Size
The total size of the pan (not including the handle). For round models, in this case, the outer diameter is indicated, for square ones — most often the outer size on one of the sides. For sets of several frying pans (see "Quantity in a set"), respectively, data are given for all items from the set.
The smallest modern frying pans are
18 cm,
16 cm, or even
less. Most models fall in the 20 to 28 cm range, with even diameters being much more popular than odd ones. So, products with sizes of
20,
22,
24,
26 and
28 cm are produced noticeably more than models of
21,
23,
25,
27 and 29 cm. And in the largest frying pans, the diameter is
30 cm or more ; There are many such models on the market.
In general, the size primarily depends on the total capacity of the pan and the ability to place certain ingredients on it (a large piece of meat, a whole fish, etc.). The actual volume, however, is also associated with the height of the sides (see below); however, frying pans of the same type tend to be similar in this height, and their capa
...city is characterized primarily by their diameter. In addition, the overall dimensions of the cookware also determine the possibility of using it in a particular oven (if there is such a possibility in principle, see "Functions and Capabilities"); but compatibility with a particular burner is best assessed by the directly claimed bottom diameter (see below) — it is usually less than the total diameter, with rare exceptions.Size
The size of an oval or rectangular frying pan horizontally (excluding the height of the sides and without the handle).
This parameter is usually indicated by two numbers — dimensions in length and width. However, for individual models, one size may be indicated — usually, a larger one (length); Width can be roughly estimated from the photographs.
The size data allows you to determine primarily two things: how much space the pan will need on the stove, in the oven, etc., and whether one or another ingredient (for example, a whole fish) will fit on it. Also, larger sizes, usually, mean a larger capacity (see "Volume"), but there is no strict dependence here — after all, the actual volume also depends on the height of the walls (depth). As a result, models with the same dimensions may differ in capacity — a larger volume in such cases is achieved due to greater depth.
Wall height
The height of the walls is selected by the manufacturer depending on the type of pan (see above) and its size, however, similar products may vary in the height of the sides. In such cases, it is worth considering the features of the intended application. So, high sides are convenient for stewing, preparing sauces and other types of cooking that involve a large amount of liquid; in addition, they allow you to fit more content. On the other hand, deep pans are more expensive and heavier. The shallow depth, in turn, makes it easy to flip pancakes, omelettes and other similar dishes, but reduces capacity.
Pan material
The material from which the pan is made.
Aluminium is the most popular nowadays, it is available on the market in several versions —
stamped,
cast,
forged, plus all three of these varieties can be
anodized. Noticeably fewer frying pans are made of
cast iron and
steel, but a lot of such products are also produced. But
copper and ceramics are very rare, even exotic options nowadays.
Here is a more detailed description of each of the mentioned materials:
— Cast iron. A classic material, thanks to a number of characteristics, has not lost popularity nowadays. Its main feature is the combination of high heat capacity and relatively low thermal conductivity. This means that the cast-iron pan heats up slowly, but evenly, and cools just as slowly; while cast iron easily tolerates high temperatures. This property makes cast iron pans very versatile and suitable for both "slow" and "fast" fires. This material is usually not coated with a non-stick coating, however, subject to certain care rules, cast iron itself can acquire similar properties — to the point that some dishes can not be stirred at all when cooking on cast iron. Frying pans made of this material are very weighty, but many
...consider this an advantage — a heavy pan is as stable as possible. Of the obvious disadvantages, one can name the tendency to corrosion (which requires careful observance of the rules of care), as well as relative fragility — cast iron can crack from an impact that steel or aluminium would have completely endured. Also, food cannot be stored in such dishes — its taste deteriorates.
— Steel. Stainless steel is considered one of the safest materials: it is chemically inert and does not tend to interact with food and other substances. Also, this material is durable, resistant to impacts, weighs significantly less than cast iron and at the same time massive enough to ensure stability. On the other hand, steel also has a number of disadvantages. So, due to the high thermal conductivity, it heats up unevenly, and it does not tolerate high temperatures well — characteristic iridescent stains of the “tint colour” appear. Food in such pans tends to burn — in the end, you either have to put up with this, or look for models with a non-stick coating (and here safety is already determined by the properties of this coating, see below). Washing steel utensils is also quite difficult — abrasive detergents scratch the coating and spoil the appearance, and without them it can take a lot of time and effort.
— Aluminium. The main advantage of aluminium is its low price and, accordingly, availability. Also, it is characterized by good strength, high thermal conductivity and, accordingly, fast heating, and such pans cool down for quite a long time. However, this material also has a number of significant drawbacks. For example, food in an aluminium pan tends to burn, and washing it is associated with a number of difficulties — it is undesirable to use acids and alkalis, the coating is easily scratched. In addition, thin pans are very sensitive to overheating and can warp; this is especially critical on electric stoves, where it is quite difficult to control the temperature, and a flat bottom of the dishes is especially important. Light weight can be called both an advantage and a disadvantage of aluminium: it reduces the stability of the pan, but also makes it easier to work with it. As a result of all of the above, this material is used mainly in inexpensive dishes. Aluminium frying pans can be produced using different technologies, they are described in more detail below; here we note that if the characteristics of the pan indicate simply “aluminium”, then most likely we are talking about a stamped product.
— Extruded aluminium. Stamping is the simplest technology for the production of aluminium pans, it is inexpensive. However, the quality of such products, usually, does not shine: the thermal conductivity is relatively low, and the sensitivity to overheating and the tendency to deformation are high. However, these moments can be partly offset by an increase in thickness or the use of additional inserts; the most advanced of the "thick" aluminium frying pans can be comparable in performance to cast products (see below).
— Forged aluminium. Forging technology in the case of frying pans is good in that it provides the fibrous structure of the metal. This has a positive effect on strength and weight and provides quite decent performance (in particular, thermal conductivity) even with a relatively small material thickness. However forged pans are somewhat more expensive than stamped ones.
— Cast aluminium. This technology involves the manufacture of dishes by pouring molten aluminium into special molds. It is considered the most advanced, because. casting provides an optimal metal structure, as a result — excellent thermal conductivity and high reliability. However such pans are more expensive than forged and, moreover, stamped, and they weigh a little more (the latter, however, is not necessarily a drawback).
— Anodized aluminium. The term "anodized" does not describe the production technology of the cookware itself, but a specific way of processing the aluminium surface; the dishes themselves can be stamped, forged, and cast (see above). When anodized, a strong protective layer is formed on the aluminium surface, which prevents metal from coming into contact with the contents of the pan. This layer is resistant to acids; and if it is not recommended to store food for a long time or cook “sour” dishes in an ordinary aluminium frying pan, then the anodized one has no such restrictions. And in general, such a coating is considered absolutely safe for humans. The disadvantage of this option is traditional — the high price.
— Copper. One of the key advantages of copper is its unusual appearance; thanks to the reddish-golden colour, such dishes really look beautiful and stylish. On the practical side, this material is notable for its high thermal conductivity, thanks to which the pan heats up quickly and evenly — and this contributes to high-quality and fast cooking. Copper is not suitable for regular contact with food — this leads to oxidation and the appearance of harmful substances; however, this disadvantage is compensated by the use of additional coatings (eg, tin or steel). But the unequivocal disadvantage of this material is the high cost. In addition, the copper surface loses its luster literally after the first cooking, and to restore its appearance, it must be washed manually with special products. Thus, few copper pans are produced nowadays, mainly these are “designer” dishes designed for kitchens of a certain style.
— Ceramics. Ceramics accumulates and retains heat well, moreover, it tolerates even strong heat without problems and allows the use of the oven without any restrictions. On the other hand, the thermal conductivity of this material is not very high, and it is not well suited for use on burners. As a result, mainly tagines are made ceramic (see "Type"), designed specifically for cooking in the oven.Country of origin
Country of origin of the brand under which the pan is marketed. Usually, it is indicated by the "homeland" of the manufacturing company or by the location of its headquarters.
There are many stereotypes associated with the “nationality” of brands and products, but most of them have no basis nowadays. First, the actual place of production is often different from the brand's country of origin. Secondly, the quality of the goods depends not so much on geography, but on the policy of a particular company and how carefully this very quality is controlled in it. Therefore, you should pay attention to the country of origin of the brand only if you fundamentally want or (do not want) to support a manufacturer from a certain state. Quality is best judged by the reputation of a particular brand and the general price category.