Tubing Information (DOM, HREW, CREW, ERW)

Here is some valuable information dealing with types of Tubing, including structures, specifications, applications, size ranges, and chemical analysis.

*Credit goes to 'Old Scout', thanks for the info.*

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DOM, ERW, HREW...all types of "mechanical tubing", as opposed to pipe. All mechanical tubing is dimensioned by OD and a wall thickness.

DOM is actually not a type of tubing, but a process that is applied to tubing after it is initially constructed. It is Drawn Over a Mandrel...which "cold works" it, giving more exact dimensions, smoother finish, and better alignment of the crystal latice structure. It is Not seamless tubing, and it started life as some sort of EW (electric welded) tubing. Most commonly, when people say "DOM" they mean 1020 mild carbon steel rolled electric welded tubing that is then drawn over a mandrel.

Other mechanical tubing that is not necessarily drawn over a mandrel can be either hot or cold rolled (i.e. rolled from a flat strip into a tube when either hot or cold) and most commonly available will then be electric resistance welded to form the final tube.

Generally...cold forming and cold working add strength and uniformity to a product, and reduce stress.

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So VERY BASICALLY, in terms of strength you usually have, in order:

DOM
CREW (cold rolled electric welded)
HREW (Hot....)

Again...these are all just processes, to fully call out the material, you need to specify the type of steel...but most commonly we are talking about either 1020 mild carbon steel, or 4130 or 4140 Chromium molybdenum alloy steel or 4340 nickel chromium molybdenum alloy steel.

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ROPS (ROLL-OVER PROTECTIVE STRUCTURE) TUBE
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Structural tubing that offers high strength-to-weight ratio and a higher impact toughness. The steel is fully killed and melted to fine grain practice. Customers may specify yield, tensile, elongation and charpy impact values according to their needs. This product is to minimize the probability of catastrophic failure of vehicle cab structures in the event of a roll-over accident.
American Specifications: ASTM A500 for dimensional tolerance, squareness, straightness, twist and corner radii. Mechanical properties can vary by end user.

Applications: Cabs for agricultural vehicles, road and off-road construction equipment, and lift trucks.

Size Range: 2" - 12" (50 mm - 305 mm) sq and the standard rectangle sections of the same perimeters. Rounds available as special inquiries.


Typical Chemical Analysis: Alloying elements may be added to achieve mechanical property requirements.
C .22 max
P .04 max
Mn 1.65 max
S .05 max
Typical Mechanical Properties: Can vary to customer specification
Tensile strength (ksi) 70 min
Yield point (ksi) 50 min
Elongation (% in 2") 20 min
Charpy impact Wall Ft/lb (min) Temp (°F)
3/16" 11.0 -20
1/4" 13.0 -20
3/8" 18.0 -20




Machinability: Good

Weldability: Excellent

Testing: Generally one tensile test and one set of three impact tests are taken from each lot of tubing. Tubing is tested in accordance with the latest revision of ASTM A370. Certification of material is available.

Materials Resource Page Number: 41

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1020 DOM STEEL TUBE

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1020 is normally used in the manufacturing of small-diameter or thin-wall DOM steel tube. DOM is formed from strip and electric-resistance welded, then cold drawn to size. The cold drawing process causes the weld line to virtually disappear.
American Specifications: ASTM A513 Type 5

British Specifications: 040 A 20, 070 M 20

Applications: Mechanical, hydraulic cylinders, shaft, tight tolerance requirements

Size Range: 1/4" - 14&1/2" (6 mm - 368 mm) OD; .035" - .625" (.9 mm - 16 mm) wall

Typical Chemical Analysis: C .15-.25
Mn .30-.60
P .040 max
S .050 max

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Typical Mechanical Properties: Tensile strength (ksi) 80
Yield point (ksi) 70
Elongation (% in 2") 15
Rockwell hardness RB80



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1018 COLD DRAWN AND HOT FINISHED SEAMLESS TUBE
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1018 is normally used in the manufacturing of cold drawn and hot finished seamless tube. The production of seamless tube is generally made by piercing a hot rolled bar. Hot finished is generally furnished in the unannealed condition, whereas cold drawn seamless is supplied in the unannealed or S/R annealed conditions, depending on the size.
American Specifications: ASTM A519

British Specifications: 070 M 20, 080 A 15

Applications: Axles, shafts, gears, bearings

Size Range: 1/8" - 24" (3 mm - 610 mm) OD; .0218" - 3.00" (.6 mm - 76 mm) wall

Typical Chemical Analysis: C .15-.20
Mn .60-.90
P .040 max
S .050 max
Typical Mechanical Properties: CDS HFS
Tensile strength (ksi) 80 60
Yield point (ksi) 60 35
Elongation (% in 2") 15 30
Rockwell hardness RB88 RB60



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1010 ELECTRIC WELD STEEL TUBE


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1010 is normally used in the manufacturing of electric-resistance welded tube. The product is available normally in cold rolled strip (16 gauge and lighter), and hot rolled strip (.083" wall and heavier). The product can be obtained in the as-welded condition (flash-in) or in the flash-controlled condition.

American Specifications: ASTM A513 Type 1 and Type 2

British Specifications: 040 A 10, 045 A 10

Applications: Machinery stands, exhaust tubes, handles, hand rails, display stands, conveyor rollers

Size Range: 1/4" - 10" (6 mm - 254 mm) OD; .028" - .375" (.7 mm - 10 mm) wall

Typical Chemical Analysis: C .08-.13
Mn .30-.60
P .035 max
S .035 max
Typical Mechanical Properties: Tensile strength (ksi) 45
Yield point (ksi) 32
Elongation (% in 2") 15 min
Rockwell hardness RB55 min





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1026 STEEL TUBE


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1026 grade is normally used in the manufacturing of DOM, cold drawn seamless and hot finished seamless. This grade normally furnished over 2" OD, with walls heavier than .156". A variety of thermal treatments can be supplied, depending on the type and size of material.

American Specifications: ASTM A519 (SMLS), ASTM A513 Type 5 (DOM)

British Specifications: 070 M 26

Applications: Mechanical, hydraulic cylinders, shaft, tight tolerance requirements

Size Range: 1/8" - 24" (3 mm - 610 mm) OD; .028" - 3.00" (.7 mm - 76 mm) wall

Typical Chemical Analysis: C .22-.28
Mn .60-.90
P .040 max
S .050 max
Typical Mechanical Properties: CDS DOM HFS
Tensile strength (ksi) 87 80 70
Yield point (ksi) 72 70 47
Elongation (% in 2") 10 10 28
Rockwell hardness RB89 RB85 RB78

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- edit - giving credit where credit is due...
 
Last edited:

Herzog

somewhat damaged
Admin
Location
Wydaho
You're welcome.

I can't remember where I first found all of this info, but hopefully it will serve as a good reference here.
 

mbryson

.......a few dollars more
Supporting Member
Originally posted by Herzog
You're welcome.

I can't remember where I first found all of this info, but hopefully it will serve as a good reference here.


You must have just gotten back from Metallargist's-R-Us....nice work..
 

ALF

SURE!?
Location
Taylorsville
I know I'm waking up a dead horse but this is good info. Does anyone have info on EWS? S&W Racecars makes some of their cages out of it and was wondering about it's strength I know that DOM is the best but I'm wondering where it comes in.
 

UNSTUCK

But stuck more often.
For our purposes, Chromoly is at the top, maybe over the top. It is far stronger then DOM. This means that you can use a smaller size to gain the same strength as DOM, which means less weight overall. The seeming ongoing debate with chromo is how to weld it.......(picture me opening a can of worms now). Most racing sanctioning bodies demand chromo that has been TIG welded only. For the average joe, MIG seems to weld and hold just fine.
 
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