COSSACK FATE hand-made saber by Serhiy Dytyuk, steel - 65G - forged, 50 - 54 HRC
- Brand: Майстерня сокир та шабель Сергія Дитюка
- Product Code: КОЗАЦЬКА ДОЛЯ - шабля ручної роботи СЕРГІЯ ДИТЮКА
Загальна довжина клинка mm: | 880 +-5 mm |
Матеріал леза | The blade - steel 65G - is a wear-resistant, viscous, strong, elastic material, with good tear resistance and resistance to shock loads. |
Твердість клинка (метал): | Hardness - 50 - 54 HRC |
Матеріал руків'я: | Walnut stained and impregnated with Danish Oil |
Довжина леза | 760 +-5 mm |
- Availability: Під замовлення
Available Options
Description
SPECIFICATIONS:
The name of the ax is COSSACK FATE hand-made saber by Serhiy Dytyuk, steel - 65G - forged, 50 - 54 HRC
Ax type: Handle
Brand: Workshop of exclusive hand-made axes and sabers by SERGIY DYTYUK
Complete set: (Behind the zamovnik's bazhanny)
VIP case made of hard wood, covered with furboy and additional firm varnish: 4200 UAH
The box is standard, singed from pine: 2300 UAH
Subscription for juice: 1500 UAH
The saber was forged from a steel square measuring 15x15 mm and 800 mm long
Main characteristics of the ax:
Steel grade: The blade - steel 65G - is a wear-resistant, viscous, strong, elastic material with good tear resistance and resistance to shock loads.
Processing: Quenching, Forging, Grinding, Polishing
Blade sharpening angle: 30-35 degrees
Grinding of the blade: Finish - grinding with 1000 grit and polishing
Blade sharpening angle: Sharpened at 36 degrees
Descents: Convex, vault 0.2 mm
Reduction: 0.2 mm
Blade hardness: 50 - 54 HRC
Blade length: 760 mm
Blade width: 30 +-3 mm
Thickness of the butt: Near the handle 5.5 mm
Shoe thickness: 4.5 mm near the end
Length of the handle: 120 mm (you can make it shorter if you wish)
Handle thickness: 22 mm
Balance: 190 mm
Total length: 880 mm
Handle material: Walnut stained and impregnated with Danish Oil
Scabbards: Wooden scabbard in leather
Type of saber: Screed on foams, tylemac foam with a hole - mosaic
Additional features:
Cutting edge: Not sharpened
MASTER'S COMMENTS:
How to take care of the saber: dear customers, considering that the saber is made of steels that do not have protection against corrosion, it is advisable to lubricate the blade after use with either a vegetable oil or a universal oil in the form of a spray, after which the oil should be allowed to dry a little and carefully But if you don't like the appearance of the saber over time, it's easy to fix it: it's enough just to pass the blade with an abrasive leather of 600 grit, wipe off all the dust after processing and lubricate it with vegetable oil or universal oil like WD-40.
Dear customers, please note that all products are made purely by hand and have a unique individual character. That is, the appearance of the product (shade and structure of wood, depth of metal etching, leather texture, etc.) may differ slightly from the photo, but in general, the product will be as close as possible to the photo in the product card. Thanks for understanding!"
number: 027
Country of birth: Ukraine
Craftsman: Master Sergiy Dityuk, Dnipro, Ukraine, Workshop of exclusive hand-made axes and sabers by SERGIY DYTYUK
Best use: Multifunctional: hunting, fishing, cutting carcasses, chopping firewood, cleaning the area, etc.
The saber is sold NOT Sharpened and is not a cold weapon!
Our axes are very sharp, so be very careful when opening and using them. We are not responsible for any injuries resulting from the use of our axes.
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, after confirming your order we will notify you of availability or when the item is ready. The product may differ slightly from the one shown in the photo.
Steel 65G: Properties, applications and features
This is a high-strength structural material that has found wide application in various industries. It has high wear resistance, high temperature resistance and good weldability.
2. Composition and properties of steel 65G
2.1 Chemical composition
Element | Content |
---|---|
Carbon (C) | 0.62-0.70% |
Silicon (Si) | 0.17-0.37% |
Manganese (Mn) | 0.9-1.2% |
Chrome (Cr) | 0.8-1.1% |
Molybdenum (Mo) | 0.15-0.25% |
Phosphorus (P) | no more than 0.035% |
Sulfur (S) | no more than 0.035% |
2.2 Mechanical properties
- Tensile strength - 650 MPa;
- Temporary resistance - 590 MPa;
- Relative elongation at break - not less than 13%;
- Relative narrowing at break - not less than 50%;
- Brinell hardness - not less than 207 HB.
Index | Meaning |
---|---|
Tensile strength | 880-1180 MPa |
Yield strength | 680-980 MPa |
Elongation at break | 12-16% |
Relative narrowing of the cross section | 30-60% |
Impact strength at t=20°С | 12-16 J/cm² |
Hardness | 179-269 NB |
3. Application of steel 65G
3.1 Construction industry
It is widely used in the construction industry. It is used for the manufacture of structural elements that must withstand high loads, for example, for the production of bridge structures, railway overpasses, as well as for the construction of building foundations.
3.2 Mechanical engineering
It is used in mechanical engineering for the manufacture of parts that can withstand high loads and require increased strength and wear resistance. This steel is widely used in the manufacture of gears, shafts, nuts, bolts and other parts.
3.3 Pipe production
Also used in the production of pipes. It is used to produce pipes that withstand high pressure and require increased strength and wear resistance.
The use of steel 65G and heat treatment of products: spiral springs, sheet and spring washers are made from steel 65G and other spring steels. Spring steel is used to make springs. The hardness of the springs is within R c = 40-50, and spring washers R c = 40-48. Upon acceptance, the springs are checked for hardness and elasticity. The test method should, as far as possible, approximate the actual operating conditions of the springs (tension, compression or bending).
Springs made of heat-treated (patented) wire or tape of classes H, P and B undergo additional tempering at a temperature of 250-350 ° to relieve internal stresses that have arisen during their manufacture and to improve the elastic properties of the wire.
Spring release is best done in saltpeter baths for 5-10 minutes, depending on the cross section of the material. When tempering in oil or electric furnaces, special attention should be paid to the uniformity of heating. Vacation time in these furnaces is 20-40 minutes.
Springs made of annealed steel are quenched and tempered. In the case of making springs from wire with a diameter of more than 6 mm, high tempering is carried out before hardening at a temperature of 670-720 ° to eliminate cold hardening resulting from cold winding. Hot-wound springs are normalized before hardening.
For heating for quenching, the springs are placed in chamber furnaces or salt baths heated to the required temperature. To avoid deformation, large springs are heated in a special device.
Small springs are loaded into the oven on a baking sheet. Exposure in the furnace should be the smallest - to prevent oxidation and decarburization. To reduce the residence time in the oven, small springs are placed on a preheated baking sheet. In the absence of a protective atmosphere in the furnace, the springs are packed in an insulating environment, or small amounts of charcoal are thrown into the furnace. Cool the springs in oil. It is not recommended to cool the springs in water to avoid cracking. If hardening in water is necessary, the exposure should be no more than 2-3 seconds. followed by cooling in oil.
Before release, the springs are cleaned of oil by washing in a soda solution or thoroughly rubbing in sawdust. Oil that is not removed from the springs flares up during tempering and changes the tempering conditions, which leads to uneven heating and low hardness. The tempering temperature is 300-420°. The annealing of the extreme turns is carried out in a lead bath.
Large springs are put on pipes before release to eliminate warpage.
Attention should be paid to the surface of the material used for the manufacture of springs. Risks, hair lines and other defects lead to the formation of cracks, and the decarburized layer leads to a decrease in the elastic properties of the spring.
Quite often, anti-corrosion coatings used on a number of springs make them brittle due to the saturation of the metal with hydrogen during pickling and during the coating process. This is especially noticeable on springs made of wire or tape of small cross section. This brittleness, called etching or hydrogen, is eliminated by heating the finished springs in oil, glycerin or an oven at a temperature of 150-180 ° for 1-2 hours.
However, during prolonged etching, the metal is saturated with hydrogen so strongly that the specified temperature does not eliminate brittleness and the springs must be annealed. To avoid deep hydrogenation, springs made of thin wire or tape should not be pickled before coating, but should be sandblasted and heated after coating, as indicated above.
5. Advantages of using 65G steel
- High strength and wear resistance;
- Good weldability;
- Resistant to high temperatures;
- Wide application in various industries;
- Relatively low cost compared to other high strength materials.
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