandrel. In my experience coating webs of paper, cloth, vulcanized fibre
and plastic film, a variety of web coaters can apply the adhesive to the plies such
as:
Roll coaters
Reverse roll coaters
Slot die coaters
Extrusion coaters
Curtain coaters
Brush coaters
Spray coaters
Blade coaters
Metering bar coaters
Dip coaters
What‘s fascinating is how the paper tube belt twists around in a helical shape
to continuously form and bond the paper tube plies together. The flexible belt wraps
around and applies pressure to the paper layers, which assures the proper formation
of adhesive bonds between the paper ribbons. The fabric reinforced rubber belt also
advances the tube forward along the mandrel.
I have to imagine that the stresses and performance requirements on the paper
tube forming belt are enormous. These belts are endless or seamless and prevent
marking. They have high tensile strength and high friction to grab and move the tube
along and easy to clean. Nitta, Passaic, Rainbow are some of the suppliers of tube
forming belts.
Next, we see that as additional paper plies are added at one end of the paper
tube forming mandrel, the formed or laminated paper tube slides off the other end of
the mandrel and is cut to length using rotary blade slicing or offline sawing
operations. Additional deburring of the tube end edge may be performed depending on
the end-use.
Another interesting aspect of the paper tube manufacturing process to me is the
ability to make an enormous amount of highly customized paper tube product or
materials combinations by using different material plies.
Liner or lining layers are used on the inner diameter (first ribbon) or outer
diameter (last ribbon) of the tube to improve water resistance, moisture resistance
or grease resistance. Liners can consist of metal sheet, foil, coated paper (wax,
silicone, or plastic), plastic film and other protective materials.
If your current application is not satisfied with existing paper tubes, you can
well imagine a custom paper tube manufacturer can engineer a new combination of
liners, plies and wraps to meet the needs of your specialized application. As long as
the order volume is sufficient.
One great ability I find in paper tube manufacturing is the ability to provide
branding through labeling or print to enhance marketing inside and out. If printed or
decorative graphics are required on the inside or outside of the paper tube, then the
printed paper ribbons or ribbons made of printable material can be used on the first
and last ribbons. A white paper or paperboard could be used on the outer layer with
stronger brown kraft paper used on the inner layers.
Convolute Paper Tube or Core Manufacturing
In the parallel or convolute paper tube or core manufacturing process, jumbo
rolls of paper, paperboard, and lining materials are converted in a slitting
operation, but not into the very narrow width ribbons used in spiral tube
manufacturing. In the convolute paper tube or core manufacturing process, the leading
edge of the ribbon is parallel to the axis of the paper tube mandrel, so a single
seam or flap along the length of the paper tube results.
An external metal roll can apply pressure instead of a belt, which squeezes out
any voids or air pockets providing better contact of the adhesive and therefore a
stronger adhesive bond between paper plies. Since the paper web is wider, higher
pressures and tension can be applied in the convolute winding process. The higher
pressures and tensions in convolute paper tube manufacturing result in tubes with
higher strength compared to the spiral wound tubes.
This article provides comprehensive information about
paper tubes, paper core and
composite cans. You will learn how these paper and paperboard products are made and
their materials of construction as well as paper tube applications, advantages and
drawbacks.
Read further to answer questions like:
What‘s the difference between paper tubes, paper tubes and composite cans?
Why should you select paper tube containers instead of plastic, glass, or metal
packaging?
What types and sizes of paper tubes are available from leading manufacturers?
How do I specify paper tubes when ordering or submitting an RFQ?
How is the quality of paper tube products I am buying tested and assured?
How easily can I dispose of or recycle used paper tubes and paper cores?
And much more...
Paper Tubes
Paper Tubes from Ace Paper Tube
I. What is a Paper Tube?
Paper tubes consist of paper or paperboard sheet layers wound together to form
strong, hollow, and usually cylindrical shapes. The paper layers are laminated or
bonded together using adhesives. The wall thickness of the tube can vary depending on
the number of layers wrapped during manufacturing.
Paper tubes are also known as paper cores, paperboard tubes, paper cans, fiber
drums with [url=http://www.papertubemachine-factory.com/paper-packaging-
machine/paper-drum-machine/]paper drum machine[/url], fiber tubes, paper tubing,
wound tubes, composite cans, coreboard tubes, and cardboard tubes. While widely used
everywhere, the term "cardboard tube" is a misnomer. Cardboard consists of
three kraft layers with the central layer corrugated.
II. Paper Tube Types and Shapes
Paper Tube and Core Types
While paper tubes, paper cores and related products are all made from wound plies
of paper or paperboard. Paper tubes with [url=http://www.papertubemachine-
factory.com/paper-core-machine/paper-tube-cutting-machine/]paper tube cutting
machine[/url] or cores can be constructed from one, two or many plies of brown kraft
paper or paperboard.
The innermost layer or ply, the liner, and the outermost layer, the wrap, can
consist of different materials (foil, film, etc.) or specialized paper. The
specialized paper and materials can provide water resistance, graphics or labeling,
or a specific color.
The two main types of paper tubes and cores include spiral wound and convolute or
parallel wound paper tubes. Convolute wound tubes are used in applications requiring
high bend strength, crush resistance and dynamic strength.
A spiral wound tube has the paper ply or plies wrapped around at an angle to the
tube's axis. In convolute tubes, the outer two edges of the paper strip are
wrapped parallel or at a 90-degree angle to the tube‘s axis.
Paper tubes have thinner walls and are widely used as containers or packaging for
products with
paper packaging machine.
A paper core is essentially a heavy-walled paper tube. The much thicker wall of
paper cores enables their use in winding webs or sheets of flexible material into
rolls in converting operations.
Paper machines produce extremely large rolls (also known as machine, jumbo,
tambour or mother rolls), which are rotary slit or converted into many narrower
smaller rolls on a winder with a paperboard core. Similar jumbo rolls are converted
in plastic film, foil, textile and coated abrasive plants.
You will be surprised that not all paper tubes are geared toward packaging
applications. Paper cores can be machine elements. Paper cores used for winding large
rolls in a paper mill or plastic film production plant are machine elements and
require extremely high strength paper cores, which are often convoluted.
Paper cores for retail or small diameter width rolls of adhesive tape, label,
foil, paper, tissue or plastic film are a packaging and dispensing product, which can
consist of a thinner, spiral wound core.
The paper tube material is rotary or saw cut into paper cans or composite cans,
shipping tubes, push tubes, pyrotechnic tubes, display poles, converting cores,
concrete piling forms, and other paper tube products.
Large fiber or composite drums and even paper straws are manufactured in a
similar winding process. Convolute winders are typically used to make composite
drums, which are a more eco-friendly alternative to steel drums. Paper straws are
spiral wound at very high speeds.
Paper Tube Shapes
You will find that most paper tubes have a cylindrical shape or round cross-
section, but paper tubes can be made with square, oval, hexagonal, triangular, and
other custom shapes by using a square, oval and custom shaped winding mandrel. Custom
shapes are useful for fitting the tube specifically to a part or product shape while
eliminating wasted space and additional spacers or packing material.
Tapered paper tubes or paper cones are wound with a cone-shaped mandrel. Paper
cones are used as yarn carriers in the textile industry.
For certain applications, you may want your paper tubes slit or cut along their
length to make half-shells such as facilitates covering large rolls for protection.
They can be reconnected with tape or h-profiles. You will find covering a paper roll
or coiled steel roll easier with half-shells compared to sliding a roll into a large
protective paper tube.
III. How Are Paper Tubes Made?
Paper Tube and Core Manufacturing
Paper tube and core manufacturing is a paper converting process combining web
slitting, web winding and lamination or adhesive bonding steps. Through multiple
wraps or revolutions of one or more paper webs or ribbons around a steel mandrel,
several layers or plies of paper or paperboard are laminated together around a steel
mandrel to form rigid, high strength tubes or fiber cores with
[url=http://www.papertubemachine-factory.com/paper-core-machine/paper-core-making-
machine/]paper core making machine[/url].
In my experience, plies are usually around 2 to 10 inches (50 to 250 mm) wide,
but in some plies are as wide as 20 inches (500 mm). Ply thicknesses are typically
around 0.008 to 0.050 (0.2 to 1.3 mm). The number of plies ranges from 1 to 50 or
more, but paper cores with 3 to 30 plies are more common.
We find that the strength of paper core is a function of the paperboard ply bond
strength, ply thickness, bond area or overlap and adhesive bond strength. What I find
interesting is that paperboards are made in a single thicker papermaking process or
by bonding or laminating several plies together, so some paper tubes can consist of
laminations or laminated plies!
To me, a review of related patents and technology definitions in the USPTO
website can help provide a greater understanding and in-depth details on the paper
tube making process. Subclass B31C provides the United States Patent and Trademark
Office (USPTO) cooperative patent classification (CPC) and technology definitions for
paper or wound tube manufacturing processes. B31C 9/00 is defined as
"Simultaneous forming of cylindrical and conical shapes by winding separate
webs, e.g. forming bottles".
The paper tube making process can include winding, folding and bending depending
on the specific shape (round, square, conical, etc.) desired in the finished end
product.
Spiral Paper Tube or Core Manufacturing
In the spiral paper tube or core manufacturing process with
paper core machine
, jumbo rolls of paper, paperboard, and lining materials are converted in a
rotary slitting operation with [url=http://www.papertubemachine-factory.com/paper-
slitting-machine/]paper slitting machine[/url] into narrower width ribbons. The paper
ribbons are rewound into narrow rolls on rewinding stands.
The narrow paper ribbon rolls are stacked in what looks to me like giant stacks
of "poker chips". The "poker chip" stacks or rolls of paper
ribbon are transported and loaded into the tube manufacturing machine.
Narrow paper webs or ribbons from several different rolls are passed through
guides and attached, adhered or taped to a steel mandrel in an overlapping fashion or
with spacing between leading edges of the paper ribbons. The festooning or spacing
allows the ribbons to feed without interference between ribbons.
You will see that by attaching the leading edge or end of the ribbon obliquely or
at an angle less than 90 degrees to the axis of the mandrel, the result is the
formation of spiral during winding.
The outer diameter of the steel mandrel determines the inner diameter of the
finished paper tube. The wall thickness of the tube is a function of the thickness of
the paper or paperboard ribbons, the adhesive thickness and the number of ribbons
used in the process.
Adhesive or glue is applied to each paper ribbon or ply before being wound onto
the steel mandrel. In my experience coating webs of paper, cloth, vulcanized fibre
and plastic film, a variety of web coaters can apply the adhesive to the plies such
as:
Roll coaters
Reverse roll coaters
Slot die coaters
Extrusion coaters
Curtain coaters
Brush coaters
Spray coaters
Blade coaters
Metering bar coaters
Dip coaters
What‘s fascinating is how the paper tube belt twists around in a helical shape
to continuously form and bond the paper tube plies together. The flexible belt wraps
around and applies pressure to the paper layers, which assures the proper formation
of adhesive bonds between the paper ribbons. The fabric reinforced rubber belt also
advances the tube forward along the mandrel.
I have to imagine that the stresses and performance requirements on the paper
tube forming belt are enormous. These belts are endless or seamless and prevent
marking. They have high tensile strength and high friction to grab and move the tube
along and easy to clean. Nitta, Passaic, Rainbow are some of the suppliers of tube
forming belts.
Next, we see that as additional paper plies are added at one end of the paper
tube forming mandrel, the formed or laminated paper tube slides off the other end of
the mandrel and is cut to length using rotary blade slicing or offline sawing
operations. Additional deburring of the tube end edge may be performed depending on
the end-use.
Another interesting aspect of the paper tube manufacturing process to me is the
ability to make an enormous amount of highly customized paper tube product or
materials combinations by using different material plies.
Liner or lining layers are used on the inner diameter (first ribbon) or outer
diameter (last ribbon) of the tube to improve water resistance, moisture resistance
or grease resistance. Liners can consist of metal sheet, foil, coated paper (wax,
silicone, or plastic), plastic film and other protective materials.
If your current application is not satisfied with existing paper tubes, you can
well imagine a custom paper tube manufacturer can engineer a new combination of
liners, plies and wraps to meet the needs of your specialized application. As long as
the order volume is sufficient.
One great ability I find in paper tube manufacturing is the ability to provide
branding through labeling or print to enhance marketing inside and out. If printed or
decorative graphics are required on the inside or outside of the paper tube, then the
printed paper ribbons or ribbons made of printable material can be used on the first
and last ribbons. A white paper or paperboard could be used on the outer layer with
stronger brown kraft paper used on the inner layers.
Convolute Paper Tube or Core Manufacturing
In the parallel or convolute paper tube or core manufacturing process, jumbo
rolls of paper, paperboard, and lining materials are converted in a slitting
operation, but not into the very narrow width ribbons used in spiral tube
manufacturing. In the convolute paper tube or core manufacturing process, the leading
edge of the ribbon is parallel to the axis of the paper tube mandrel, so a single
seam or flap along the length of the paper tube results.
An external metal roll can apply pressure instead of a belt, which squeezes out
any voids or air pockets providing better contact of the adhesive and therefore a
stronger adhesive bond between paper plies. Since the paper web is wider, higher
pressures and tension can be applied in the convolute winding process. The higher
pressures and tensions in convolute paper tube manufacturing result in tubes with
higher strength compared to the spiral wound tubes.
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