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Comparison Rowenta First Class DA 1510 vs Philips GC 651

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Rowenta First Class DA 1510
Philips GC 651
Rowenta First Class DA 1510Philips GC 651
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Main
Folding handle. Network operation 240 V and 120 V. Storage case.
Typetravel (compact)travel (compact)
Folding handle
Power consumption1000 W800 W
Coating of the working surface
stainless steel /Microsteam 200/
non-stick
Steam supply power10 g/min
Steam boost power45 g/min
Water tank volume70 ml
Features
steam supply
vertical steaming
steam supply
vertical steaming
Voltage switching
 /120/240 V/
Cable length2 m1.9 m
Color
Added to E-Catalogjuly 2009november 2006

Folding handle

The presence of a folding handle allows you to fold the device more compactly in case of storage or travel. This solution is very popular in travel irons. In some devices, the handle even turns out in the opposite direction, thereby turning the iron into a steamer.

Power consumption

The power consumed by the device during operation.

In general, more powerful models are considered more advanced — at least because the high power speeds up the time to heat up to operating temperature and allows you to achieve higher steam performance. On the other hand, such power significantly affects the dimensions, weight and price.

Among classic irons, power up to 1500 W corresponds to the entry level, it is mainly typical for travel models. An indicator of 1500 – 2000 W is considered average, and values of 2000 W and more are typical mainly for professional devices. In the presence of a steam generator, the power increases noticeably, and among ironing systems and presses there are models with a power of up to 6 – 7 kW.

Coating of the working surface

Iron soleplate cover. This surface is in direct contact with the fabric, and therefore the type of coating is one of the most important characteristics.

Aluminium. Aluminium, being a simple and cost-effective choice, offers advantages such as low weight and rapid heating. However, it is prone to quick scratching, diminishing ironing quality and potentially damaging processed fabrics. Overheating may cause aluminium to stick to fabric, posing cleaning challenges. As a result, "pure" aluminium is often found in the most budget-friendly or compact irons. Some manufacturers employ special technologies in aluminium soleplates to mitigate these drawbacks to some extent.

Stainless steel. Inexpensive and at the same time very practical material, the most common version of the metal soleplate in modern irons. True to its name, "stainless steel" is highly resistant to corrosion, yet it is durable, free of scratches and burrs, glides well and is easy to clean. Of the significant shortcomings of this material, one can only note a rather large weight.

Ceramic. The main advantage of ceramics is that it glides much better than steel or aluminium. In addition, this material is easy to clean and practically does not scratch. On the other hand, ceramic soleplates are quite fragile and can break or chip from a strong impact.

Metal-ceramic. Material generally similar to the ceramics described above; may be somewhat stronger due to the addition of metals, but in fact it all depends on the specific composition.

— Tourmaline. Another type of ceramic material containing tourmaline is a natural semi-precious stone. A feature of tourmaline soleplates is a natural antistatic effect, which is especially useful when ironing light fabrics: such fabrics will not stick to the soleplate due to static charge.

Titanium/ceramics. Metal-ceramic (see above), which includes titanium. This metal is characterized by high strength and wear resistance, which has a positive effect on the overall reliability of the soleplate.

Teflon. Teflon (polytetrafluoroethylene) enables smooth gliding of the iron over fabric and offers non-stick properties. This coating is easily cleaned, resists sticking to clothes, and remains relatively clean even in situations like overheating and burning through materials. However, a notable drawback of Teflon is its high sensitivity to scratches, necessitating caution when ironing items with metal buttons, fasteners, or decorative elements.

Non- stick. This category includes all types of non-teflon non-stick coatings (see above). The specific composition and properties of such a coating may be different. For example, in some models it is the same PTFE, just not called Teflon (the word "Teflon" is a registered trademark and may not be used without permission). In addition, there are other materials. A common feature of all such coatings is that almost no dirt sticks to them, which greatly simplifies the cleaning of the soleplate.

Titanium. One of the most advanced options. Titanium is extremely durable and virtually unaffected by chips and scratches, even from falls and other serious "accidents". On the other hand, it does not heat up very quickly, but is very expensive. Therefore, such a coating is rare, mainly in premium irons.

Enamelled. Typically, these soleplates feature a stainless steel base with a specialized enamel coating. The enamel composition is chosen for both smooth gliding and durability. The primary advantage lies in the reliability of this coating, which is highly resistant to scratches—many enameled soleplates can withstand cleaning with metal brushes. However, it's worth noting that irons with such coatings come with a corresponding higher cost.

Steam supply power

The steam supply power provided by an iron is essentially the amount of steam supplied by the device per minute. In most modern irons, the intensity of steaming can be adjusted, so this item usually indicates the maximum power value.

The more steam the iron supplies, the more intense the effect on the fabric, the more dense and rigid materials can be effectively smoothed out without resorting to a steam boost (see below). On the other hand, high performance significantly affects the price, dimensions and weight of the iron. Accordingly, it is worth choosing according to this indicator taking into account the planned method of application — especially since the full power of steam is far from always required, and in special cases the same steam boost can be used.

In travel and simple household irons, the productivity is about 15 – 30 g/min. More than 30 g/min corresponds to enhanced steaming, and the most advanced devices, mainly for professional use, are capable of producing 60 g/min or more (the so-called “turbo mode”).

Steam boost power

The steam power supplied by the iron in boost mode.

The steam power is the amount of steam the iron produces per minute. See above for more information on the general meaning of this parameter. And the steam boost mode is a mode of enhanced steaming, when the iron practically “shoots” with a boost of steam; "shot" is usually made by pressing a special button. Steam boost allows you to achieve an intense effect that is not available with conventional steaming; such an impact can be useful, for example, to smooth out heavily rumpled fabrics that would be difficult to deal with in other ways.

A steam boost of 100 g/min or more is said to be sufficient to handle most tough and "unruly" materials. And models with a powerful steam boost from 200 g/min will definitely not leave even the most dense fabric rumpled. However, there are models with more modest indicators — they are quite suitable for those who need an iron for ordinary household ironing. Moreover, high power, usually, affects the cost. Do not forget about irons with a steam generator, where the performance values are higher, since the purpose of the iron is slightly different.

Water tank volume

The volume of the water tank installed in the iron.

The water from this container is used to generate steam when steaming fabrics. In modern models of irons, the tanks are made of transparent materials and are provided with a lid at the opening through which water is poured. As for capacity, a large volume, on the one hand, allows you to work longer without refilling, on the other hand, it significantly makes the entire device heavier. Therefore, in classic models, where the tank is located on the iron itself, the capacity is usually small — about 80 ml for travel and 300 ml for household models. But there are also irons with a large water tank, in which the volume can reach 500 ml. But for advanced steam generators and ironing systems (see "Type"), the tank is made separately, and in such cases its volume can be 1 L, and for models with a large tank, figures of more than 1.5 L are typical.

Voltage switching

The ability to switch the operating voltage of the iron, usually between 110 and 230 V. In different parts of the world, electrical networks have different operating voltages: for example, in the CIS and Europe — 230 V, in North America — 110 V. Therefore, this function will be useful for travel irons. Switching the same voltage in most cases occurs manually. Therefore, before switching on, you must make sure that the correct voltage is set.

Cable length

The length of the cable for connecting to the mains provided in the iron.

Manufacturers select the length of the cable, taking into account the general specialization of the iron and the characteristics of its application — so that the wire is enough for most cases and at the same time it is not too long and bulky. Therefore, in most cases, this parameter can be ignored; exceptions are only some specific situations. For example, if you choose a travel iron and compactness is a key criterion, you should choose a shorter wire. A long cable, in turn, will come in handy at a great distance from sockets and the absence of extension cords.

For clarity, we note that for household irons, the average cable length is 1.5 m.
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