2. LAMINAR FLEXIBLE
MATERIALS:
âLAMINAR FLEXIBLE
MATERIALSâ
CLASSIFICATION
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
As âlaminar flexible materialsâ in this conference can be meant
those semifinished materials who present the âdimension Zâ
(namely the thickness) estremely reduced, so that they are very
flexible, so flexible to be considered âfunctional materialsâ, since
they are not properly âstructuralâ ones; because of their main
characteristic, they are mostly used as coating and for containing.
Hence in this class can be mentioned the following:
â leather;
â fabrics;
â ânon-wovenâ fabrics;
â polymeric films and correlated âmultilayerâ films.
3. LAMINAR FLEXIBLE
MATERIALS :
LEATHER: definition,
importance in the
past and criticity of
contemporary
application
Semifinished materials of âleather industryâ, related to the so
called âleather goodsâ sector, âfursâ included, are tecnically all
defined âleatherâ.
In this conference, even if the importance of leather in the human
history and evolution it is recognized, this raw material, and its
derivatives, is not eligible as âreference materialâ, considering
the consequences that the use of leather determines in terms of
âsensitiveâ animal sacrifice; this point of view has been widely
discussed in the contexts of âanimalistâ and âecosofyâ cultures
(cf., among others, the writings of Singer and Naess respectively).
Because of the above mentioned notes, leather in this conference is
not treated.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
4.
5. LAMINAR FLEXIBLE
MATERIALS:
TEXTILE FIBERS:
classification
Textile fibers are foundamental to produce fabrics, ânon-wovenâ
fabrics and sometimes âreinforcedâ polymeric films.
Generally, they can be classified into four great categories,
depending on their origin, who can be:
â animal;
â vegetal;
â mineral;
â artificial and synthetical.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
6. LAMINAR FLEXIBLE
MATERIALS:
TEXTILE FIBERS:
ANIMAL ORIGIN
fibers
Animal origin textile fibers principally are wool and silk. As known
the former is got by the animals fur, especially ovines (from a
point of view, this production origin is the same of the leather one),
and the latter is derived by the silkworm.
These fibers, in spite of the concurrency of the vegetal ones as well
as the advent of synthetic, preserve a certain market. Surely their
production strongly depends on the breeding of the animals who
generate them (think of the mullberry tree colture, whose leaves is
the nutrition of silkworm, so flourishing in north Italy until the middle
of the last century).
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
11. Mineral origin textile fibers are basically the ones who can be
derived by metals (aluminium, silver, gold), glass âand silicatesâ,
carbon âgraphite includedâ etc. Asbestos fiber, due to its toxicity,
is unused.
Metals, glass and carbon, together with their similar, by means of
special âspinningâ procedures can be reduced into âthreadsâ.
These fibers are used in special applications, like in the
âcomposite materialsâ field where both glass and carbon fibers
are far important.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
TEXTILE FIBERS:
MINERAL ORIGIN
fibers
13. These textile fibers are divided into two categories: the artificial
origin fibers are those âchemicallyâ transformed by ânaturalâ
polymers (already existing in nature; for example viscose, derived
by cellulose as well as many other of either animal proteins or
vegetal proteins origin); the synthetic origin fibers instead are
based on the chemistry of polymeric materials (the typologies are
uncountable and coincide with the polymers families: PET, PA, PP,
PUR etc. in the various trademarks like, respectively, Terital, Nylon,
Meraklon, Elastane etc.).
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
TEXTILE FIBERS:
ARTIFICIAL AND
SYNTHETIC ORIGIN
fibers
1/2
14. Polymers for their nature are macromolecules who can have a
very high molecular weight âsuch as âlengthââ so that they can be
âmolecular fibersâ. While considering the historical role of the
artificial fibers, synthetic ones present the enormous advantage to
be designed at molecular scale, furthermore in their fiber
âsectionâ (like in âhollow fibersâ); the result is the adaptability to
many applications; moreover they do not need any dyeing (they
are coloured âin massâ) and can be modified with infinit additives;
because of that potential the so called âtechnical suitsâ are almost
always made by means of synthetic fibers; in the future ânano-
fibersâ could allow amazing characteristics.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
TEXTILE FIBERS:
ARTIFICIAL AND
SYNTHETIC ORIGIN
fibers
2/2
16. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: fabrics
classification
There are many ways to classify fabrics, anyway the most used is
that based on the shape of thread âintersectionsâ, that is the
result of either the weaving machine âweaveâ, or the particular
production technique type; therefore the following main fabrics
can be distinguished:
â fabrics with rectilinear threads, also known as âwoven warp
loomâ (e. g. the so called âdenimâ);
â fabrics with rectilinear âfabrics workâ threads, also known as
âJacquardâ (e. g. the âdamaskâ);
â fabrics with curvilinear threads, also known as âknitted fabricsâ
(e. g. the âjerseyâ);
â fabrics with knotted threads, (e. g. the ânetsâ).
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
17. Fabrics with rectilinear threads are also known as âwoven warp
loomâ, because they are produced by means of the classic
weaving machine. In this machine the âheddlesâ are fundamental
organs whose aim is the separation of the different âwarpsâ, so that
the âweftâ can be inserted. They are constructed with at least two
âsetsâ of threads ââweftâ and âwarpââ and present simple
âpatternsâ; examples among these semifinished materials are
represented by the âcanvasâ, the âdenimâ âthe fabric of jeansâ, and
the âpied de pouleâ.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
FABRICS: fabrics
with rectilinear
threads (âwoven
warp loomâ)
20. Fabrics with rectilinear âfabrics workâ threads are also known as
âJacquardâ, from the name of the inventor of the special weaving
machine with which they are produced: they are fabrics in which the
weave pattern presents a certain complexity (e. g. the âdamaskâ);
in these weaving machines each thread of warp is controlled by a
single âmeshâ of heddle, sometimes driven by the hole of a
punched card who houses the correlated counterweight; these
fabrics often are constructed onto a simple canvas, who is the
base of the fabric structure.
LAMINAR FLEXIBLE
MATERIALS:
TESSUTI: fabrics
with rectilinear
âfabrics workâ
threads (âJaquardâ)
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
22. The fabrics with curvilinear threads are the so called âknitted
fabricsâ: they are constructed with special machines (they are
called âknitting machinesâ), even with a single thread row. Often
the production plants are dedicated to a single kind of final
product , as it happens for example with socks production.
Depending on the process flow direction, it is used to classify knitted
fabric into two types: âweft knittingâ and âwarp knittingâ (these
terms come from the traditional weaving technology, since in this
process âweftâ and âwarpâ are not defined). An example among
these products is the âjerseyâ.
LAMINAR FLEXIBLE
MATERIALS:
FABRICS: fabrics
with curvilinear
threads (âknitted
fabricsâ)
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
23. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: fabrics
with curvilinear
threads (âknitted
fabricsâ)
artisanal production of
a sock
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
25. Fabrics with knotted threads are produced by means of special
machines, and can be got even with a single row of thread: to
these category belong any kind of ânetâ, whose applications are
numberless, often extended to technical fields.
LAMINAR FLEXIBLE
MATERIALS:
FABRICS: fabrics
with knotted threads
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
26.
27. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: weaving
machine weaving
A fabric produced by means of a weaving machine is the weaving
product of a fiber who is previously subject to âcardingâ and
âspinningâ, if necessary; the former is mainly the orientation of the
fiber; the latter is the reduction of it either to âyarnâ or âthreadâ; the
goal of those operations is to create a thread intersection who is
called âweaveâ. In the geometric configuration produced by the
weaving machine, the threads aligned alongside the weaving flow
are called âwarpâ, while the ones (if necessary just in one âsetâ)
aligned orthogonally are called âweftâ. The semi finished fabric can
be subjected to âdyeingâ (in case either the yarn or the thread
would have not been already coloured in mass) or âprintingâ, and
sometimes they can be âlaminatedâ and âcoupledâ with other
flexible semi finished materials, mostly polymeric. In the
classification of weaving machined fabrics it is important to indicate
the âtype of weaveâ.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
28. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: âweaveâ
scheme of a fabric
made by means of
weaving machine
(rectilinear thread
fabrics); the âweaveâ
is always got by the
intersection of
âwarpâ and âweftâ
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
29. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: âweaveâ
scheme of a
âknittedâ fabric
(curvilinear thread
fabrics); the thread (if
necessary just in one
âsetâ) is connected
by means of
âmeshesâ
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
31. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: weaving
machine scheme for
artisanal weaving
with âcanvas weaveâ
(note that the
industrial machine is
based on the same
kinematic principles)
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
34. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: type of
weaves of weaving
machined fabrics
(rectilinear threads
fabrics)
âRectilinear threadsâ fabrics can be produced creating different kinds
of âweavesâ. The fundamental weaves are three: âcanvas weaveâ,
âtwill weaveâ (also known as âdiagonalâ), âsatin weaveâ; from
these weaves others like âgauzeâ, âpanamaâ, âhedgehogâ etc. are
derived. As already said, when it is necessary to design complex
patterns, special weaves, so called âJacquardâ are prepared.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
35. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: CANVAS
weave of a fabric
It is the simplest
weave: weft and warp
alternate each other;
threads can assume
both different colour
and shape, even
grouped, creating very
simple textures, like
âcheckeredâ
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
36. LAMINAR FLEXIBLE
MATERIALS:
FABRICS: TWILL
weave (also known
as DIAGONAL) of a
fabric
It is very common:
weft thread passes
over two, maximum
four, warp threads,
creating the
characteristic
âdiagonal textureâ;
âdenimâ (jeans) and
âpied de pouleâ are
made with this weave
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
37.
38. LAMINAR FLEXIBLE
MATERIALS:
TESSUTI:
HEDGEHOG weave
of a fabric
This important weave
can be based both on
the canvas weave
and twill one: it is
added a weft thread
that, extracted in
shape of rings, can
be used this way
(woven âspongeâ
effect) or, in case
these âringsâ were
opened, either a âfur
effectâ is reached
(âpelucheâ) or âvelvetâ
is got.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
39. LAMINAR FLEXIBLE
MATERIALS:
TESSUTI: JAQUARD
weave of a fabric
Complex textures â
better to say âart
workââ need to be
prepared with
dedicated weaving
machines, in which
even each single
thread can be
controlled along the
weaving process
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
44. LAMINAR FLEXIBLE
MATERIALS:
âNON-WOVENâ
FABRICS: definition
and characteristics
A ânon-wovenâ fabric, that is a ânon-fabricâ, is a semi finished flexible
laminar material similar to a fabric but got by means of different
intersection techniques in which thread is almost always
discontinuous and randomly worked. The peculiar characteristic
of these materials is that the âthird dimensionâ, that is the thickness,
is not depending on the thickness of the thread, so that it can be
remarkable; this is possible because the cohesion of the fibers
does not depend on the intersection itself (like in the fabrics
weaves) but is correlated to other principles (simple adhesion,
thermal processes, adhesive substances etc.). Felt, wadding,
fiberglass mat, many glass fiber semi finished materials for
composites are example of this typology. Often they are used in
combination with fabrics and polymeric films.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
45. LAMINAR FLEXIBLE
MATERIALS:
âNON-WOVENâ
FABRICS: felt
This ancient material is
produced by means of
the so called âfeltingâ
process, where the
main cause of the
fibers cohesion is the
friction induced by
the animal fur hair
scales (âadhesionâ)
TECNOLOGIA DELLA
PRODUZIONE
Arch. Sergio Antonio Salvi
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
46. LAMINAR FLEXIBLE
MATERIALS:
âNON-WOVENâ
FABRICS : cotton
wadding
It is a widely used non-
woven material,
especially applied in
the health sector
(above all cotton wool)
and for paddings
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
47. LAMINAR FLEXIBLE
MATERIALS:
âNON-WOVENâ
FABRICS : non-
woven polypropylen
fiber
These semi finished
materials
characteristics are
related to their
polymers
TECNOLOGIA DELLA
PRODUZIONE
Arch. Sergio Antonio Salvi
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
48. LAMINAR FLEXIBLE
MATERIALS:
âNON-WOVENâ
FABRICS : glass fiber
strand matâ
These semi finished
materials are
fundamental for
composite materials
production
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
49. LAMINAR FLEXIBLE
MATERIALS:
âNON-WOVENâ
FABRICS : glass fiber
strand matâ
âDarâ armchair with
seat and backrest
made of glass fiber
reinforced polyester
(des. Eams, prod.
Herman Miller
Collection, USA 1948)
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
50. LAMINAR FLEXIBLE
MATERIALS:
POLYMERIC FILMS
AND âMULTILAYERâ
FILMS: production
sector and
characteristics
Polymeric films, above all âmulti-layersâ, are among the most
important products of the plastic materials industry.
Thermoplastic materials can be easily reduced into films and,
thanks to their phisical peculiarity, present the possibility to be
coupled in layers to every laminar flexible material (fabric, non-
woven, metal thin sheet, wood veneer etc.). In multilayers the
fundamental technological concept is that the functionality of
the semi finished material is the sum of the single layer
function (s). Polymeric based multi-layers are applied in almost all
industrial sectors, such as: building and civil works; boating;
furnishing; technical suits; footwear; toys; food and drinks
packaging; packaging in general etc.
PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
51. PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
POLYMERIC FILMS
AND âMULTILAYERâ
FILMS:
thermoplastics
calendering
This technology one of
the most important
process to get thick
multilayers
Scheme of the
process
52.
53. PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
POLYMERIC FILMS
AND âMULTILAYERâ
FILMS: film extrusion
Film extrusion is one
of the most important
process to get thin
multilayer films
Plant scheme and
detail of extrusion
die
56. PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
POLYMERIC FILMS
AND âMULTILAYERâ
FILMS: products
examples
Matress âTransformerâ,
who can be âshapedâ
by means of a hand
operated vacuum
pump, and seat
âTorsoâ, inflatable by
means of a vacuum
cleaner whose flow
must be inverted
(respectively: des.
Arad, prod. One Off,
1983; des. Deganello,
prod. Cassina, 1982)
57. PRODUCT
DEVELOPMENT AND
MANUFACTURING
TECHNOLOGIES
Sergio Antonio Salvi
LAMINAR FLEXIBLE
MATERIALS:
POLYMERIC FILMS
AND âMULTILAYERâ
FILMS: products
examples
Multilayers made of
aramidic fibers
(Kevlar) and polymeric
films aimed to get
flexible composite
materials