M35
 
 
M35 Grade Introduction:
Molybdenum high-speed steels are designated as Group M steels according to the AISI classification system. Over 95% of high-speed steels manufactured in the US are group M steels. Tungsten is present in all types from M1 to M10, except M6, and cobalt is not present in any of these steels. Molybdenum high-speed steels have similar performance when compared to tungsten high-speed steels. However, the initial cost of molybdenum tool steels is lower. Titanium nitride, titanium carbide, and several other coatings can be used in tools made of this kind of steel through a physical vapor deposition process to improve the performance and life span of the tool.
 
M35 Grade Application:
M35 high-speed steel is the main feature containing Co general cutting tool steel, quenching hardness is 1200-1240 c. Furthermore, M2 was used in the cutter, broach, end milling cutter. For manufacturing strong cutting with wear-resistant, resistant to impact a variety of tools, advanced punching die, screw die, the toughness and complex shape tools, reamer, milling cutter, bunt, punch, etc
 
M35 Equivalent grades:
Country
USA
German
Japan
Standard
ASTM A600
DIN EN ISO 4957
JIS G4403
Grades
M35
1.3243/HS6-5-2-5
SKh65
 
Addition to other grades:
MS, EN1A, EN3B, EN8, EN8D, EN9, EN19, EN24, EN31, EN32B, EN36C, EN41B, EN43B, EN47, EN353, IS2062, 42Crmo4, HCHCR, OHNS, D2, D3, H-11, H-13, CW-1, M2, M42, 2714, SKD-11, P20, P20+S, P20+Ni, SCM 420, ASTM SA-36, ASTM SA-105, SAE 1018, SAE 1020, SAE 4140, SAE 8620, 16MNCR5, 20MNCR5, C20, C35, C40, C45, C50, C60, CK45, 20C8, 40C8, 45C8, 55C8, C55MN75, SAE 52100, S40C, S355J2G3.
 
Our Supply Range:
 
Price List:
M35
 
M35 Chemical composition:
The following table shows the chemical composition of M35 steel:
Element
C
Cr
Co
Fe
Mo
Si
W
V
Content (%)
0.93
4.2
4.9
76.52
5
0.3
6.25
1.9
 
M35 Mechanical Properties:
Yield
 
Rpo2(MPa)
 
Tensile
 
Rm(MPa)
 
Impact
 
KV/Ku(J)
 
Elongation
 
A(%)
 
Reduction in cross-section on fracture Z(%)
 
As-Heat-Treated Condition
 
Brinell hardness
 
(HBW)
 
419
 
481
 
12
 
34
 
24
 
Solution and Aging, Annealing, Ausaging, Q+T, etc
 
421
 
 
M35 Hardness:
Mechanical properties
Metric
Imperial
Hardness, Rockwell C (oil quenched from 1232°C, 5 mins)
64.8
64.8
Hardness, Rockwell C (oil quenched from 1177°C, 5 mins)
65.2
65.2
Hardness, Rockwell C (oil quenched from 1204°C, 5 mins)
65.2
65.2
Modulus of elasticity
207 GPa
30000 ksi
Machinability (1% carbon steel)
45.0 – 50.0%
45.0 – 50.0%
 
M35 Heat treatment: 
Heat treatment temperatures, including the rate of heating, cooling, and soaking times will vary due to factors such as the shape and size of each M35 steel component. Other considerations during the heat treatment process include the type of furnace, quenching medium, and workpiece transfer facilities. Please consult your heat treatment provider for full guidance on heat treatment of high-speed steels.
 
M35 Hardening:
For best results harden in a vacuum or controlled furnace, or in a properly rectified salt bath. Pre heat thoroughly in two steps to 450-500°C, then to 820-870°C, transfer to the high-temperature salt bath or furnace. The exact hardening temperature to use for M35 will depend on the type of work being treated, but in general, components should be hardened from the range of 1050-1250°C.
 
M35 Tempering:
M35 high-speed steel components can be tempered between 510-620°C. Triple tempering is recommended with a minimum of two hours at temperature per cycle. The component should be cooled in still air to room temperature between tempering treatments.
Temperature [°C]
540
560
580
Hardness [HRc]
67
66
65
 
M35 Physical Properties:
The physical properties of M35 molybdenum high-speed tool steels are given in the following table.
Physical properties
Metric
Imperial
Density
8.14 g/cm3
0.294 lb/in3
 
M35 Thermal Properties:
The following table shows the thermal properties of M35 molybdenum high-speed tool steels.
Thermal properties
Metric
Imperial
CTE, linear (@21 – 399°C / 69.8 – 750°F)
11.4 μm/m°C
6.33 μin/in°F
CTE, linear (@21 – 593°C /69.8 – 1100°F)
11.5 μm/m°C
6.39 μin/in°F
 
M35 Forging Properties:
Preheat the M35 high-speed steel slowly and uniformly to 450-500°C and equalize. Then increase more quickly to the forging temperature of 950-1100°C and equalize prior to forging. Do not allow the forging temperature to drop below 950°C, if this occurs reheating will be necessary. Always cool the steel very slowly after forging.
 
M35 Stress Relieving:
If tools produced from M35 high-speed steel are heavily machined or ground it is recommended to stress relief after machining and prior to hardening to minimize the possibility of distortion. To stress relieve heat the component to 600-700°C and soak well (approx 2 hours) Cool slowly in the furnace. The tools can be finish machined before heat treatment.
 
M35 Normalizing:
M35 is supplied in the annealed and machineable condition. Re annealing will only be necessary if the steel has been hot worked, forged, or hardened by the toolmaker. Heat the M35 high-speed steel to 850°C at a rate of no more than 220°C per hour.
 
M35 Annealing:
M35 is supplied in the annealed and machinable condition.  Re annealing will only be necessary if the steel has been hot worked, forged, or hardened by the toolmaker. Heat the M35 high-speed steel to 850°C at a rate of no more than 220°C per hour. Always hold at temperature for one hour per 25mm of a thickness (with two hours being minimum). The furnace cools slowly. The M35 annealed hardness achieved should be 260 Brinell or lower.
 
M35 Density:
Physical properties
Metric
Imperial
Density
8.14 g/cm3
0.294 lb/in3
 
M35 Machinability:
High-Speed tool steel M35 can be worked in the same way as other high-speed steels by plastic forming, machining, grinding, electrical discharge machining, welding, and polishing. M35 tool steel is amenable to cold forming. In grinding, local heating of the surface, which might alter the temper, must be avoided. Grinding wheel makers can furnish advice on the choice of grinding wheels. Machining is carried out using carbide or high-speed steel tools.
 
M35 Welding:
Welding (special procedure including preheating and filler materials of base material composition).
 
Supply Cities:
Ahmedabad, Amaravathi, Ambattur, Bangalore, Belgaum, Chennai, Chittoor, Coimbatore, Dindigul, Mysore, Nellore, Hyderabad, Kochi, Mangalore, Tirupur, Tuticorin, Madurai, Andhra Pradesh, Karnataka, Puducherry, Kerala, Tamil Nadu, Telangana, Salem, Thanjavur, Trichy, Erode, Vellore, Ranipet, Sivakasi, Karur, Hosur, Nagercoil, Kanchipuram, Karaikudi, Neyveli, Cuddalore, Kumbakonam, Thiruvannamalai, Pollachi, Rajapalayam, Gudiyatham, Pudukottai, Vaniyambadi, Ambur, Nagapattinam, Trivandrum, Vijayawada, Guntur, Thirupathi, Nazarathpet, Kakinada, Kurnool, Kadapa, Nizamabad, Mahabubnagar, Karimnagar.
 
People also search as:
M35 Steel Round Bar, M35 Steel Round Bar Manufacturers, M35 Steel Suppliers, M35 Stockist, M35 Steel Dealers, M35 Steel Distributors, M35 Wholesalers, M35 Steel Traders, M35 Steel Square Distributors, M35 Steel Flat Bar, M35 Steel Companies Near me.

 

M35, M35 Steel, M35 Chemical composition, M35 Mechanical properties, M35 Equivalent Grades, M35 Steel plate, M35 Steel sheet, M35 Manufacturers, M35 Suppliers, M35 Dealers, M35 Stockist, M35 Distributors, M35 Wholesalers, M35 Traders.

 

 

 
Metal Weight Calculator:
Shape:
Quantity:
Diameter:
Length:
Results
Calulated Weight: 0 Kgs / 0 Lbs