4145 SCM445 Alloy Steel Bar
- Model
- 4145 SCM445
Item specifics
- Delivery Condition
- normalised and tempered/softened
Review
Description
AISI 4145 4145H G41450 SCM445 Alloy Steel Round Bar
4145 Steel Introduce
AISI 4145 alloy steel containing 0.20% Molybdenum is widely used particularly throughout oil patch applications. Similar to 4140 which has a lower carbon level it has improved hardenability and is more is commonly used in the higher strength 110 KSI 0.2% PS condition.
4145 Steel Applications
This alloy is used in the oil and gas industry as forged down-hole drilling tools such as drill collars. Other applications are forged gears, shafts for hydraulic presses, rolls for paper mills, pump shafts and tool holders.
4145 Steel Chemical Composition
4145 | C | Si | Mn | P | S | Cr | Mo |
---|---|---|---|---|---|---|---|
Min | 0.43 | 0.15 | 0.75 | • | • | 0.80 | 0.15 |
Max | 0.48 | 0.35 | 1.00 | 0.035 | 0.040 | 1.10 | 0.25 |
4145 Steel Mechanical Properties
4145 | Yield strength Rp0.2, MPa | Tensile strength Rm, MPa | Elongation [%] | Hardness [HB] | Impact, Charpy-V, -20ºC [J] |
---|---|---|---|---|---|
Min. (110 ksi) | 758 | 965 | 14,5 | 285 | ≥ 27 |
Max. | - | 1068 | - | 341 | - |
Forging
Stock should be carefully preheated then the temperature raised to 2100-2200ºF (1150-1200ºC) for forging. Forging should not be carried out below 1600ºF (850ºC) and parts should be slow cooled after forging to prevent possible cracking.
Annealing
Parts should be heated slowly to 1470-1560ºF ( 800 – 850ºC), soaked and furnace cooled to 900ºF (480ºC) then air cooled.
Normalizing
A typical normalizing temperature for 4145 forgings is 1600ºF (870ºC), but based on production experience this temperature may vary from 100ºF (38ºC) above to 50ºF (10ºC) below this figure. If normalizing is carried out before a hardening and tempering treatment, then the upper temperature range is used; if normalizing is the final treatment then the lower range is used.
Hardening
The austenitizing temperature for this grade is in the range 1500-1550ºF (815-845ºC). Parts should be slowly heated to this temperature, soaked and oil quenched. Parts should be tempered as soon as they reach room temperature.
Tempering
Parts will be tempered between 1020-1300ºF (550-700ºC) for 2 hours per inch (25 mm), then air cooled. Reduced impact values will be obtained on tempering at 500ºF (260ºC) or at 750 to 1025ºF (340 to 550ºC).
The optimum combination of strength and toughness is obtained from a microstructure that is tempered martensite. If very high strength is required then tempering is carried out at a low temperature – in fact this is a stress relief – when lightly-tempered martensite will result.
Machinability
Best machinability in this alloy is obtained from a structure that runs from coarse lamellar pearlite to coarse spheroidite. Heat treatment providers should be consulted for the best treatment required to obtain these structures, always bearing in mind the complexity and section size of the parts to be machined.
Weldability
The grade may be welded by fusion or resistance methods, but preheating and post-weld stress relief are recommended. The grade should not be welded in the hardened and tempered condition.