Blade Metals:
Steel is an alloy (mix) of mostly iron and some carbon. Other elements used in steels (alloys) are, manganese, chromium, vanadium, and tungsten. The amount of alloy elements in the steel controls qualities like hardness, ductility, and tensile strength.
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Alloy Increases:
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Edge
Retention |
Hardness
|
Toughness
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Tensile
Stength |
Hardenability
|
Impact
Strength |
Wear &
Abrasion Resistance |
Corrosion
Resistance |
Melting Temperature
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Carbon (C)
|
Yes
|
Yes
|
Yes
|
Yes
|
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Chromium (Cr)
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Yes
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Yes
|
Yes
|
Yes
|
Yes
|
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Manganese (Mn)
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Yes
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Yes
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Yes
|
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Molybdenum (Mo)
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Yes
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Yes
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Yes
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Yes
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Yes
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||||
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Nickel (Ni)
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Yes
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Yes
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Yes
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Yes
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Silicon (Si)
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Yes
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Cobalt (Co)
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Yes
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Yes
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Copper (Cu)
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Yes
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Phosphorus (P)
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Yes
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Yes
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Tungsten (W)
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Yes
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Yes
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Yes
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Vanadium (V)
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Yes
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Yes
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Yes
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Yes
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- Carbon (C) increases hardness, improves edge retention, increases tensile strength, increases wear & abrasion resistance
- Chromium (Cr) increases hardness, increases wear & abrasion resistance, increases tensile strength, corrosion resistance & increases melting temperature
Stainless steel is a generic term steel with over 10.5% chromium - Cobalt (Co) Increases strength & hardness. Used to make high speed (tool) steel, Intensifies effects of elements in complex steels
- Copper (Cu) Increases corrosion resistance and fatigue resistance
- Manganese (Mn) improves hardenability, increases tensile strength & increases wear & abrasion resistance
- Molybdenum (Mo) improves hardenability, increases hardness, increases tensile strength, increases wear & abrasion resistance & improves resistance to corrosion & pitting.
- Nickel (Ni) increases tensile strength, toughness, hardenability and corrosion resistance
- Silicon (Si) increases tensile strength, increases workability, elasticity
- Tungsten (W) is used to make high speed (tool) steel, increases resistance, hardness and tenacity
- Vanadium (V) increases hardness, increases tensile strength, increases impact strength, wear resistance, promotes fine grain & reduces metal fatigue
- Sulfur (S) Improves machinability in small quantities
- Nitrogen (N) Used in place of carbon
- Phosphorus (P) increases brittleness, workability. improves strength, machinability, and hardness
Modern steel is identified into grades defined by various organizations.
Steel can generally be divided into Carbon Steel, Stainless Steel.
Stainless Steel has over 10.5% chromium
Non-Stainless Steels
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Stainless Steels |
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has a better sharp edge
quicker and easier to bring back to a razor edge |
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will corrode more easily |
Soft but it holds a blade edge very well |
Non-Stainless Steels (Carbon Steel, Tool Steels) |
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Steel Type
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Composition:
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Hardness:
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Used by:
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Origin:
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Cost
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Properties:
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1055
|
between a medium and a high carbon steel, manganese
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Rc 60-64
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Cold Steel
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One of the toughest steels available, ideal for applications where strength and impact resistance is needed | ||
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1075
|
Ontario
|
$3
|
Toughness is outstanding, Used for truck springs, files | |||
1095 |
Carbon, Manganese, Phosphorus, Sulphur
|
59
|
Glock , Spyderco,
KA-BAR, Ontario, Tops |
USA
|
$4
|
Easy to sharpen. One of the most popular for knives |
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5160
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Carbon, Silicon, Chromium, Manganese, Phosphorus
|
mid 50’s
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Ontario, Spyderco
|
$3
|
Good edge holding, excellent for swords, or blade that will take abuse, Used for automotive leaf springs | |
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52100
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Carbon, Silicon, Chromium, Manganese, Phosphorus, Sulphur
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56-61
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Spyderco
|
$45
|
Ball bearing steel | |
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A-2
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Carbon, Molybdenum, Silicon, Chromium, Manganese, Vanadium
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64
|
Spyderco
|
$20
|
Exceptional steel, one of the toughest tool steels, fine wear-resisting qualities. frequent choice for combat knives. | |
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Steel Type
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Composition:
|
Hardness:
|
Used by:
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Origin:
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Cost
|
Properties:
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CPM-10V
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58-60
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Spyderco
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CPM-15V
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61-63
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Spyderco
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CPM-3V
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58-60
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Spyderco
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CPM-9V
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54-56
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Spyderco
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CPM-D2
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high-carbon, high-Chromium: Carbon, Molybdenum, Chromium, Vanadium
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57-61
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Kershaw, Spyderco
|
USA,
Crucible Materials |
$32
|
Tool steel. only made by Cruciblen, experimental steel |
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CPM-M4
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Carbon, Molybdenum, Silicon, Tungsten, Chromium, Manganese, Sulphur, Vanadium
|
59-61
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Benchmade, Spyderco
|
Non Stainless Tool Steel. Excellent wear resistance and toughness | ||
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CTS-B52
|
Spyderco
|
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D2 |
high-carbon, high-Chromium: Carbon, Molybdenum, Chromium, Vanadium
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57-61
|
Benchmade, Kershaw, Microtech, Spyderco, SOG, KA-BAR
|
$35
|
Tool steel. Good corrosion resistance, excellent wear resistance. Good for hard use. Very difficult to process. |
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Hitachi Blue Super
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62-64
|
Spyderco
|
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L6
|
57
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Tool Steel, not easy to work or grind. Famous sword steel. Almost never used in production knives |
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M-2
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60-62,
66-67 |
Spyderco
|
Better edge holding than D-2, brittle, not recommended for large knives, high temperature steel for lath cutting tools | |||
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O-1
|
65
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Spyderco
|
$40
|
Minimum distortion and dimensional change. very little corrosion resistance. Tool and die steel, |
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Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
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Cost
|
Properties:
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S7
|
Ontario
|
Shock resisting tool steel, very low wear resistance, need to be sharpened often, do not make good knife blades | ||||
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SK-5
|
high carbon, manganese
|
Rc 65
57-58 |
Cold Steel
|
Japan
|
Equivalent of American 1080. Used for hand tools, chisels & wood saws | |
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Vascowear
|
59-61
|
Spyderco
|
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XC90 |
high carbon
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Opinel
|
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Steel Type
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Composition:
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Hardness:
|
Used by:
|
Origin:
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Cost
|
Properties:
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 |
 |
 |
Stainless Steels |
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Steel Type
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Composition:
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Hardness:
|
Used by:
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Origin:
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Cost
|
Properties:
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12C27
Sandvik |
Carbon, Silicon, Chromium, Manganese, Phosphorus, Sulphur
|
59-61
|
CRK&T,
KA-BAR, Opinel, Spyderco |
Sweden
|
$30
|
Premium steel Used in Finish & Norwegian knives. |
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13C26
Sandvik |
Kershaw
|
$13
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14C28N Sandvik
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Kershaw
|
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154CM
|
Carbon, Molybdenum, Chromium
|
57-59,
58-60 |
Benchmade, Case, Emerson, Gerber, Leatherman, Microtech, Spyderco, SOG, Tops
|
USA,
Crucible Metals |
$20
|
Great corrosion resistance with good toughness and edge quality. Very few impurities, must be laser cut Developed as a high temperature alloy for use in fan-jet engines. 154 CM is not an accepted standard grade designation, just a manufacturers trade name. |
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17-7PH |
chromium-nickel-aluminum precipitation
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Rc 54-56
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Buck
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High saltwater corrosion resistance and good edge retention | |||||
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20CV
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Carbon, Molybdenum, Silicon, Tungsten, Chromium, Manganese, Vanadium
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60
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Spyderco
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3Cr13
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52-55
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CRK&T
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China
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4034
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54-55
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S&W (Taylor)
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China
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X45Cr13 (Europe) 40Ch13 (Russia) |
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Steel Type
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Composition:
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Hardness:
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Used by:
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Origin:
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Cost
|
Properties:
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4116
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carbon, chromium
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55-57
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CRK&T, Kershaw, Cold Steel
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German
|
High degree of corrosion resistance, strength & edge holding. 4116 Krupp | ||||
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420
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Carbon, Manganese, Chromium
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54
|
Frost, Gerber
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USA
|
Tanto blades, axe heads | ||||
420HC |
high carbon: Carbon, Manganese,Chromium |
Rc 58,
55-59 |
Buck, Gerber, Kershaw, Leatherman, Microtech, Ontario
|
USA,
Crucible & Latrobe ? |
Stays sharp, not brittle, excellent tensile strength, hardness and wear resistance, corrosion resistant. works well with high production tooling | ||||
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420J2
|
Carbon, Silicon, Chromium, Manganese, Phosphorus, Sulphur
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52-55
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CRK&T, Kershaw, Spyderco
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Lowest grade of cutlerystainless steel. Low wear resistance & edge holding make it a poor blade | |||||
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440A
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low-carbon: Carbon, Molybdenum, Silicon, Chromium, Manganese, Phosphorus, Sulphur
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55-57
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CRK&T, Frost, Gerber, Kershaw, Ontario, Spyderco, SOG, KA-BAR
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Contains the least amount of carbon and is the more stain-resistant. easy to polish, easy to scratch. Usually only used by production knife companies. | |||||
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440B
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Carbon, Molybdenum, Silicon, Chromium, Manganese, Phosphorus, Sulphur
|
56
|
Spyderco
|
Tougher than 440C but inferior edge retention & sharpness. easy to machine & sharpen making it cheaper to produce. Not commonly seen in knives. | |||||
440C |
high-chromium: Carbon, Molybdenum, Silicon, Chromium, Manganese, Phosphorus, Sulphur
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59
|
Benchmade, Coast, Frost, Spyderco, SOG, Warren
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$12
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Contains high carbon and is hard. Excellent value. First used by Gil Hibben about 1966. Benchmark cutlery steel SAE 51440C |
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440XH
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Carbon, Molybdenum, Silicon, Chromium, Manganese, Nickel, Vanadium
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60-62
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Spyderco
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Steel Type
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Composition:
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Hardness:
|
Used by:
|
Origin:
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Cost
|
Properties:
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|||
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5Cr15MoV
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55-57
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CRK&T
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China
|
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6168CrV
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59-61
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CRK&T
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8Cr13MoV
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Carbon, Molybdenum, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur, Vanadium
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58-59 |
CRK&T, Kershaw, Spyderco, SOG
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China
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High performance-to-cost ratio compared to AUS-8 | ||||
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8Cr14MoV
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58-59
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Benchmade, CRK&T
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China
|
Excellent value, similar to AUS-8 | |||||
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9Cr13CoMoV
|
high-carbon, cobalt
|
Benchmade
|
China
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High level of corrosion resistance at a great value | |||||
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9Cr18MoV
|
Carbon, Molybdenum, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur
|
58-60
|
CRK&T, Spyderco
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China
|
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ACUTO +
|
59-60
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CRK&T
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ATS-34 |
high carbon: Carbon, Molybdenum, Silicon, Chromium, Manganese, Phosphorus, Sulphur
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60-61
|
Buck, Case, Spyderco, Tops, Warren
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Japan, |
Very few impurities, hardness, rust resistant. Re-sharpening can require extra effort. Considered the equal of 154CM. Just a trade name |
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Steel Type
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Composition:
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Hardness:
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Used by:
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Origin:
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Cost
|
Properties:
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ATS-55
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Carbon, Cobalt, Copper, Molybdenum, Silicon, Chromium, Manganese
|
59-61
|
Spyderco
|
Japan,
Hitachi |
Very good cutlery steel Takes a very fine edge & cuts very well. Similar to ATS-34. Custom for Spyderco. |
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AUS 4
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55-57
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CRK&T
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Japan,
Aichi |
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AUS-6
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Carbon, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur, Vanadium
|
56-58
|
Kershaw, Spyderco, SOG
|
Japan,
Aichi |
Compromise between toughness, strength, edge holding ability, resistance to corrosion & cost | ||||
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AUS-8 (8A) |
medium-carbon, high chromium: Carbon, Molybdenum, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur, Vanadium
|
58-59
|
Benchmade, Blade-Tech, Cold Steel, Kershaw, Spyderco, SOG
|
Japan,
Aichi |
Mid-range steel, step up from AUS-6. Compromise between toughness, strength, edge holding, & resistance to corrosion | ||||
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AUS-10
|
Carbon, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur, Vanadium
|
58-60
|
Spyderco
|
Japan,
Aichi |
Top of the line steel. Less rust resistant T ougher than 440C |
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Bohler M390
|
vanadium, chromium
|
Benchmade, Kershaw
|
$46
|
Excellent corrosion resistance | |||||
|
Bohler N680
|
chromium, molybdenum, vanadium
|
Benchmade
|
$20
|
High wear resistance & ability to preserve an edge | |||||
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Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
|
Cost
|
Properties:
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|||
BG-42 |
high carbon: Carbon, Molybdenum, Silicon, Chromium, Manganese, Vanadium
|
61-62
|
Buck, Case, Spyderco, Warren
|
USA,
Latrobe |
High performance, Improved strength & increased edge retention over 154CM Bearing-grade. for aircraft gears, ball screws, bearings. |
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CPM-S110V
|
Spyderco
|
USA,
Crucible |
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|
CPM-S35VN
|
Spyderco
|
USA,
Crucible |
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CPM-S30V |
high-Chromium: Carbon, Molybdenum, Chromium, Vanadium
|
58-60
|
Benchmade, Blade-Tech , Buck, Chris Reeve, Kershaw, Leatherman, Spyderco, SOG, Strider, Warren
|
USA,
Crucible Metals |
$45
|
Uniform structure & clean steel properties. excellent corrosion resistance and superb edge qualities. Must be laser cut Created especially for knives in 2001. |
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CPM-S60V(440V)
|
57-58
|
Spyderco
|
USA,
Crucible |
$50
|
Exceptional wear resistance. Difficult to machine and grind | ||||
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CPM-S90V(420V)
|
56-58
|
Spyderco
|
USA,
Crucible |
Difficult to work with & sharpen | |||||
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Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
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Cost
|
Properties:
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|||
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Cronidor 30
|
58-60
|
Spyderco
|
Germany
|
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CTS-204P
|
Spyderco
|
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CTS-20CP
|
Spyderco
|
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CTS-40CP
|
59-60
|
Spyderco
|
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CTS-B75
|
Spyderco
|
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CTS-BD-1
|
Spyderco
|
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CTS-XHP
|
Spyderco
|
||||||||
|
Elmax PM 170
|
Carbon, Molybdenum, Silicon, Chromium, Manganese, Vanadium
|
Kershaw, Spyderco
|
$46
|
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|
GIN-1
|
56-58
|
Spyderco
|
Japan,
Hitachi |
Very good mid-range stainless steel. Used on Japanese made kitchen knives |
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H-1
|
Carbon, Molybdenum, Nitrogen, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur
|
58-59
|
Spyderco
|
Japan, |
Impervious to rust. Nitrogen used to harden the steel (not carbon) Introduced to the market in 2003 by Benchmade |
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Steel Type
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Composition:
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Hardness:
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Used by:
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Origin:
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Cost
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Properties:
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|||
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MBS-26
|
Spyderco
|
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|
MRS-30
|
Spyderco
|
||||||||
N690 |
Carbon, Cobalt, Molybdenum, Silicon, Chromium, Manganese, Vanadium
|
58-60
|
Benchmade, Blade-Tech, Extrema Ratio, Leatherman, Spyderco, Tops
|
Austria, Bohler
|
Keen edge qualities with great corrosion resistance, high resistance to wear, keeps a sharp edge | ||||
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VG-1
|
61
|
Cold Steel
|
Japan, Takefu Steel
|
Sharpness, edge retention, point strength, shock, and ultimate blade strength Does not hold an edge as long as VG-10. |
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|
VG-10
|
Carbon, Cobalt, Molybdenum, Silicon, Chromium, Manganese, Phosphorus, Vanadium
|
Rc 60
|
Spyderco, SOG
|
Japan,
Takefu Steel |
Premium, high-end steel. Can be sharpened to a very durable fine edge. Designed for high-quality blades. |
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Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
|
Cost
|
Properties:
|
|||
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W-1
|
Spyderco
|
Spring Steel. Toughness is outstanding. used for grader blade edges, truck springs and files | |||||||
|
W-2
|
Spyderco
|
Tool Steel. Toughness is outstanding. used for grader blade edges, truck springs and files. used for swords & knives | |||||||
|
X15 TN
|
Carbon, Molybdenum, Nitrogen, Silicon, Chromium, Manganese, Nickel, Phosphorus, Sulphur, Vanadium
|
58
|
Benchmade, Spyderco
|
French
|
Use in harsh environments (salt water) | ||||
|
|||||||||
|
x 50 CrMo ??
|
high carbon, stainless
|
55-56 HRC
|
Victorinox
|
Optimum edge retention | |||||
|
YK-30
|
57-59
|
CRK&T
|
|||||||
|
ZDP-189
|
67
|
Spyderco
|
Japan,
Hitach |
Sharpening is not easy. can be hardened to RC 65-67 without chipping | |||||
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Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
|
Cost
|
Properties:
|
|||
** Cost estimates as of 8-2010based on 2″ wide x 1/8″ thick per foot (12″) from AdmiralSteel.com & AlphaKnifeSupply.com
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Exotic Blade Materials
|
||||||
|
Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
|
Cost
|
Properties:
|
|
6061
Aircraft Alloy |
aluminum alloy
|
Gerber
|
Heavy-duty, good corrosion resistance. Easily cold worked, heat treatable | |||
|
san mai
|
3 layered steel. very hard core steel encased in softer, resilient outer layers
|
SOG
|
Extremely hard edge but flexible as well | |||
Ceramics |
Hold an edge well, but brittle, cannot be sharpened | |||||
|
Damascus
|
forged, layered steel of a variety of steels
|
remarkable toughness and edge quality
|
Benchmade, Case, Chris Reeve
|
Unique visual effect, high cost, artistic | ||
|
Damasteel
|
60
|
Sweden, Damasteel AB
|
Damascus Stainless Steel. two steels used; RWL34 & PMC27. Comparable to 154CM | |||
|
Titanium
|
mid 40’s
|
Almost completely rustproof and corrosion resistant. Will hold an edge for a very long time | ||||
|
60 NiTiNOL PM
|
60% Nickel,Titanium
|
Strider
|
USA,
Crucible |
Extremely corrosion resistant, lightweight, non-magnetic & high strength. Superelastic, it will return to its original shape immediately after bending or deforming. Discovered in 1962. |
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|
Steel Type
|
Composition:
|
Hardness:
|
Used by:
|
Origin:
|
Cost
|
Properties:
|
Knife Manufacturer / Blade Steel Material Resources:
More Blade Steel Material Resources:
| Sharpening Made Easy, Blades ‘N’ Stuff | http://sharpeningmadeeasy.com/steels.htm |
| *AJH* Custom Knives & Services | http://ajh-knives.com/metals.html |
| CustomTacticals.com | http://faq.customtacticals.com/steels/ |