Insulation Thinsulate- the highest degree of protection from the cold!!! It is considered one of the best insulation materials at the moment; its heat-saving properties are equal to down. Consists of very thin fibers that retain heat excellently. Thinsulate overalls and jackets are light, thin and warm.
Thinsulate does not deform when washed and can warm you up in severe frosts. Thinsulate clothing is made for athletes, oil workers, and climbers.
Thinsulate clothing is usually not cheap.
The word Thinsulate comes from the English words thin - thin and insulation - insulation.
Children's overalls / sets and jackets on Thinsulate are produced by TM: Ketch (Sweden), TALVI / Talvi (Russia).
On average, Thinsulate insulation is 1.5 times warmer than down and almost 2 times warmer than other synthetic insulation when comparing layers of the same thickness.
Initially, the development was carried out to solve the problem of insulating the suits and shoes of astronauts. Having successfully solved this problem, the material began to be used for the production of all types of clothing, shoes, gloves, hats and other accessories.
Thermal insulating material Thinsulate is a unique combination of heat-protective and ventilating properties - while reliably retaining heat, it allows excess moisture to evaporate freely.
This insulation does not restrict movement at all and provides complete comfort, allowing you to ignore any weather conditions, including the most severe frosts. Even a thin layer of this microfiber insulation has amazing thermal insulation properties combined with durability, unpretentiousness and ease of maintenance.
Life time Thinsulate insulation is comparable to, and sometimes exceeds, the service life of outer clothing fabric.
Temperature Thinsulate
Thinsulate insulation is available in different thicknesses and different modifications for different climatic conditions. The product can use either one or several layers of Thinsulate insulation.
The ability of clothing to protect against the cold depends on many factors: the model of clothing, the type, thickness and number of thermal packs, air humidity, wind speed and direction, duration of stay in the open air and degree of activity, as well as a person’s metabolism, age and gender. Protects from the cold both fabric and insulation. Therefore, when answering the question about the thermal protection of insulation, it is correct to talk about the thermal protection of the product as a whole. The variety of types of Thinsulate insulation itself provides protection from cold in a wide range of conditions and temperatures, down to –60º C. Basically, the permissible temperature regime for Thinsulate is up to -30°.
Even in conditions of high humidity, Thinsulate insulation retains heat well. Thinsulate insulation fibers absorb little moisture - less than 1% of their weight, so the insulation also works effectively in a humid environment. Dries quickly when wet.
Using Thinsulate insulation, suits are created for employees of enterprises working in the Far North - light-weight workwear that is resistant to ultra-low temperatures, wind, and high humidity.
Why does Thinsulate retain heat well?
The main tool for retaining heat is the air contained between the fibers. The more air is retained, the more effective the insulation. More fibers in a smaller volume provide a larger surface area on which a layer of surface bound air is formed. Thinsulate insulation fibers are 2-5 microns in diameter, which is 10 times thinner than a human hair, that is, there is more air per unit volume than any other clothing insulation.
The main thing in all insulation materials is their ability to retain air. The more bound air is retained per unit volume of insulation, the better it retains heat. As the fiber thickness decreases, the total surface area of air-binding fibers per unit volume increases significantly. For Thinsulate insulation, compared to other materials, this value is almost 10 times greater.
Types of Thinsulate insulation
Type C ("Classic")
Purpose: Fashionable and urban outerwear, leather goods, raincoats, knitwear, gloves, hats.
Type P
Purpose: Children's clothing, casual and professional outerwear, gloves
The insulation is available in various modifications depending on thickness and density - P 100, P 150, P 230.
Type TIB
- more voluminous compared to other types of Thinsulate® insulation
- very soft, which allows you to create products that are pleasant to the touch
Purpose: Sportswear, blankets, bedspreads, light blankets, sleeping bags
The insulation is available in various modifications depending on thickness and density - TIB 100, TIB 120, TIB 200.
Type B
Use: Shoes
The insulation is available in various modifications depending on thickness and density - B 100, B 200, B 400.
Type FR
- the insulation contains fire-resistant meta-aramid fiber, which means that the fire-resistant properties of the insulation do not deteriorate after washing
- meets the requirements of the European standard EN 533, the fire resistance of the insulation is confirmed by tests of VNIIPO and TsNIISHP
- the fire resistance of the insulation is combined with excellent heat-insulating properties characteristic of other types of Thinsulate insulation
Purpose:
- Winter fire-resistant clothing for people whose work involves an increased risk of fire (oil and gas production, refineries, drilling, gas stations).
- Fire-resistant blankets (hotel complexes, transport enterprises).
Product care
Care: machine wash with spin at 40°.
Thinsulate insulation does not lose its properties after washing or dry cleaning if you follow 3M's care recommendations for the appropriate type of insulation. However, a different mode may be provided for the outer or lining fabric. Therefore, pay attention to the care instructions from the manufacturer of the entire product.
Caring for fire-resistant insulation Thinsulate FR
To care for fire-resistant insulation Thinsulate® FR, you can use ordinary household powders, preferably for colored products, because The pH of their solutions is quite close to neutral.
However, it is necessary to focus more on the care conditions of the fabric from which the product is made, because... insulation is used in the package of materials.
You can use conditioner during the final rinse.
Reading time: 4 minutes
Various types of insulation materials - natural and synthetic - are widely used in the textile industry. They are used to make blankets, casual and sports outerwear, shoes, travel equipment, etc. One of the very first heat insulators was down. It has a lot of positive qualities, remains popular and is highly valued. But the presence of some shortcomings forced manufacturers to develop new types of insulation that would compensate for them. Often the average buyer is faced with the question: which is better? Let's compare the characteristics of natural down and modern synthetic thinsulate.
Feather
To produce down insulation, the down of waterfowl (mainly northern birds) is used. This is the part of their plumage that creates a layer between the skin and feathers and protects the body from hypothermia or overheating.
Unlike a feather, down does not have a long hard shaft, but consists of a core and barbs extending from it, which interlock with each other and form a rounded shape of the down. The down of the northern bird, eider, is most valued, followed by goose (white goose) and duck.
Advantages
Such material consists of birds, and its quality directly depends on their percentage. The more fluff, the better the performance will be. The most expensive one, which contains at least 99% down, has the following properties:
- ease. Since there is no presence of the heaviest part of the feather - the spine or the shaft - the products are very light and flexible;
- strength and durability. Typically, the service life of products is 15-20 years;
- hygroscopicity. Absorbs all the evaporation of the human body, dries out over a period of time;
- low thermal conductivity. Thanks to the large number of fluffs that touch and form many cavities filled with air, the insulation provides reliable protection from the cold;
- elasticity. When squeezed, the fluffs fit into each other, the material does not feel, but crumples and quickly restores its shape, allowing you to preserve the maximum number of air layers inside.
Flaws
Despite the large number of positive qualities, down is imperfect as an insulator and has a number of disadvantages:
- The process of producing down insulation is labor-intensive - in total, about 20 basic operations are performed. The cost of such material is high, so part is often replaced with a feather. Although the softest and fluffiest feathers are selected for this, the quality of the insulation as a whole drops noticeably;
- After getting wet, it dries for a long time and has greater thermal conductivity. Absorbs moisture, but is not able to immediately remove it to the external environment, so a person freezes. This means that its use is limited by humidity conditions;
- Allergy sufferers and asthmatics should use down products with caution. Usually they undergo special treatment, but this cannot always protect against another attack of the disease;
- It is better to clean products in specialized dry cleaners. You are allowed to wash it yourself, but there may be problems with drying. It will also require thorough whisking.
Thinsulate
Now on sale you can find many different ones with different names. Initially, their creation pursued one goal - to simplify and reduce the cost of producing warm clothes.
To date, scientists have managed to create unique new generation fibers that can replace natural ones and surpass them in some parameters. For example, modern Thinsulate TM fiber ().
Advantages
Thinsulate is distinguished by its special fiber fineness - only from 2 to 10 microns (tens of times thinner than a human hair). They are intertwined and in some places connected by thermal bonding. This is one of the main advantages of the material: even in a small volume, a huge number of air layers are formed, which provide the best thermal insulation (can withstand frosts up to 60 degrees).
Other properties:
- lightness and small volume. There are several varieties of Thinsulate, some of them have particularly high compression properties, products with them take up very little space when folded, and when unfolded they provide good thermal insulation (important for athletes);
- the fiber practically does not absorb moisture at all (absorption coefficient less than 1% of its own weight);
- dries quickly. Can be used in conditions of high humidity;
- elasticity. Easily wrinkles and restores shape;
- strength and durability. Resistant to repeated washing, does not shrink (does not feel), it can be washed and dried in a machine;
- hygiene and hypoallergenic. Due to excellent ventilation and quick drying, the material is not a favorable environment for the life and proliferation of bacteria. Does not cause allergies.
What's better
Comparing the two materials, we can conclude that Thinsulate has a number of advantages over natural down (even if we take down of exclusive quality - 99-100% or the highest category - 80-20%):
- provides better thermal insulation with a smaller volume;
- can be used in conditions of high humidity;
- easy to care for;
- hygienic and hypoallergenic.
This significantly expands the scope of its application. Thinsulate can be used not only for the production of ordinary outerwear and blankets, but also for sports overalls and jackets (for skiing), shoes, gloves, as well as many types of workwear (for oil workers, workers in the Far North).
When choosing clothes for yourself or for a child, you should be guided by its purpose and operating conditions:
- if you live in a humid climate, you definitely need to choose Thinsulate;
- if the humidity does not exceed the norm, it all depends on financial capabilities, as well as style preferences (down jackets are usually more voluminous and can increase the figure).
Both types of insulation are perfectly combined with membrane materials. If you come across such products, do not doubt their quality and effectiveness: they will provide warmth and dryness even in the most unfavorable weather conditions.
Also, when purchasing, you should pay attention to the information indicated on the label: density and thickness, fiber composition, recommended operating conditions and seasonality.
Thinsulate has the finest fibers of all synthetic insulation and is the most effective thermal insulator in the world. This material was created specifically for outerwear. Why is Thinsulate® insulation so effective? The unique microfibers of Thinsulate® insulation are 10 times thinner than the fibers of other synthetic insulation materials. The company's specialists note that the diameter of such fibers ranges from 2 to 10 microns, i.e. almost 50-70 times thinner than a human hair.
Thinsulate® insulation is the best choice for those who care about warmth and comfort. Jackets and down jackets with artificial Thinsulate insulation began to appear in mass stores. But in reality, everything is completely different. And we will try to explain what kind of Thinsulate this is, about which almost nothing is written even on Wikipedia. The coat is in progress, and to go with it are mittens with the same Thinsulate and raincoat fabric. These are the questions we will try to answer in this article.
Thinsulate insulation. History and varieties
Used in the production of work clothing. Thinsulate Ultra is a type of insulation designed to retain heat in the coldest conditions. However, both Thinsulate and Primaloft are very good materials and in many respects, under certain conditions, are superior to natural insulation materials.
All this will also be superimposed on the technical specifications of the insulation itself, namely one of the main parameters - the density of the insulation. When choosing clothes with insulation with a density of up to 100 grams, be sure to take into account the temperature conditions in which it will be worn and the activity of using this clothing. But in the production of winter shoes, the use of insulation from 200 to 400 grams is practically a standard. Winter shoes with 200 grams of insulation are perfect for active outdoor activities up to 20, and maybe up to 30 degrees below zero.
Caring for products with Thinsulate
The main and most versatile insulation in the Platinum family. Unlike other types, the extremely fine fibers of this insulation perfectly trap insulating air. Depending on what you are going to insulate and to what sub-zero temperatures you will use this type of clothing, different types of insulation are selected.
This is the thickest insulation in the Thinsulate™ family. Don't overdo it - the thickest types of insulation are used for shoes and insoles in sportswear. It is tourists who advocate washing products with this type of insulation. For Thinsulate insulation, the total surface area is almost 10 times greater compared to insulation made from conventional polyester fibers.
Thinsulate insulation is available in different thicknesses and different modifications for different climatic conditions. The product can use either one or several layers of Thinsulate insulation. Thinsulate is the latest insulation, the scope of which is incredibly wide. The popularity of Thinsulate material for such a long time is associated with its fibrous composition, rational structure and creation technology. Thinsulate is excellent for making shoes, various types of gloves, including waterproof ones, and hats.
Thinsulate provides excellent ventilation and “breathes”. You don’t have to worry that Thinsulate will shrink, tear, get knocked down, or become deformed in any way. This heat-insulating material is designed in such a way that it does not migrate through the lining of the product and the outer fabric; Thinsulate is homogeneous.
Thinsulate® insulation holds air molecules between the human body and the environment. The more air molecules the insulation holds in one cubic centimeter, the better its thermal insulation properties. As a result, Thinsulate® insulation is the best insulation. We don't just follow the laws of nature when creating our thin insulation, we better use those laws...to your benefit.
Here are some tips to keep your feet warm and comfortable. The basic principles are to protect all parts of the body, stay dry and wear clothes in layers. It's all about microfibers. All insulation works in two directions: firstly, they retain air; secondly, they return body heat back. Learn more about Thinsulate® insulation technology. Neither repeated washing nor dry cleaning significantly affects the heat-shielding properties of Thinsulate® insulation.
When comparing thermal packages of the same thickness, thin Thinsulate® insulation is 1.5 times warmer than down and 2 times warmer than other high-quality insulation materials. And immediately everyone had a question: what is this? Many sellers with a smart look say that this is an improved Holofiber and synthetic fluff. And the reviews on this material for more than 30 years have been only positive. A jacket or down jacket with Thinsulate insulation will provide warmth no worse than eider down. It is used in the harshest climatic conditions around the world by rescuers, police officers, and athletes.
A project to help the buyer and the person How to choose..., this is an information portal for everyone who wants to choose the right new purchase. We know how to choose and share it with you. Learn to choose wisely in order to live effectively and always receive quality and reliability. While it is in the form of top + insulation + lining, everything is sewn separately. I wouldn’t want to turn the coat into a demi-season one, and it was also supposed to have a chic fur collar...
The mittens are ready and worn... Altai, at -30 it was very, very warm in a padded jacket like this, a completely ordinary one. I'm freezing in it!!! It's like the heat is being released out. But there were no seams there, so I sewed them along the lines where they should be.
Now it’s about zero, I’m comfortable (even if it was freezing now...) But when it dropped to -10 for a couple of days, even with a warm, warm sweater I was freezing. And when it comes to choosing and purchasing the desired item of clothing or shoes, questions arise: “What should I buy?”, “What modern materials are there that can protect against the cold?”
Thinsulate in Keeptex products
But first, and for a general understanding, let’s touch a little on the theory and try to understand what these materials are. Each fiber is naturally surrounded by a layer of air, which ensures that the human body retains heat. Since the fibers are thin, the fabric itself is not very heavy and thick.
Thinsulate Platinum Insulation X-STATIC is a material with antimicrobial and deodorizing properties. Primaloft is another type of synthetic insulation developed by Albany International. Since the manufacturing technologies of almost all modern insulation materials are patented and not disclosed, it is quite difficult to make an objective comparison between them.
Why does Thinsulate retain heat well?
All sorts of “magical properties” for super-heat preservation, attributed to both insulation materials and used in the descriptions of things containing it, are, by and large, purely marketing ploys. Having averaged all the values, by and large we can say that both insulation materials discussed in the article will cope with the task of preserving heat equally well. And to make an objective comparison, you need to at least have two identical things, but with different insulation.
In products containing insulation, it is indicated simply as a value in grams. Naturally, the higher the density of the insulation, the more heat the item containing it can retain and the less likely it is to freeze.
Thinsulate is an environmentally friendly material and has a European certificate. Thinsulate also has this property, making it easy to care for. It is not afraid of repeated washing, wear-resistant. This is not all the positive qualities of Thinsulate: it is able to retain heat even when wet, and dries quickly. After the successful completion of this task, the development of the material continued towards the creation of a group of Thinsulate insulation for various purposes.
The main contribution of 3M™ to the outdoor industry was the gradual destruction of the “warm = thick” stereotype and, as a result, the beginning of the active penetration of functional materials designed for extreme conditions into everyday clothing and footwear...
At the end of the 1930s. Al Boese, a researcher at the American company 3M™, experimented with a machine for mixing rubber mass for adhesive tapes. In the process, he discovered a method for producing and joining the finest fibers of cellulose acetate. The assessment of the prospects and further implementation of the new technology, apparently, was prevented by the war, so initially it was not given much importance, and it was almost not used until the early 1950s, when Boez's developments were applied in the soundproofing industry. Only in the early 1960s. 3M™ began to experiment and test microfibers connected into a staple as a thermal insulator. The new insulation was supposed to be used primarily in work clothes (the market for goods for tourism and outdoor activities in North America was just emerging at that time). This predetermined the testing conditions - clothing and shoes insulated with the new 3M development were provided in winter to luggage porters at airports, postal employees, and pipeline builders in Alaska. In total, laboratory and field testing took seven years.
Thinsulate™ (from the English thin - “thin” and insulate - “insulation”
The name Thinsulate™ (from the English thin - “thin” and insulate - “insulation”) was assigned to the new insulation in 1978, shortly before its launch on the market. In the same year, the trademark of the same name was registered.
The main property of the new insulation was a high degree of thermal insulation per unit thickness. This was achieved due to the relatively high density of the mixture of polyester and olefin microfibers, which were 10 times thinner than a human hair. This allowed the insulation to retain a large amount of bound air, which is known to be an excellent heat insulator.
Here we must give credit to the 3M™ company, because in the late 1970s. insulated items were exceptionally voluminous - this applied to down jackets and products using the latest Polarguard™ for its time. The thin thickness of Thinsulate™ has enabled many designers from brands such as Calvin Klein, London Fog, etc. to create items that are both warm and elegant, which ultimately has made it the most recognizable of all insulation products used in the outdoor industry today.
“Warmth without bulk” - “Warmth without bulkiness”
All these advantages were quickly appreciated not only by fashion lovers. Due to its resistance to compression, low volume, low wetness and relative low cost, Thinsulate™ came into widespread use in the early 1980s. manufacturers of clothing and footwear for outdoor activities, hunting, fishing, etc. Due to its high thermal insulation per unit thickness, Thinsulate™ has become widely used in insulated shoes, where it is critical to provide sufficient internal volume for a comfortable fit, thus indicating the superiority of “synthetics” over natural insulation in winter shoes. Thinsulate is often found in hats and gloves for the same reason.
The only serious drawback of what was new to the industry in the early 1980s. The insulation had a rather large weight per unit volume, which did not allow it to be used effectively in sleeping bags, as well as where it was necessary to obtain the warmest and at the same time light clothing, for example, in mountaineering. Probably due to this, in the late 1980s. released Thinsulate™ LiteLoft- 3M complex insulation, consisting of microfibers that retain air and fibers of larger diameter, which increase its volume. This gives high thermal insulation properties per unit weight and a relatively small packaging volume. It is noteworthy that Thinsulate™ LiteLoft appears almost simultaneously with the introduction to the civilian market Primaloft One and is only slightly inferior to it in terms of thermal insulation.
Types of Thinsulate™
Over the 30 years of its existence, the Thinsulate™ insulation family has grown significantly. Today, two of their classifications coexist in parallel. We see one on the paper labels included with the product. The second divides insulation into types and is used within the 3M™ company itself and is better known among manufacturers of clothing and accessories, as well as those who like to sew on their own. At the same time, in available network resources, both classifications are found equally often, which sometimes causes confusion and misunderstanding. Especially since some types of Thinsulate™ are used exclusively in bedding, others in workwear, and still others in clothing and footwear for sports and outdoor activities. Therefore, in our review we will try to operate with both classifications, based on the most recent 3M™ data.
All varieties of Thinsulate™ are now divided into two series:
- Warmth plus Technology or Platinum;
Warmth plus Additional Features.
Warmth plus Technology ("heat plus technology"), or Platinum, which combines the most advanced technical solutions from 3M in the field of insulation, which includes:
Type S
The name comes from the first letter of the word Supreme - English. "higher". The main and most versatile insulation in the family Platinum. Unlike other varieties, it consists of 100% polyester fibers. More precise data on the composition and type of fibers have not been published, however, judging by its application, the insulation withstands compression well and has a good weight/thermal insulation ratio. It is used in a very wide range of products - in ski and snowboard boots, as well as in insulated clothing and accessories for everyday use and outdoor activities. Indicated by the 3M™ Thinsulate™ Platinum label.
Type FX
He's the same 3M™ Thinsulate™ Flex. Due to the increase in the percentage of olefin fibers, it has good stretching properties with a slight decrease in thermal insulation properties. It is actively used in clothing that provides maximum freedom of movement.
Type XT-S
He's the same 3M™ Thinsulate™ X-Static, part of the Platinum family. Appeared in 2009. Consists of a mixture of polyester fibers (98%) and silver ionized fibers X-Static, which prevent the rapid growth of the number of bacteria responsible for the appearance of unpleasant odors. The main area of application is clothing and accessories for high-intensity loads.
Type FR
Or Platinum FR, appeared in 2009 - consists of a mixture of fire-resistant acrylic, polyester and aramid fibers. Created specifically for work clothing used when working with flammable materials and electricity.
Warmth plus Additional Features ("warmth plus additional features"), which includes all other varieties of Thinsulate™:
Type C
The oldest representative of the entire family. Due to the very high thermal insulation per unit thickness and good resistance to compression, it is used in a very wide range of products - accessories, clothing intended for active recreation, fashion and work clothing. First of all, it is used where the finished product needs to be made as thin as possible without losing thermal insulation. Today it is marked with a black and gray label Thinsulate™ thin, light, warm.
Type G
Indicated by a black and orange label Thinsulate™ Extra Warmth. Budget insulation consists almost entirely of polyester microfibers, which results in a decrease in durability and an increase in the thickness of the finished products.
Type R
Indicated by black and green labels Thinsulate™ with recycled fibers. Appeared in the mid-1990s, against the backdrop of increasing user interest in environmental issues. 50% consists of recycled fibers. According to the manufacturer, it is not inferior to type C in terms of thermal insulation properties.
Type U
Indicated by black and orange labels Thinsulate™ Ultra for footwear. Compared to Type C, the number of olefin fibers is increased, which is why Ultra has a very high resistance to various loads, which makes it almost ideal for use in shoes. In addition to the regular version, there is also Ultra Extreme Performance (type B), which is the same insulation, but with increased density - from 400 to 1000 grams per square meter. m. Used in shoes designed for extremely low temperatures with a low degree of physical activity (hunting, fishing, working in the Far North, etc.).
It seems that the time for natural down jackets is passing. Thinsulate is a synthetic insulation that can replace most natural materials. Below is all about it and its amazing properties.
History of insulation, what principle it works on
The history of Thinsulate begins in the 60s of the last century, when NASA placed an order for insulation that could be used in extreme conditions (at that time we were talking about equipment for astronauts). The American company 3M got down to business, and by the early 70s presented the result of its developments: a non-woven material made of microfibers with all the requested characteristics.
This insulation was patented under the name Thinsulate (thin - thin, insulation - heat protection, insulation). Even then, it fully lived up to its name: the highest heat-protective characteristics with minimal thickness. Initially it was used for the needs of astronautics, by 1979 it went on sale, and since the early 2000s it has been a leader in the field of use for sports and professional workwear.
Thinsulate filler “works” due to the air inside the layer. See:
- The volume of the insulation layer (no matter what) consists of fibers and air between them.
- The more air there is in a unit of volume, the better it retains heat.
- The air inside is retained due to the smallest weaves of fibers.
- Reducing the thickness of the fibers allows you to increase their total area.
- The larger the area of the fibers, the greater the volume of air will be retained.
The uniqueness of Thinsulate lies in its microfiber, the surface area of which is approximately 10 times greater than that of other insulation materials.
Let's compare with other insulation materials, which is better?
And the first question is Thinsulate or Bio Down, which is warmer? Bio-fluff is synthetic fibers that form a mass somewhat reminiscent of holofiber, but without dense lumps. According to the manufacturer, depending on the thickness of the layer, you will be guaranteed thermal protection at temperatures down to -40°. Microfiber (of a certain type) can “hold” down to -60°. And one more thing: bio-down is still a filler, and not a finished canvas. This means that during wear, this filler can migrate inside the product, forming thinner, colder places.
Second comparison - which is warmer, Isosoft or Thinsulate? Isosoft is hollow fine-denie fibers molded into layers that look like regular padding polyester. In some of its varieties, hollow fibers are coated with silicones and polymers, which increases their thermal insulation properties. Operating temperature range – from 0 to -30°. In addition, the structure of isosoft is quite loose, which is why clothes will lose their thermal insulation qualities faster.
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Thinsulate - insulation, reviews
Irina: At one time I was looking for winter overalls for a two-year-old. We tried on a lot of things, everything was bulky for such a small thing. In a sheepskin suit, for example. He’s like a dummy, he can only stand still, but he doesn’t want to move, he’s capricious. It's hard, apparently. In the end, we settled on Thinsulate. Not thick, light. I don’t know how it works for non-ambulatory children, but for us it worked great for active walks. We come home and the baby is warm.
Sveta: Due to my occupation, I have to spend a lot of time outdoors, all year round. I usually took down jackets for the winter, but this time I decided to try something else. I was faced with a choice: Thinsulate or holofiber, which is better, warmer - I looked for reviews on the Internet. In the end I settled on the first one. I chose a membrane jacket with Thinsulate as insulation. And you know, I didn’t regret it. Very warm, does not restrict movement. And washing without any problems, not like down jackets.
Tamara: I purposefully looked for down jackets with Thinsulate, I read reviews on them. And I’m very glad that I spent so much time on it. It turns out that the outer material is very important. It should be windproof, or better yet, membrane. I would have bought it with some simple textile on top and would have been freezing. In general, I have a new, warm jacket, and until -10 I wear it over a T-shirt or a thin turtleneck.
Natalya: Thinsulate was a pleasant discovery for me. I’ve never sewn warm jackets, but now I decided to try it. Since I never really delved into the topic of insulation, the first thing that came to mind was padding polyester. I immediately winced internally: it’s inconvenient to sew it, you have to lock it between two layers of some kind of fabric. But the store offered me Thinsulate. It is a pleasure to work with it: it is enclosed in non-woven fabric on both sides, nothing comes apart, cutting, basting and sewing is very easy. And it’s still warm, you can use a thin layer.