The smell of burnt paper. Determining the type of fabric by burning
Nylon is a polyamide fiber.
- Nylon is a strong fiber (45 – 70 CH/tex).
· In terms of strength it is second only to glass. When wet, the strength does not decrease (10 - 15%).
· Elongation is 20-25%, when wet it increases by 3-5%.
· Elasticity is a distinctive feature of p/a fibers: with small tensile forces, the reverse deformation of nylon is 90-95% of the total elongation.
· Nylon is characterized by very high resistance to abrasion and repeated deformation. The abrasion resistance of nylon is taken as 100%.
· The heat resistance of nylon is low t=65 0 C, t 100-110 0 C.
· The light resistance of nylon is also insufficient; to increase heat and light resistance, stabilizers are added to the composition of polyamides.
· Chemoresistant. Withstands acids and alkalis up to medium concentrations.
· Resistant to microorganisms.
The disadvantages of nylon include low hygroscopicity (4-5%), reduced adhesion, poor colorability, increased rigidity and electrification.
Combustion . When brought to the flame, it melts, then lights up with a weak bluish-yellow flame, spreading white smoke and the smell of sealing wax. When removed from the flame, the combustion stops and a solid gray ball solidifies at the end.
MODIFICATIONS OF P/A FIBERS
SHELON-1– is a profiled thread with a complex cross-sectional shape, which makes it possible to create open channels (capillaries) and porosity in the thread. This thread structure significantly improves its hygroscopic properties. Fabrics made from Shelon-1 threads are close in their properties to fabrics from natural silk. Products made from them are pleasant to wear and do not cause skin irritation, because... porous fiber provides good ventilation.
TRILOBAL– physically modified complex-profile polyamide thread. Gives products softness, silkiness, increased porosity, which increases the breathability and moisture conductivity of materials.
CAPRYLON AND MEGALON– chemically modified polya fibers, which are obtained by side grafting of a copolymer containing hydroxylone groups. Such fibers are close to cotton in hygroscopicity (5-7%) and surpass it in strength and abrasion resistance. The susceptibility of fibers to dyes is increased.
LAVSAN
Lavsan – polyester fiber
The starting material for its production, polyethylene terephthalate, is a product of the interaction of dimethyl terephthalate and ethylene glycol.
- Lavsan is a strong fiber. The breaking load of conventional fibers reaches 40-50 CH/tex. When wet, the strength remains virtually unchanged.
- The elongation is 20-25%.
- The fibers are highly elastic: when stretched up to 5-6%, the elongation is completely reversible, so lavsan fabrics do not wrinkle after washing and cleaning. Lavsan is the most elastic fiber.
- Lavsan is highly resistant to abrasion (second only to polyamide fibers).
- The fiber is resistant to light. It is also positive that when exposed to light, products made from polyethylene fibers do not change their color to the same extent as others.
- The fiber is heat-resistant, t=180 0 C, tto=140-160 0 C.
- Resistance to acids and oxidizing agents is higher for polyester fibers than for polyamide fibers. However, the fibers are not sufficiently resistant to alkalis, especially when heated.
- Lavsan has a slight shrinkage, so the products have a stable shape.
- Has high dielectric properties.
- Resistant to microorganisms.
DISADVANTAGES: low hygroscopicity (0.5%), high electrification, poor paintability, pilling.
Combustion : When brought to a flame, it shrinks, melts, then ignites. Burns with a calm yellowish flame with the release of black soot. A hard black ball hardens at the end.
MODIFICATIONS: complex-profile polyethylene thread shelon-2.
NITRON
Nitron – polyacrylonitrile fiber (PAN). It is obtained mainly in the form of staple fiber.
Nitron is a very light, soft, wool-like fiber that has low thermal conductivity, the indicators of which are close to the thermal conductivity of wool. Nitron is inert to pollutants, so products are easy to clean.
· Nitron – strong fiber (32-39 CH/tex). Due to low hygroscopicity in the wet state, strength almost does not lose (2-5%).
· Elongation depends on the degree of drawing and ranges from 16 to 35%.
· Good elastic properties.
· Nitron is the most light-resistant fiber. After a year of aging in the open air, nitron retains 80% of its strength, and cotton - 5%.
· Heat resistance 180 0 C, t WTO = 140-160 0 C.
· The fiber is resistant to microorganisms and is not damaged by moths.
· Nitron is resistant to oxidizing agents and organic acids, but unstable to concentrated solutions of alkalis and inorganic acids.
Disadvantages include:
· Low hygroscopicity (2%).
· Poor colorability.
· Low abrasion resistance.
· Significant electrification and pillability.
Combustion : When brought to the flame, it first shrinks, melts, then burns intensely, with flashes, highlighting a large number of black soot. After the combustion stops, an irregularly shaped influx remains.
Compared to other synthetic fibers, nitron has the advantage of being easy to modify, which makes it possible to give them specific properties over a wide range: dyeability with dyes of various classes, antistatic, non-flammable, porous, transparent, increased strength, stable crimp, adhesion (scaly fibers), etc. d.
CHLORINE
Chlorine refers to polyvinyl chloride fibers. The raw material is vinyl chloride, obtained from ethylene or acetylene by saturating them with chlorine.
Chlorine differs from other chemical fibers in its lack of shine.
· Less durable than others synthetic fibers. When wet, the strength does not decrease.
· Elasticity is lower than other synthetic fibers.
· Low heat resistance (t=70 0 C), when heated to t=90-100 0 C, the fiber begins to deform.
· Low light fastness.
· Non-hygroscopic fiber (0.1%).
· High chemical resistance. Chlorine is the most chemical-resistant fiber (dissolves in chloroform and perchlorethylene).
Combustion The fiber is non-flammable. When brought to the flame, it shrinks greatly, chars, but does not burn, and emits the smell of chlorine.
Application
1. Therapeutic underwear for patients with rheumatism and radiculitis (since chlorine is capable of accumulating electrical charges on its surface).
2. Overalls for workers in the chemical industry (since the fiber is very chemical resistant).
3. Overalls for fishermen and foresters (since chlorine is resistant to microorganisms and does not absorb water).
VINOL
Vinol belongs to the class of polyvinyl alcohol fibers.
Polyvinyl alcohol fibers are produced in small quantities. They are produced in the form of staples (for household products), high-strength threads for technical purposes and special-purpose fibers - water-soluble, ion-exchange, bactericidal.
· A special feature of vinol is its high hygroscopicity (8%), due to the large number of hydroxyl groups, and good colorability.
· Vinol is a strong fiber (30-40 CH/tex).
· Elongation of regular staple fiber is 30-35%.
· Satisfactory elastic properties.
· High abrasion resistance (vinol is second only to polyamide fibers in this indicator).
· Heat-resistant fiber (t=180 0 C). Withstands boiling washing, hot ironing, and dries quickly.
· Thermal conductivity is close to wool.
· Light fastness is good.
· Under the influence of water, strength decreases by 15-25%.
· Resistant to alkalis, but strength decreases when heated.
· Dissolves in concentrated acid solutions in the cold.
When introduced into the flame, it shrinks, then burns with a yellowish flame. After the combustion stops, a solid influx of light brown color remains.
SPANDEX (LYCRA)
Spandex is a polyurethane fiber.
Distinctive feature polyurethane threads – their high elasticity (elongation at break can be 800%). When elongated by 300%, the proportion of elastic elongation is 92-98%. Polyurethane threads give textile materials high elasticity, resilience, dimensional stability, and wrinkle resistance. They are highly resistant to abrasion, mold and sweat, are easy to paint, and are resistant to chemicals and light weather.
However, spandex fibers have a low breaking load, are not hygroscopic (0.8-0.9%), and have low heat resistance (80-100 0 C). When heated to 150 0 C, thermal destruction begins, the threads turn yellow, and their rigidity increases.
They burn like lavsan.
Application. Polyurethane threads are used to make elastic fabrics and knitwear. They act as frame rods around which threads from other fibers are wound.
Usually distinguished in the store synthetic fabric from natural it is no more difficult. Just read the composition of the material on the price tag, or ask the seller. In addition, natural fabrics are often much more expensive than synthetics. However, there are quite a lot of situations where the composition of the tissue is unknown. How can you find out what the fabric is made of? Read under the cut.
Serious doubts regarding the composition of the fabric may arise if you buy a piece secondhand, or if you discover large deposits of fabric of unknown origin at home. :) Sometimes I doubt the composition of the fabric even in the store. For example, if the cotton feels too silky or stretchy. Or if it doesn't wrinkle at all.
But why so scrupulously find out the true composition of the material? Firstly, to understand whether the price of the fabric you have chosen is adequate. And secondly, many people prefer to wear only natural fabrics. I am one of them. I feel hot in synthetics, but the worst thing is allergic reactions. Of course, there must be an integrated approach, and nutrition, as well as cosmetics, should also be as natural as possible. But clothing can be a big factor in combating unpleasant skin reactions.
In my opinion, with experience, many fabrics can be identified by touch. For example, natural wool has a very recognizable smell, and silk is easy to recognize by touch. But, of course, you can always run into a very well-made synthetic fabric. How to determine the composition of the fabric? For this we need... Matches or a lighter. Yes, yes, we will check the composition of the fabric this old-fashioned way.
For my experiment I selected:
Viscose lining fabric.
Unnamed fabric, synthetic in my opinion.
Unnamed chiffon, similar to synthetics.
Let's start the experiment. General rule for all natural fabrics: the ashes should be ground into powder. The ashes of mixed fabrics cannot be ground into powder; lumps will still remain between your fingers.
How should wool behave?
The wool curls up into a ball and emits a burnt lint smell.
Result: I admit that wool was the most difficult for me. Since almost all wool was added, this slightly changed the reaction of the fabric to ignition. And, as you can see, the ashes were not ground into powder.
Cotton should burn like paper.
Result: a piece of fabric caught fire like paper, the ashes were perfectly ground into powder. Confirming the composition of cotton was very simple.
The burning silk should “jump” above the match and not emit any odor.
The chemical industry produces large quantities of chemical fibers used to make clothing and other goods. When degreasing with chlorinated hydrocarbons, some of the fibers may be completely or partially dissolved, such as fibers obtained from vinyl chloride. Some types of products undergo such shrinkage during the degreasing process that they completely lose consumer properties: for example, a size 48 jersey becomes a size 30. Products made from silk acetate may be destroyed during the process by the use of acetone, acetic acid and other reagents. All this made it necessary to recognize fibrous composition products.
Fibers can be recognized by the nature of their combustion, by their solubility in various solvents, by their dyeability, as well as by their melting point, fluorescence and luminescence.
When examining fibers using a microscope, they are examined both in the longitudinal and transverse directions (transverse sections), comparing those studied with standards.
Despite the fact that there are many fiber recognition methods, most of them are unsuitable for work in factories, as they require a significant investment of time, large samples of the materials being studied, or the use of special equipment.
Express fiber recognition methods applicable to collection points and dry cleaning factories
Recognition of fabric fibers by combustion pattern
The method of recognizing fibers by burning them is the simplest. Using it, you can identify a whole range of fibers quite accurately. When burning fibers in the flame of an alcohol lamp or burner, they take into account the nature of combustion (quiet flame or combustion accompanied by melting), the type of flame (smoking or not), the smell, the type of residue after combustion, and then make a conclusion about whether the fibers belong to one class or another.
|
Sunbathing |
Character |
Behavior outside the flame |
Smell when burning |
Character |
|
|
Cotton, viscose fiber |
Burn quickly without soot or melting |
Gray ash |
|||
|
Natural silk, wool |
Burn moderately without soot or melting |
Fragile black ball |
|||
|
Acetate |
Burns moderately, without soot, melts |
Vinegar |
Dark brown ball |
||
|
Nylon, nylon |
Burn moderately without soot, melt |
Hard, dark, shiny ball |
|||
|
Burns quickly with soot and melting |
|||||
|
doesn't melt |
Dark, matte, loose ball |
||||
|
Polypropylene |
Burns quickly, without soot, melts |
Non-fragile black ball |
|||
|
with soot and melting |
Fragile black ball |
Recognition of fabric fibers by solubility
Fibers can also be recognized by their solubility in different solvents.
|
Processing sequence |
Solvent |
||
|
dissolve |
Do not dissolve |
||
|
Doorman's Reagent |
Viscose, copper-ammonia |
Acetate, polyester, polyamide, polyvinyl chloride, polyacrylonitrile |
|
|
Acetic acid, glacial, cold |
Acetate |
Polyester, polyamide, polyvinyl chloride, polyacrylonitrile |
|
|
Hydrochloric acid cold |
Nylon, anide (when the solution is diluted with water, a precipitate forms) |
Polyamide (undecane), polyester, polyvinyl chloride, polyacrylonitrile |
|
|
Nitric acid, concentrated cold |
Polyacrylonitrile (nitron) |
Polyamide (undecane), polyester, polyvinyl chloride |
|
|
Concentrated cold sulfuric acid |
Polyamide (undecane), polyester (lavsan) |
Polyvinyl chloride (chlorine) |
|
Recognition of fabric fibers by dyeability
For undyed fibers, it is possible to recognize fibers by their dyeability in a dye mixture. The mixture is prepared by dissolving the following dyes in 1 liter of water, g:
Chloramine orange 1.0
Chloramine yellow 2.0
Diamond blue FFR extra 1.0
Eosin extra 1.0
Cellitone pink R 0.5
Dispersant 1.0
Celliton pink R is dissolved in water at 50-60° C. The remaining dyes are dissolved at boiling. The fiber sample to be analyzed is placed in a boiling dye solution for 3 minutes. Samples are then selected, washed with cold water and boiled in a bath containing 1 g/L dispersant for 1 min. As a result of dyeing, the fibers obtain the following color:
|
Natural silk |
|
|
Woolen |
Dark purple |
|
Cotton |
Gray-yellow |
|
Casein |
Red-violet |
|
Mercerized cotton |
Bright yellow |
|
Copper-ammonia |
Orange-brown |
|
Acetate |
|
|
Polyamide |
|
|
Polyvinyl chloride |
Colorless |
There are also methods from NITHIB and MIT.
The comfort of a product in sewing and wearing largely depends on the fibrous composition of the threads from which the fabric is made. Unfortunately, the fiber composition of fabrics is not always indicated correctly or is not indicated at all. Therefore, it is important to learn how to determine the fibrous composition yourself.
The fibrous composition can and should be determined by appearance, to the touch and by the nature of combustion. A combustion test is the simplest and most accurate way to determine the fibrous composition of a material. All you need for this is a piece of material, tweezers, a lighter and a saucer.
When conducting a combustion test, we pay attention to the nature of the flame, smell, density and color of the ash.
Next, watch the video or read the text below
More natural plant fibers
Cotton, flax, nettle, hemp... are based on the natural polymer cellulose.
Combustion character:
Burn with an intense yellow flame. After fading, there is a light smoke with the smell of burnt paper. After combustion, a light, fragile gray-white ash remains, which can be easily rubbed with your fingers.
Natural animal fibers
Natural silk is based on a natural polymer, the protein fibroin.
Wool is based on a natural polymer, the protein keratin.
Combustion character:
When brought into the flame they light up, when taken out of the flame they die out. The smell of burnt hair (feather, bone). After combustion, dark, brittle ash remains and can be easily rubbed with your fingers.
Wool has a richer smell of burnt hair than natural silk.
Man-made fibers
Viscose, bamboo - based on natural polymer cellulose
The combustion pattern is similar to cotton:
Burn with an intense yellow flame. After combustion, a fragile ash of gray or dark color remains, which is easily rubbed with your fingers.
Synthetic fibers
When introduced into the flame, nylon melts and ignites with difficulty. If the molten mass begins to drip, combustion stops and a melted ball forms at the end.
Lavsan and nitron burn with a yellow, smoky flame, forming a hard melted ball that does not crumble or grind with great difficulty. A hard melted edge is formed on the edge of the material
Unpleasant smell - burnt plastic
In the video you saw how the most common synthetic materials burn. Perhaps the pieces of fabric that you examine will have a slightly different combustion pattern. This is normal, because fibers are often mixed in different combinations, fabrics undergo a wide variety of finishes, and this all undoubtedly affects the combustion behavior.
By and large, your task is to learn to distinguish between natural materials and synthetic ones. And distinguishing synthetic ones from each other is not so important.
The key to the success of a future product is right choice fabrics.
If you choose a fabric solely based on the criterion “like it or not” and “the color is cheerful”, then it is difficult to count on good result. The color may be cheerful, but how will it be sewn?
To learn how to easily choose fabrics that are easy to sew and comfortable to wear, come to the master class
How to distinguish natural fabric from synthetics? This problem especially often arises when purchasing bed linen. People out of habit believe that if it is calico, it must be pure cotton. But, whether it is calico or poplin, this definition does not refer to the quality of the thread from which the fabric is woven, it is the name of the weaving technology. And, as you understand, you can weave it from any thread, even from wire.
Therefore, in order not to feel deceived, you need to know how to check what fiber a product is made of.
The first test is tactile sensation. Even if the fabric is natural, you don't have to like it. And this factor plays an important role when choosing. For example, for many, pure flax fiber seems coarse; they also often talk about thick and high-quality calico.
Satin seems thin to many, although it is completely opaque, like calico, comfortable, and a pleasure to sleep on. Therefore, relying only on tactile sensations, you can just buy soft, pleasant, velvety, but synthetic underwear.
There is a simple home way to check the naturalness of the thread - you need to set it on fire.
If you buy clothes, then, as a rule, there is a spare piece of fabric, you can conduct an experiment on it.
WITH bed linen more complicated, it does not come with a fabric sample, so you will have to be smart about how to check whether the fabric is actually natural, as stated by the manufacturer.
So, if you have a piece of fabric or at least a thread, let's start doing research. To do this, we need a safe place, matches, and the ability to ventilate the room.
How to distinguish natural fabric from synthetic
- Cotton fiber burns with a light flame, burns very quickly and does not leave a strong odor, to some it slightly resembles the smell of burnt paper. There is very little ash left, and it is completely weightless.
- Flax also burns quickly, leaving very little bright gray ash, but leaves no odor.
- Purely wool thread burns very slowly and reluctantly, eventually shrinking into a ball, filling the space unpleasant smell resembling burnt hair or feathers.
- Artificial wool burns very quickly and beautifully - the flame is blue, and the smell will be as if paper was set on fire.
- Viscose obtained artificially from wood, i.e. cellulose is considered a natural fabric. Viscose burns very quickly, but smolders for a long time, actively smoking and emitting the smell of burnt cotton wool. The remaining gray ash crumbles well.
How to distinguish natural silk from artificial silk
Natural silk does not want to burn at all, no matter how hard you try. The thread will shrink into a black knot, and the flame will immediately go out. The smell is vaguely reminiscent of burnt keratinizations (nails, claws, horns), if you have ever heard such a smell.
It is very easy to distinguish artificial silk from natural silk. It burns well and quickly, without crackling or odor.
When buying a silk item, you will not start a fire in the store, so just squeeze the fabric in your hand, unclench your fist after a while and see if the fabric is wrinkled. Artificial silk will have noticeable creases, natural silk It will wrinkle quite a bit.
A characteristic feature of all burnt natural samples is the ability to easily crumble combustion residues. Artificial thread does not provide such an opportunity, in addition, when artificial material burns, it emits an odor mixed with sourness.
Acetate silk can melt in acetone, which cannot be said about natural silk.
IN Lately a lot of mixed fabrics have appeared containing natural thread in combination with artificial. The manufacturer is required to indicate the percentage of all types of threads - these can be acrylic, acetate fiber, lavsan and other artificial additives. If you set fire to such fabric, the flame will be similar to the thread that contains the most of it. The smell will also determine the composition, but the remains of combustion cannot be easily crushed.
Mixed fabrics used in the production of bed linen are, as a rule, very pleasant to the touch, have a durable color, practically do not wrinkle and last a long time if used correctly.
Be able to distinguish natural fabric from artificial It is also necessary to properly care for the product.
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