Skip to main content

CPM® Cruwear PM Knife Steel

(No reviews yet) Write a Review
$69.01 - $4,119.46
SKU:
CPM CRUWEAR
Weight:
1.37 LBS
Adding to cart… The item has been added

CPM® Cruwear PM Knife Steel

Industries: Cutlery & Knives

  • CPM® alloy for hand cutlery
  • Our CPM® cutlery alloys have various combinations of toughness, wear, and corrosion resistance
  • Manufactured in the USA

For a data sheet on CPM® Cruwear PM Knife Steel, please click here

Tolerance and Finish
Material is sandblasted to a gray matte finish.
The thickness and width are supplied oversize to finish at the requested dimension.

Cutting Methods
All orders will be sheared to size unless the width is too narrow.
$100 minimum per order please.

All dimensions are in inches.
The length can range from 35-1/2 to 38 inches.
The width for 24" sheets can range from 23 to 25 inches.

CPM® Cruwear PM Knife Steel offers dependable toughness, wear resistance, and corrosion performance for cutlery applications.

Hot rolled & processed by the employee owners of Niagara Specialty Metals in Akron NY

  • Take a virtual tour of Niagara Specialty Metals. Click here to watch the full plant tour on YouTube.
  • Learn more about our Specialty Metals for Cutlery and Knives. Click here to explore the full range of knife steels we supply.

Cut Method by Thickness / Width

Surface FInish Descaled
Width 1", 1.5", 2", 3", 6", 24"
Thickness: .103/.113 thick will finish at .093" thick
Thickness: .140/.156 thick will finish at .125” thick
Thickness: .172/.188 thick will finish at .156” thick
Thickness: .207/.227 thick will finish at .187” thick
Thickness: .275/.300 thick will finish at .250” thick

CPM® Cruwear PM Knife Steel Data Sheet


Typical Composition

C Cr W Mo V
1.15 7.50 1.00 1.60 2.40

CPM® Cruwear is an air–hardening powder metallurgy tool steel, heat treatable to HRC 60–65. The original conventionally melted CPM® Cruwear was designed as an upgrade to A–2 and D–2, for better wear resistance, greater toughness and higher attainable hardness. CPM® Cruwear was introduced as a way to make the conventionally melted version easier to machine and more resistant to chipping. Compared to the chemistry of D–2, (D–2 = 1.55% carbon, 11.5% chromium, 0.8% vanadium, and 0.9% molybdenum), CPM® Cruwear has less carbon and less chromium, but more vanadium and tungsten. The overall carbide content of CPM® Cruwear is less than D–2 which helps make it tougher than D–2. CPM® Cruwear’s higher attainable hardness results from the fact that it contains sufficient tungsten and molybdenum to cause a secondary hardening response. Finally, CPM® Cruwear tempers at a higher range (900–1050°F) than D-2 (400–600°F), so it is more compatible with a wide variety of surface treatments. 


Mechanical Properties

Wear Resistance: CPM® Cruwear will offer better wear resistance than that of the AISI D–2, approaching AISI M–2.

Impact Toughness: CPM® Cruwear has greater toughness than the AISI D–2 approaching the AISI A–2.

 

NOTE: Lowering the hardening temp. reduces the grain size and increases toughness.


Heat Treatment
Austenitizing Temperature
HRC Impact Toughness Wear Resistance
Adhesive
Ft-lb (J)
CPM® CruWear
1950°F (1065°C)
62 35 (46) 6–7
S-7
1750°F (955°C)
57 125 (165) 1
A-2
1750°F (955°C)
60 40 (53) 2–3
D-2
1850°F (1010°C)
60 21 (28) 3–4
M-2
2050°F (1025°C)
62 20 (27) 8–10

Thermal Treatments

Annealing: Heat to 1550–1650°F (840–900°C), hold 2 hours, slow cool 50°F (25°C) per hour to 1200°F (650°C). 

Annealed Hardness: About BHN 225/255. 

 

Stress Relieving

Annealed Parts: Heat to 1100–1300°F (595–705°C), hold 2 hours, then furnace cool or cool in still air. 

Hardened Parts: Heat to 25°F (15°C) below the original tempering temperature, hold 2 hours, then furnace cool or cool in still air. 

 

Hardening

It is customary to use two furnaces: one furnace to preheat and the second furnace to austenitize. This ensures that the transition from the pre–heat temperature to the austenitizing temperature occurs fairly rapidly. 

Preheat: Heat to 1550–1600°F (840–870°C), Equalize. 

Austenitize: 1850–2050°F (1010–1120°C), Hold time at temperature 20–45 minutes. 

Quench: Air or positive pressure quench (2 bars minimum) to below 125°F (50°C). Salt bath treatment, if practical will ensure the maximum attainable toughness for a given 

hardening treatment. 

Temper: 900–1050°F (480–565°C). Double tempering is mandatory, and triple tempering is recommended. Cool to room temperature in between tempers. Temper 2 hours 

minimum each time or at least 1 hour per inch (25mm) of thickness for sections over 2” (50mm) thick. 

Size Change: Approx. +0.15%. 

 

Recommended Heat Treatment: For the best combination of toughness and wear resistance, austenitize at 1950°F (1065°C). Temper 3 times at 1000°F (540°C). 

 

Aim hardness: HRC 62. Higher austenitizing temperatures can be used to obtain higher hardness, at a slight decrease in impact resistance. The lower austenitizing temperatures 

provide the best impact toughness. 

 

Note: Properties shown throughout this data sheet are typical values. Normal variations in chemistry, size and heat treat conditions may cause deviations from these values. 


Heat Treat Response (HRC Hardness)
Austenitizing Temperature
Tempering Temp. 1850°F (1010°C) 1950°F (1065°C) 2050°F (1120°C)
As Quenched 63–65 63–65 62–64
900°F (480°C) 61–63 62–64 61–63
950°F (510°C) 61–63 62–64 64–66
1000°F (540°C) 57–59 60–62 63–65
1025°F (550°C) 56–58 58–60 61–63
1050°F (620°C) 54–56 58–60 61–63
Minimum Time at Austenitizing Temperature 45 minutes 30 minutes 20 minutes

Surface Treatments

Because of its high tempering temperatures (900–1050°F) CPM® Cruwear is suitable for nitriding, PVD coating or similar surface treatments. It will retain its hardness after such processes, making it a more suitable substrate than D–2. 

 

NOTE: CVD coating processes are generally performed at temperatures which exceed the critical temperature and may result in unpredictable dimensional distortion. 

 

Machinability

Machinability of CPM® Cruwear in the annealed condition is similar to D–2 but grindability will be slightly better. Similar grinding equipment and practices are acceptable. “SG” type alumina wheels or CBN wheels have generally given the best performance.


This data sheet is for informational purposes only. Alloy characteristics are subject to change due to chemical composition and/or processing. We do not certify the material’s suitability for specific applications.


Downloads Tab Region
Accessories Tab Region
Videos Tab Region