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Showing posts with label AISI Carbon Steel. Show all posts
Showing posts with label AISI Carbon Steel. Show all posts

LIST OF AISI CARBON STEEL TYPE 15xx

 List of AISI Carbon Steel type 15xx

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Listing of AISI 11xx Carbon Steels


List of AISI Carbon Steel type 11xx
Name Class Alloy Type
AISI 1110  Carbon steel  Standard resulfurized 
AISI 1117  Carbon steel  Standard resulfurized 
AISI 1118  Carbon steel  Standard resulfurized 
AISI 1137  Carbon steel  Standard resulfurized 
AISI 1139  Carbon steel  Standard resulfurized 
AISI 1140  Carbon steel  Standard resulfurized 
AISI 1141  Carbon steel  Standard resulfurized 
AISI 1144  Carbon steel  Standard resulfurized 
AISI 1145  Carbon steel  Standard resulfurized 
AISI 1146  Carbon steel  Standard resulfurized 
AISI 1151  Carbon steel  Standard resulfurized 
Source:efunda

AISI 1005: Properties of Carbon Steel AISI 1005, Composition, Mechanical Properties


AISI 1005 is a Standard grade Carbon Steel. It is composed of (in weight percentage) 0.06%(max) Carbon (C), 0.35%(max) Manganese (Mn), 0.04%(max) Phosphorus (P), 0.05%(max) Sulfur (S), and the base metal Iron (Fe). Other designations of AISI 1005 carbon steel include UNS G10050 and AISI 1005.

Steel is the common name for a large family of iron alloys. Steels can either be cast directly to shape, or into ingots which are reheated and hot worked into a wrought shape by forging, extrusion, rolling, or other processes. Wrought steels are the most common engineering material used, and come in a variety of forms with different finishes and properties. Carbon steels alloying elements do not exceed these limits: 1% carbon, 0.6% copper, 1.65% manganese, 0.4% phosphorus, 0.6% silicon, and 0.05% sulfur.
The typical elastic modulus of carbon steels at room temperature (25°C) ranges from 190 to 210 GPa. The typical density of carbon steels is about 7.85 g/cm3. The typical tensile strength varies between 276 and 1882 MPa. The wide range of ultimate tensile strength is largely due to different heat treatment conditions.


Further Information on AISI 1005 Carbon Steel:


AISI 1005
Category Steel
Class Carbon steel
Type Standard
Designations  United States: ASTM A29 , ASTM A510 , MIL SPEC MIL-S-11310 (CS1005) , SAE J403 , SAE J412 , UNS G10050
Composition

ElementWeight %
C  0.06 (max) 
Mn  0.35 (max) 
P  0.04 (max) 
S  0.05 (max) 

Mechanical Properties

Properties Conditions 
T (°C)Treatment
Density (×1000 kg/m3) 7.872 25
Poisson's Ratio 0.27-0.30 25
Elastic Modulus (GPa) 190-210 25
Thermal Properties

Properties Conditions 
T (°C)Treatment
Thermal Expansion (10-6/ºC) 12.6  0-100 more
Specific Heat (J/kg-K) 481  50-100 more




Source: www.efunda.com

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AISI 1045

AISI 1045

Category Steel
Class Carbon steel
Type Standard
Designations France: AFNOR XC 42 TS , AFNOR XC 45 , AFNOR XC 48 , AFNOR XC42
Germany: DIN 1.1191
Japan: JIS S 45C , JIS S 48 C
Sweden: SS 1672
United States: ASTM A29 , ASTM A510 , ASTM A519 , ASTM A576 , ASTM A682 , FED QQ-S-635 (C1045) , FED QQ-S-700 (1045) , SAE J403 , SAE J412 , SAE J414 , UNS G10450
Composition

ElementWeight %
C 0.43-0.50
Mn 0.60-0.90
P 0.04 (max)
S 0.05 (max)



Mechanical Properties

PropertiesConditions
T (°C)Treatment
Density (×1000 kg/m3) 7.7-8.03 25
Poisson's Ratio 0.27-0.30 25
Elastic Modulus (GPa) 190-210 25
Tensile Strength (Mpa) 585 25 cold drawn, annealed (round bar (16-22 mm)) more
Yield Strength (Mpa) 505
Elongation (%) 12
Reduction in Area (%) 45
Hardness (HB) 170 25 cold drawn, annealed (round bar (19-32 mm)) more
Thermal Properties

PropertiesConditions
T (°C)Treatment
Thermal Expansion (10-6/ºC) 15.1 0-700 more annealed

Source: efunda

General Characteristics of AISI 1045

AISI 1045 is a low-cost alloy suitable for most engineering and construction applications. A medium-carbon steel with adequate strength and toughness characteristics, AISI 1045 is valuable for induction- or flame-hardened components.

Chemical Composition of AISI 1045

  • Carbon 0.43
  • Manganese 0.60-0.90
  • Phosphorus 0.040 max
  • Sulfur 0.050 max
  • Silicon 0.15 to 0.30, or:
  • 0.10 max
  • 0.10-0.20
  • 0.20-0.40
  • 0.30-0.60
  • Iron balance

Heat Treatment of AISI 1045

  • 1300°F (704°C) safe tempering maximum
  • Normalize by heating to 1575° to 1650°F (857° to 899°C)
  • Full anneal at 1500° to 1625°F (816° to 885°C)
  • Process anneal after cold working at 1100° to 1225°F (593° to 663°C)
  • Harden
    • Heat to 1500° to 1600°F (816° to 871°C)
    • Water or oil quench
    • Temper to appropriate hardness

Applications of AISI 1045

  • Cold extrusion
  • Cold drawing
  • Shafts
  • Pins
  • Axles
  • Rods
  • Studs
  • Machine parts
  • Bolts
  • Gears
  • Pinions
  • Forgings
  • Bulldozer edges

    Machinability of AISI 1045

  • Annealed, normalized, and quenched and tempered state allows easy machining
  • Up to 70% of B1112 machinability rating for cold-drawn and annealed stock
  • Cobalt high-speed steel or carbide-tip tools
  • Sulfurized or chlorinated cutting oils for high-speed steel cutters
  • No oil for carbide-tip tools
  • Grind high-speed steel turning tools
    • 8-12° side rake
    • 6-10° back rake
    • 7-9° side and end relief
    • 12-16° side cutting-edge angle
    • 8-14° end cutting-edge angle
    • Nose radius 10% of cut depth
  • Grind carbide-tip tools
    • 6-12° side rake
    • 2-8° back rake
    • 6-10° side and end relief
    • 8-12° end cutting-edge angle
    • 8-16° side cutting-edge angel
    • 1/32” nose radius

Workability of AISI 1045

  • Hot work from 2250° to 1800°F (1232° to 982°C)
  • Intermediate annealing required for considerable cold working
  • Fully anneal when further cold work will follow extensive cold work

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Carbon Steels ASTM A576 or AISI 1040

Carbon Steels ASTM A576 or AISI 1040
Carbon Steels 1040
Specifications:
ASTM A29 (1040)
ASTM A510 (1040)
ASTM A513
ASTM A519 (1040)
ASTM A546 (1040)
ASTM A576 (1040)
ASTM A682 (1040)
ASTM A827
ASTM A830
MIL S-11310 (CS 1040)
MIL S-16788
MIL S-46070
SAE J1397 (1040)
SAE J403 (1040)
SAE J412 (1040)
UNS G10400
Chemistry Data
Carbon
0.37 - 0.44
Iron
Balance
Manganese
0.6 - 0.9
Phosphorus
0.04 max
Sulphur
0.05 max
General Information
Principal Design Features
1040 steel has a higher (0.40%) carbon content for greater strength than the lower carbon alloys. It is hardenable by heat treatment, quench and tempering to develop 150 to 250 ksi tensile strength.
Applications
Used for crankshafts, couplings and cold headed parts.
Machinability
Machinability is good, rated at 60% that of the 1112 alloy used as a 100% machining rated steel.
Forming
Forming of 1040 steel in the annealed condition is readily accomplished.
Welding
1040 steel is weldable by all of the welding methods. However with its higher carbon content it is important to use both pre-heat at 300 to 500 F and post-heat at 1100 to 1200 F practice per an approved welding procedure.
Heat Treatment
This steel responds well to hardening by heat treatment at 1550 to 1650 F followed by water quench and then tempering to strength level desired.
Forging
Forge at 2300 F down to 1800 F.
Hot Working
Hot work from 900 to 200 F.
Cold Working
In the annealed state the 1040 alloy is readily cold worked by conventional methods.
Annealing
Anneal at 1600 to 1800 F and slow cool in the furnace for a full anneal. A stress relief anneal may be done at 1100 F and a normalizing treatment may be done at 1650 F with slow cooling.
Aging
Not applicable.
Tempering
Tempering from the quenched condition may be done at 600 to 1300 F depending upon the strength desired.
Hardening
Cold work will harden the alloy as will heat treatment and tempering.
Physical Data
Density (lb / cu. in.)
0.284
Specific Gravity
7.86
Specific Heat (Btu/lb/Deg F - [32-212 Deg F])
0.107
Melting Point (Deg F)
2770
Poissons Ratio
0.3
Thermal Conductivity
360
Mean Coeff Thermal Expansion
6.7
Modulus of Elasticity Tension
30
Modulus of Elasticity Torsion
11
Mechanical Data
Form
Round Bar
Condition
Cold Drawn
Temper
68
Tensile Strength
85
Yield Strength
71
Elongation
17
Reduction of Area
42
Rockwell
B93
Brinnell
170
Form
Round Bar
Condition
Hot Rolled
Temper
68
Tensile Strength
90
Yield Strength
56
Elongation
24
Reduction of Area
49
Rockwell
B91
Brinnell
187

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AISI Carbon Steel 10xx



AISI Steel List

Name Class Alloy Type
AISI 1005 Carbon steel Standard
AISI 1006 Carbon steel Standard
AISI 1008 Carbon steel Standard
AISI 1010 Carbon steel Standard
AISI 1011 Carbon steel Standard
AISI 1012 Carbon steel Standard
AISI 1013 Carbon steel Standard
AISI 1015 Carbon steel Standard
AISI 1016 Carbon steel Standard
AISI 1017 Carbon steel Standard
AISI 1018 Carbon steel Standard
AISI 1019 Carbon steel Standard
AISI 1020 Carbon steel Standard
AISI 1021 Carbon steel Standard
AISI 1022 Carbon steel Standard
AISI 1023 Carbon steel Standard
AISI 1025 Carbon steel Standard
AISI 1026 Carbon steel Standard
AISI 1029 Carbon steel Standard
AISI 1030 Carbon steel Standard
AISI 1035 Carbon steel Standard
AISI 1037 Carbon steel Standard
AISI 1038 Carbon steel Standard
AISI 1038H Carbon steel H-steel
AISI 1039 Carbon steel Standard
AISI 1040 Carbon steel Standard
AISI 1042 Carbon steel Standard
AISI 1043 Carbon steel Standard
AISI 1044 Carbon steel Standard
AISI 1045 Carbon steel Standard
AISI 1045H Carbon steel H-steel
AISI 1046 Carbon steel Standard
AISI 1049 Carbon steel Standard
AISI 1050 Carbon steel Standard
AISI 1052 Carbon steel Standard
AISI 1053 Carbon steel Standard
AISI 1055 Carbon steel Standard
AISI 1059 Carbon steel Standard
AISI 1060 Carbon steel Standard
AISI 1064 Carbon steel Standard
AISI 1065 Carbon steel Standard
AISI 1069 Carbon steel Standard
AISI 1070 Carbon steel Standard
AISI 1074 Carbon steel Standard
AISI 1075 Carbon steel Standard
AISI 1078 Carbon steel Standard
AISI 1080 Carbon steel Standard
AISI 1084 Carbon steel Standard
AISI 1085 Carbon steel Standard
AISI 1086 Carbon steel Standard
AISI 1090 Carbon steel Standard
AISI 1095 Carbon steel Standard

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