United Kingdom
Catalog   /   Sports & Outdoor   /   Activities & Electric Vehicles   /   Scooters

Comparison Native Stem Pro L vs iTrike SR 2-067-4

Add to comparison
Native Stem Pro L
iTrike SR 2-067-4
Native Stem Pro LiTrike SR 2-067-4
Outdated ProductOutdated Product
TOP sellers
Product typestunt scooterstunt scooter
Max. load100 kg100 kg
Age, from7 years8 years
Recommended height160 – 185 cm
Design
Number of wheels2 wheels2 wheels
Handlebar typeT-barT-bar
Handlebar materialsteel
Deck materialaluminiumaluminium
Clamp4 bolts4 bolts
CompressionSCSHIC
Front wheel size11.5 cm11 cm
Rear wheel(s) size11.5 cm11 cm
Wheel rigidity88A
Wheelspolyurethane
BearingABEC 9
Rear brakefootfoot
General
Max. height92 cm83 cm
Deck size56х13 cm
Weight3.9 kg2.5 kg
Color
Added to E-Catalogapril 2023june 2021

Age, from

The minimum age at which a child can be entrusted with a scooter. These recommendations are quite approximate, but it is highly not recommended to deviate from them. In the case of electric scooters (see "Type"), it is worth considering that in some countries, to control such devices, you need rights obtained from a certain age; so when buying a similar model, it's ok to clarify the requirements of traffic rules.

The allowable load directly depends on the age group; according to this criterion, modern scooters can be divided into children's(permissible load up to 50 kg), teenage(from 50 to 80 kg), and adults(80 kg or more).

Recommended height

The recommended height is the optimal rider height for which the scooter is designed. The more closely the rider's actual height matches the recommended height, the more convenient and safer it will be to use the scooter. Usually, the recommended height is indicated by a certain range of values. It is perfectly acceptable to order a scooter for height, but the difference between the actual and recommended height should be minimal. When choosing a scooter, you should be guided by other parameters, such as age group, rider weight and other characteristics.

Handlebar material

The material of the handlebar carries almost the main information about the strength of the scooter since the rider leans on it while riding. Accordingly, this structural element in most cases is made of metal, namely:

Aluminium. The key advantage of aluminium is its light weight. Handlebars made of aluminium are much lighter than their steel counterparts. A scooter with an aluminium handlebar can be a good choice for stunt riding. But to make an aluminium handlebar strong enough manufacturers have to increase the size and wall thickness. As a rule, aluminium handlebars have a non-standard increased tube size of 34.9 mm. Additionally, aluminium handlebars are more expensive than steel counterparts.

Steel. The main advantage of steel is increased strength — such a handlebar can easily withstand high mechanical loads. But among the shortcomings can be noted high weight. Steel wheels have a high mass, which somewhat limits their scope, especially in terms of stunt driving.

Compression

Compression is a special device that connects the fork to the steering speaker. Thanks to the compression, the rigidity and reliability of the connection of the steering speaker to the fork are ensured.

IHC. Suitable for scooters with standard diameter handlebars: 31.8mm or 1¼". This type of compression is simple in design and highly reliable. The IHC system consists of a tie bolt and an anchor. The steering wheel is connected to the compression with a clamp.

HIC(Hidden Compression System) — this type of compression is found in scooters with a handlebar of increased diameter: 34.9 mm or 1⅜". HIC compression is widely used due to the reliability and simplicity of the design solution. The steering speaker is used with a kerf Steering clamp is applied to the steering speaker HIC compression is identical to the IHC design The only difference between the two is the rudder diameter HIC is designed for 34.9mm headsets while IHC applies to headsets 31.8 mm in diameter.

SCS(Standart Compression System) — advanced class compression. To use the SCS, you need a scooter with a non-kerf steering speaker. A distinctive feature of the SCS compression is the use of a 4-bolt tie-down collar. The compression pinch bolt is screwed in from top to bottom. The steering speaker is put on from above. SCS compression is created under the handlebars of di...fferent diameters: 34.9 or 31.8 mm. Structurally, SCS compression is similar to HIC. The key difference between these types of compression is for the most part only in the cut on the steering speaker. The SCS does not have a kerf, but the HIC does.

ICS(Inverted Compression System) — simple and reliable compression. The system is represented by a coupling bolt, which is screwed in from the bottom up, through the front wheels. The anchor is usually built into the fork at the factory. But in some cases, the anchor must be hammered into the fork yourself. When working with compression, there are usually several difficulties. The first is that you need a special long key to work with fasteners. The second trick is expressed in the need to remove the front wheels every time the compression is tightened.

— Tread. Threading is the simplest method of connecting a steering speaker to a fork. This type of compression is typical for entry-level scooters. Scooters with threaded compression are positioned as urban models. Such scooters are not physically adapted to the impact of high mechanical loads.

Front wheel size

The diameter of the front wheel(s) of the scooter.

This parameter is selected by the manufacturer depending on the type, age category and general purpose of the scooter. If we compare similar models with different wheel diameters, then it is worth considering that the larger the wheels, the better they work on the bumps in the road, and the higher the cross-country ability. And small wheels, in turn, are great for smooth asphalt and dynamic driving, they easily accelerate and allow you to make sharp turns.

Rear wheel(s) size

The diameter of the rear wheel(s) of the scooter. See "Front wheel diameter" for details on the value of this parameter.

Wheel rigidity

The rigidity of the wheels supplied in the scooter

The higher the number given in this parameter, the harder materials are used in the design of the wheels and the stiffer they are. Stiff wheels easier roll on different surfaces, it is easier to accelerate on them, they allow you to more accurately feel the surface under your feet and do not wear out as quickly as soft ones; on the other hand, these wheels have less traction, are more prone to vibrations and bumps, and require extra care when cornering. Therefore, wheels with high rigidity are typical mainly for professional models, and soft options are recommended for beginner riders.

Note that most scooters allow wheel replacement; this procedure is mandatory from time to time since the wheels tend to wear out. However, if necessary, you can also change a kit that is quite suitable for riding — to a harder one, or vice versa, a softer one

— 82A. Wheels with a hardness of 82A are optimal for urban scooters. This level of stiffness provides the wheels with good strength, while the wheels tenaciously contact the rolling surface. Such scooters are poorly suited for stunt riding.

— 84A. Wheels with a hardness of 84A are considered universal. These can be found both in city scooters and models for stunt riding. Rigidity at the level of 84A gives the wheels a good level of strength. Such scooters are still able to "softly" contact with the surface of the roll, but the rider will al...ready feel "hard feedback" when hitting bumps.

— 85A Wheels with a hardness of 85A are more related to stunt scooters. This level of rigidity provides the wheels with a good level of strength, but due to the increased rigidity, the soft contact of the wheels with the rolling surface is lost. If the scooter does not have suspension, the stiffness of the wheels will recoil into the platform and steering rack when hitting bumps.

— 86A. Wheels with a hardness of 86A are used in scooters for sports and stunt riding. Rigidity at the level of 86A is considered increased. Scooters with such wheels are usually designed for fairly high loads. Such wheels transmit impact and vibration to the scooter. Scooters without their shock absorption make riding on such hard wheels less comfortable. But at the same time, as the strength characteristics of the wheels increase, the chassis becomes more reliable and durable.

— 88A. Wheels with a hardness of 88A are found in stunt scooters. They are distinguished by increased strength characteristics. Due to the high rigidity of the wheels, they can easily withstand driving on any type of rolling surface. On the other hand, riding on 88A wheels provides very strong feedback to the platform and steering column. Such wheels are recommended for scooters with a built-in shock absorption system.

Wheels

Polyurethane. Wheels with solid polyurethane tyres. This material provides good cushioning, high-quality grip and, at the same time, good rolling; it is resistant to temperature extremes and damage, durable, while it is inexpensive. Due to this, polyurethane wheels are the most popular nowadays, they can be installed even in fairly advanced models of scooters — in particular, sports ones.

Rubber. In this case, we mean wheels with a solid rubber tyre (inflatable wheels are moved to a separate category). According to the main characteristics, rubber is similar to the polyurethane described above, and in some moments even surpasses it. So, such tyres do not make noise, smooth out the roughness of the asphalt well, have excellent grip and provide high braking efficiency. On the other hand, this material is less durable and does not tolerate temperature extremes, and therefore is used much less frequently.

Silicone. Wheels with a solid tyre made of silicone. These tyres are quite soft; this, on the one hand, worsens the rolling compared to the same polyurethane, on the other hand, it provides excellent cushioning. At the same time, silicone is short-lived and wears out quickly, especially under high loads; therefore, wheels made of this material are quite rare and are considered suitable mainly for children's scooters.

Plastic. Plastic has a low cost, besides, it can be given almost any colour. On the other hand, hard plastic wheels do not provide cushioning, are very noisy and generally not suitable for fast driving. Therefore, this material is found exclusively in models for kids; while the overall quality and reliability of plastic is highly dependent on the price category.

Inflatable. The most advanced type of wheels are found in modern scooters. Wheels of this type have an inflatable tyre (as in bicycles), which provides excellent shock absorption and good grip. The disadvantages of inflatable tyres, in addition to the price, include sensitivity to punctures and increased maintenance complexity: you need to monitor the pressure and, if necessary, inflate the tyre.

Bearing

Bearings that the scooter is equipped with. This paragraph usually indicates not the model/brand, but the class of bearings according to the ABEC standard. Standard options for modern scooters are ABEC 5, ABEC 7, and ABEC 9 ; the higher the number, the higher the quality and accuracy of the part.

There is an opinion that better bearings allow you to accelerate better and go faster. This is partly true, but acceleration and speed are highly dependent on a number of other points — the size and material of the wheels, the weight of the scooter, etc. So models with bearings of the same class can differ markedly in speed characteristics. But what this indicator unambiguously affects is durability and price: high accuracy affects the cost, but such bearings last longer and carry loads better.

Also note that for relatively simple use, ABEC 5 class bearings are quite enough. It makes sense to specifically look for a model with ABEC 7 or ABEC 9 only if you need a scooter for advanced stunts or professional high-speed riding. However, if the selected model has high-quality bearings, it will not be worse from them anyway.
Native Stem Pro L often compared
iTrike SR 2-067-4 often compared