Rod action
The action the rod matches. This parameter is often associated with spinning models (see “Type”), but it can also be indicated in other varieties.
Action characterizes the overall rigidity and elasticity of the rod blank - the main working part located between the handle and the upper end. In practice, the characteristics of bending and straightening during casting depend on this indicator. The
“faster” the action of the rod, the stiffer it is, the smaller part of it (counting from the upper end) bends when casting and the faster the structure returns to its original state. Conversely, a slow action means that the rod bends almost along its entire length and returns back at a relatively low speed.
If we talk about specific numbers, then models that bend 1/3 of the length or less are considered
fast, and models
that bend 2/3 of the length or more are classified as slow. Between these numbers there are intermediate indicators:
medium-fast,
medium and
medium-slow.
The progressive or complex system stands apart from others. The main feature of such rods is that when casting, they work as a fast-action rod, and when fishing for large prey, they exhibit the properties of a medium or even slow action, bending as t
...he load increases in the shape of a parabola and at the same time dampening the jerks of the fish. Progressive rods combine the advantages of fast and slow blanks in one bottle, but they are more expensive than their traditional counterparts.
The choice of fishing rod depends primarily on the expected fishing conditions. Thus, fast models are well suited for situations where there is no space for a swing - they allow you to throw the bait quite far due to just one movement of the wrist. Such products are considered more accurate; with a fast rod it is easier to throw the bait into a “window” among the algae or other small place. In addition, the rigidity provides good sensitivity when retrieving and playing. In turn, a slow action requires space for the swing, but allows for greater casting distance and reduces the likelihood of line breakage during sudden jerks of prey. Well, we should also not forget about the personal preferences of the fisherman - after all, the effectiveness of casting largely depends on the overall convenience of the rod.Max. casting
The maximum weight of the entire rig (including bait, weights, hooks, etc.) that the rod can handle. This parameter is not recommended to be exceeded: the structure will be subjected to off-design loads and wear out a lot, to the point that the rod can simply break during a normal cast. In addition, the off-design weight of the casting significantly reduces the range and accuracy of the cast, which is critical, in particular, in spinning and match fishing (see "Rod type").
Min. casting
The minimum weight of equipment (lures, sinkers, hooks, floats, etc.) with which the rod will work effectively. Compliance with this parameter is important, first of all, for types of fishing that require high accuracy, for example, match or spinning (for more details, see "Rod Type") — a rig that is too light will not allow you to cast the rod far enough and accurately.
Rod material
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Fiberglass. One of the earliest synthetic materials used in modern rods appeared in the middle of the 20th century. It is a substance consisting of thin elongated filaments of ordinary glass. However, unlike the usual form of glass (for example, window glass), fiberglass is a soft and fairly shock-resistant material — for example, rods made of it are much more unpretentious than
graphite and carbon fiber (see below), less sensitive to bumps and falls, and are significantly cheaper. The main disadvantage is the significant weight, which creates inconvenience if you need to often cast the bait (for example, when fishing with a lure from the shore). In addition, fiberglass is less resilient and less resistant to bending than the mentioned "carbon" materials.
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Composite. Most often, composite rods are made from a mixture of carbon fiber and fiberglass. The first material has good rigidity and bending resistance, but is rather brittle; the second is not so hard, but at the same time less sensitive to bumps, falls, etc. The combined design allows you to combine the advantages of both materials and compensate for the disadvantages. Note that the proportions of this mixture are different, and therefore composite rods can differ greatly from each other in terms of characteristics; it is desirable to clarify this point separately before purchasing.
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Carbon (graphite). A type of carbon fiber is a synthetic material made up of thin strands of carbon. The main advantage of carbon is its high resistance to bending, which is very important when pulling large prey. In addition, this material is quite light and resistant to bad weather, temperature changes, etc. On the other hand, such rods do not tolerate shocks, falls on a hard surface, etc. and require careful handling — in particular, it is highly desirable to use covers during transportation. However, the advantages of carbon far outweigh its disadvantages, and therefore it is one of the most common materials for modern rods of various types.
This item also includes graphite rods. This is one of the varieties of carbon fiber, somewhat simplified compared to carbon fiber and, accordingly, less expensive. Graphite tolerates heavy bending loads worse, and therefore is used mainly in Bologna and float rods. In addition, due to its plasticity and "biting", this material is also suitable for match models.