OHAYNYY handmade knife by the master of the GARAGE ART studio, buy to order in Ukraine, steel K110, 60 HRC
- Brand: Студія ексклюзивних ножів ручної роботи GARAGE ART
- Product Code: ОХАЙНИЙ - ніж ручної роботи GARAGE ART
Загальна довжина клинка mm: | 250±05 mm |
Матеріал леза | Blade - steel - K110, Austrian high-carbon K110 Bohler-Uddeholm AG - high-carbon composition with a high chromium content from the Austrian company Böhler |
Твердість клинка (метал): | Hardness - 60 HRC |
Матеріал руків'я: | Micarta, Brass, mammoth tooth |
Довжина леза | 120±05 mm |
- Availability: Під замовлення
Available Options
Description
SPECIFICATIONS:
The name of the knife: OHAYNYY handmade knife by the master of the GARAGE ART studio, buy to order in Ukraine, steel K110, 60 HRC
Knife type: Fixed blade
Brand: Studio of exclusive handmade knives GARAGE ART
Blade sharpening angle: Sharpened at 36' degrees
Bevels: Straight
Ridge: 0.3 mm
Blade hardness: 60 HRC
Overall length: 250 mm
Blade length: 120 mm
Blade width: 28 mm
Blade thickness: 0.4 mm
Handle length: 130 mm
Handle thickness: 19 mm
Bolster and back material: Micarta, Brass, mammoth tooth
Handle material: Micarta, Brass, mammoth tooth
Handle impregnation: Yes
Handle coating: Sanding
Hole for lanyard (for lanyard): Yes
Lanyard: Leather cord, stained oak bead
Model: OHAYNYY handmade knife by the master of the GARAGE ART studio, buy to order in Ukraine, steel K110, 60 HRC
Model number: 017
Country of birth: Ukraine
Master: Master Nazar Boyko, "GARAGE ART" knife studio, Lviv, Ukraine. Studio of exclusive handmade knives GARAGE ART
Best use: Multi-purpose: hunting, fishing, tourism, household - cutting, etc.
Knife condition: new
The price is indicated with the sheath.
A sharpened knife is not a cold weapon.
Our knives are very sharp, so open and use very carefully. We are not responsible for injuries related to the use of our knives.
Our products are intended for legal use only by responsible buyers. We will not sell our products to anyone under the age of 18.
Availability changes regularly, upon confirmation of your order we will inform you about the availability or time of readiness of the product. The product may differ slightly from the one shown in the photo.
Steel k110 for knives - features, pros and cons
At the moment, there are many possible materials for the production of knives. Depending on the purpose of manufacture, different materials are taken. Moreover, the content of basic substances in different grades of steel can vary significantly. The most typical grades of steel are high-carbon types of steel. Among them, you can find many types of materials that differ in the number of additional elements. One of the best grades of steel for hunting knives is K1100 from the Austrian company Böhler.
Composition and features
Böhler K110 steel is a high-carbon composition with a high chromium content. The metal is stamped by cold stamping. The metal is produced by one of the largest metallurgical concerns in the world. The plants are located in Europe, North and South America.
In the production of K110, electroslag remelting technology is used. Due to this, the quality of the material is significantly improved. Due to the presence of various undesirable impurities, serious defects may appear during mechanical forging. To avoid this, the electroslag remelting method is used. When undergoing electroslag remelting, the melt is passed through a layer of special slag before solidification begins, with the help of which foreign elements are removed from the molten metal, for example, phosphorus, sulfur and many others.
The electroslag remelting method provides a final result with low levels of segregation, purity and uniformity of structure. In Böhler K110, the percentage of harmful impurities is significantly reduced and the compounds of metals and non-metals with carbon are distributed evenly.
Therefore, this metal has a complex composition and is able to withstand even very thin angles during forging. One of the main advantages is extremely high strength and toughness. It is desirable to harden such material in air. If necessary, the nitriding method is used. Böhler K100 is used for forging knife products of the middle and high price segment.
Metal composition:
It contains 1.5% carbon, which provides higher strength and hardness.
Chromium content – 12%. This metal provides increased hardenability of steel, resistance to rust and wear.
Molybdenum 0.8% is used to make high-speed steel. It significantly increases the hardness of the blade, makes it resistant to high temperatures.
The percentage of vanadium is 1%. This chemical element has high strength. It enhances the elastic characteristics of the material and makes it resistant to various aggressive environments.
Manganese – 0.35%. Manganese is used during smelting. It significantly increases the hardness of the material. A characteristic feature of manganese is that various objects requiring high strength are made from steel with a high content of this chemical element. For example, safes, rails and much more.
Böhler K110
Main advantages
Any steel is an alloy of iron and carbon, but their ratio in the substance will directly affect the characteristics of the finished product. This type of material is produced by electroslag remelting. And due to the high content of impurities, increased strength of the material is formed.
The main advantages of Böhler K110 steel include:
- The main requirement that applies to all knives is the sharpness of sharpening. However, the sharper the knife is sharpened, the faster it will dull. However, this rule does not apply to knives made of K110. Due to the high concentration of chromium in this steel, wear resistance is significantly increased. Therefore, the cutting edge will always be sharp. However, the use of such impurities reduces corrosion resistance. Although the knife will not rust very quickly.
- The presence of a high percentage of molybdenum in the composition provides the material with uniformity and homogeneity of steel. This is very important for a knife. A small proportion of vanadium increases the strength and durability of the material, and manganese in contact with chromium significantly increases strength.
- After numerous tests, it was found that even after numerous bone cuts and can opening operations, the blade remained virtually striated. The blade continued to be capable of cutting through newspaper under its own weight.
- Due to the combination of various impurities in the composition of the substance and the method of manufacturing the steel, knives made from this material have an extremely long service life.
- The blade is more resistant to various aggressive environments, including some internal organs of animals. Therefore, the knife will not darken and rust for a long time.
Main disadvantages
The disadvantages include:
- This does not have high fracture strength. Therefore, it is undesirable to throw products and check for their ability to bend.
- Blades made of such material are usually made with a small size and narrow focus. These are hunting knives specially prepared for processing carcasses. They are usually used by residents of Siberia and the North. However, the sword will be able to show its excellent properties only with proper preparation and sharpening. Otherwise, it is very easy to damage the cutting edge. However, if such care is provided, knives made of K110 will be equal in characteristics to blades made of higher quality steel.
Conclusion
K110 from Böhler from the Austrian manufacturer is one of the highest quality products for forging knives. Despite the demanding care of the blade and the mandatory condition of thorough drying after contact with water, a knife made of such metal will serve in the right hands for a very long time. Therefore, buying knives and tools from K110 from the Austrian manufacturer is definitely worth it. They are able to last a long time.
WHAT ARE MICARTA AND G10, AND HOW DO THESE COMPOSITE MATERIALS DIFFER FROM EACH OTHER?
Micarta is an electrical insulating material consisting of a polymer film (based on cresolaldehyde, phenolaldehyde, xylenolaldehyde resin or resin from a mixture of phenolic raw materials). It is glued together using various electrical insulating papers, fabric (mainly linen) or other materials of a similar structure. Micarta is registered as a trademark of the company Paper International. Its Russian analogue is considered to be getinaks. This is a fabric-based textolite of the highest grade. Its color depends on the resin and material used in gluing. If you change the color of these components, you can get different and often quite intricate color compositions. But when it comes to combat knives, then black, brown and olive-green colors prevail in this regard.
Linen-based Micarta has a more attractive optical effect when the fibers are sanded. After sanding, the surface can be polished or sandblasted. In the first version, the surface will be silky. It is pleasant to the hand, smooth and warm to the touch. And in the second - it is rough and has a matte finish, in addition, it holds securely in the hand.
Key features of Micarta:
- increased water resistance;
- excellent resistance to temperature changes;
- strength to mechanical processing;
- dense structure that does not absorb odors;
- the microrelief of the material does not slip in the hand even on a wet surface;
- a tight fit to the blade, which leaves absolutely no gaps and prevents food residues and harmful microorganisms from accumulating.
Micarta is a relatively soft material and requires careful manual processing. Therefore, it is used in the production of handles for expensive knives. Most Western companies use Micarta to make handles for combat and camping knives, which are supplied to the army. Improper use of Micarta can lead to scratches.
G10 is a lightweight, hard and rigid material with a textured surface, which is used in the manufacture of handles of both folding knives and fixed blade knives. It is made of a fiberglass-reinforced compound, which is pressure-treated. G10 is characterized by good strength and moisture resistance. This material can be painted in different colors and even in layers.
After the finishing stage of the G10 handle or grip, the surface often turns gray and dull. To restore the colors to their former brightness, simply wipe the surface of the handle with oil. The finished grip or grip made of G10 can be sandblasted. As a result of the impacts of the sand grains, the resins are compacted, driven inward and reveal the structure of the fiberglass. Such a rough surface contributes to a better grip and does not slip even when wet.
G10 and Micarta have a similar composition and external similarity. But the first material is not as flammable as the second. As for tensile strength, Micarta, unlike G10, is considered a weaker material. But still, it can withstand very serious loads.
____________________________
For decades, Micarta and G10 composite materials have been the undisputed leaders in the knife industry, in particular for the production of handles of various complexity. The materials stand out for their availability, ease of production and processing, as well as high strength, wear resistance and unpretentiousness in maintenance. Both materials are composite, their basis is a polymer resin, which is supplemented with layers of captive fabric of various types.
Micarta-G10-Сomposite-materials-photo-2
Micarta material is an electrically insulating material consisting of a polymer film (based on cresolaldehyde, phenolaldehyde, xylenolaldehyde resin, or resin from a mixture of phenolic raw materials). It is glued using various electrically insulating papers, fabric (mainly flax of natural or artificial origin), or other materials of similar structure, there are also options made of fiberglass and carbon fiber. The color of the material depends on the resin and fabric base used in the gluing. Micarta is a relatively soft material and requires careful manual processing. Therefore, it is used in the production of handles for more expensive knives.
Micarta is registered as a trademark of the American company Industrial Laminates / Norplex, Inc. (Norplex-Micarta). Its domestic analogue can be considered a material called "Getinax", which is mainly used as a base for printed circuit boards. The material also has a sheet-like pressed structure, which consists of a paper base with the addition of impregnation from phenol-aldehyde or epoxy resin.
Linen-based micarta has a more attractive optical effect when the fibers are sanded. After sanding, the surface can be polished or sandblasted. In the first version, the surface of the material will be smooth, silky, warm and pleasant to the touch. In the second, the material becomes rough and has a matte finish, in addition, it holds securely in the hand and does not slip.
Key features of Micarta:
- increased water resistance;
- excellent resistance to temperature changes;
- strength to mechanical processing;
- dense structure that does not absorb odors;
- the microrelief of the material does not slip in the hand even on a wet surface;
- a tight fit to the blade, which leaves no gaps at all and prevents food residues and harmful microorganisms from accumulating.
G10 is a lightweight, hard and fairly rigid composite material with a textured surface, which is mainly used in the manufacture of handles of both folding pocket knives and fixed blade knives. This material is created by placing several layers of fiberglass, thoroughly impregnated with epoxy resin, in a special vacuum press, where, under the influence of compression and heat, the resin finally hardens, preserving the structure of the fiberglass.
G10 material is characterized by good impact resistance, wear resistance, moisture resistance, as well as ease of processing and maintenance. The material can be painted in various colors, including layers. The surface of G10 can also be polished to a glossy state, or have a rough anti-slip structure, under the influence of a grinding machine, or sandblasting.
Key features of G10:
- high stability of basic properties during temperature fluctuations;
- withstands high impact loads, compressive and tensile loads;
- high overall hydrophobicity and resistance to chemicals;
- weighs relatively little, in relation to the overall strength and density;
- low electrical conductivity;
- can take different forms.
Composite materials G10 and Micarta have almost the same composition and external similarity. At the same time, G10 material has higher fire resistance, although it is not a non-combustible material, has higher compressive, bending, impact and tear strength, and is also simpler and more budgetary in production. At the same time, G10 is inferior in terms of "tack" in wet conditions, and also, tactilely, feels less "natural".
HANDLE MATERIAL - MAMMOTH TUSK
Mammoth tusk is a rare raw material used to make decorative items, such as knife handles, gun grips, and jewelry. It is a unique natural element that is rarely found, so its value is quite high.
Today, mammoth tooth, after certain processing (stabilization), is widely used by master knifemakers. Stabilization is the process of polymerizing the material under vacuum with or without the use of fat-soluble dyes, while the material is impregnated with polymeric substances throughout.
MAMMOTH TOOTH HANDLE MATERIAL
Mammoth tooth is a manufactured material of animal origin. Its exceptional feature is the fact that its source is extinct animals - mammoths. Paleontologists have established that they lived on Earth about 10 thousand years ago, and their number was very large. The teeth of mammoths were not permanent and changed about four times during their lives. The fallen teeth, which modern scientists find during excavations, become the basis for decorative elements, including knife handles.
Due to the long stay in the soil, the material acquired a very unstable structure - the enamel became rock hard, and the dentin, on the contrary, became loose. But modern technologies for stabilizing materials have helped turn mammoth teeth into an excellent basis for creating luxurious knife handles. The polymer composite provides the products with resistance to corrosion and moisture, and the natural base gives a unique texture and intricate pattern.
Material features
Mammoth molars are used to create various products. Outwardly, they resemble elephant teeth, but they have a much different shade. Given the historical value and rarity, mammoth tusk is especially highly valued, since this animal became extinct long before our era. Tusks of prehistoric giants can be found not only in paleontological museums, but also on the shelves of jewelry stores, they are used to decorate the interior, used to create various decorative elements - of course, not in their original form, but in processed form. The
age of the material, according to scientists, is 10-40 thousand years. How mammoths lived has not been fully studied today. However, the remains of these giants found by scientists, their bones, teeth, even whole carcasses have allowed scientists to make serious progress in this field of research. The available data made it possible to find out what the mammals looked like, what they ate, what climatic conditions they lived in, what behavioral characteristics they had (for example, whether they led a herd or solitary existence).
The mammoth ate practically the same as a modern elephant: its diet consisted of plant food. In the world, the animal could feed on coniferous plants. They preferred rough food, which they easily chewed with their strong jaws and teeth, similar to large plates. An interesting feature of the mammoth's body was that as the old tooth wore out, a new one grew, displacing the old one and taking its place. Thus, the animal could change its teeth several times during its life. Absolutely all teeth changed in about a ten-year period, and the average life span of a mammoth was 40 years. In other words, one animal could survive an average of four complete changes of molars. It is because of this feature that people often find individual worn mammoth teeth but do not encounter other traces of it.
Appearance
If you look at a mammoth tooth, you can see a heterogeneous surface with ribbed edges. Bone, enamel and soft tissue in this case alternate. The material has a rather complex structure:
Its basis is dentin.
The dentin layer is covered with protective enamel.
It is worth noting that the mammoth had only 4 molars and 2 tusks, which protruded outward and served mainly for self-defense.
After special processing, the molar can be used to make various jewelry products. The density of the material is very high and resembles stone. In order to process such a product, the master needs to spend a lot of effort and time.
Raw material stabilization
To prevent the tooth and tusk from collapsing during use and manufacturing of products from it, stabilization technology is used. This is a crucial stage of processing, in which the following technologies are used:
Polycondensation.
Vacuum processing.
Application of special dyes.
All cavities of the tooth are filled with a polymer substance, due to which the base acquires reliable protection from climatic influences. Such a product does not deform, cracks do not appear on it, it becomes able to withstand high temperatures. The appearance of the material also changes, becomes more attractive and unique.
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