ASTM A240 Grade 304, 304L, 304H Stainless Steel Plates and Sheets

304 Stainless Steel Plate in Hot Rolled (HR) and Cold Rolled(CR) in ASTM A240 Specification in Different Sizes and Thickness in India

304 Stainless Steel Plates in No.1 Finish, No.2 Finish, No.2D Finish, No.2B Finish and BA Finish (Bright Annealed)

304 Stainless Steel Plate Supplier, Exporter and Stockholder in India. ASTM A240 / AISI 304 Stainless Steel Plate

304 Stainless Steel Plates

Steel Plate Industrial Plates manufacturer & supplierOne of the most versatile and commonly used stainless steels on the market, Grade 304 stainless steel is the most standard used alloy of this type. Essentially, Grade 304 is an austenitic chromium alloy which is also known as an “18/8” stainless as the make-up of the steel is 18% chromium and 8% nickel.

The chromium content promotes the material’s considerable resistance to the effects of corrosion and oxidation. The stainless steel alloy resists most oxidizing acids and will withstand ordinary rusting though this does not mean that the steel will not tarnish over time. The steel needs to be cold worked to generate higher tensile strength. For stainless steel sections which are welded heavily, post-weld annealing may be necessary to provide maximum corrosive resistance

roduct Range

Sr. No.

Size (in mm)

Thickness

Specification

Manufacturer

1

1000 x 2000 
1220 x 2440 
(4′ x 8′)
1250 x 2500 
1500 x 3000 To 6000 
2000 x 4000 To 6000

0.3 mm 
To 
120 mm

A-240

Jindal
Sail
Shah Alloys 
Imported Etc.

Note:-

Grade

304, 304L, 304H, 316, 316L, 304N, 316Ti, 309, 310S, 317L, 321, 347, 409, 410, 420, 430, 446, 202 Etc.

Sheet Finishing

2B, 2D, HR, CR, BA (No. 8), Satin (Met with PVC Coated)

Sheet & Plate in Form of

Coils, Foils, Shim Sheet, Perforated Sheet, Chequered Plate, Strip, Flats, Blank (Circle), Ring (Flange) Etc.

Value Added Service

Cladding
Heat Treatment
Annealed

Pickling, Polish
Rolling
Cutting

Bending
Forging
Minor Fabrication Etc.

Test Certificate

  • Manufacturer Test Certificate
  • Laboratory Test Certificate from Govt. Approved Lab. 
  • Under Third Party Inspection

Specialize

Shim Sheet, Perforated Sheet (Round, Square & Oblong Hole) & as per your Drawing

Alloys 304 (S30400), 304L (S30403), and 304H (S30409) stainless steels are variations of the 18 percent chromium 8 percent nickel austenitic alloy, the most familiar and most frequently used alloy in the stainless steel family. These alloys may be considered for a wide variety of applications where one or more of the following properties are important:

  • Resistance to corrosion
  • Prevention of product contamination
  • Resistance to oxidation
  • Ease of fabrication
  • Excellent formability
  • Beauty of appearance
  • Ease of cleaning
  • High strength with low weight
  • Good strength and toughness at cryogenic temperatures
  • Ready availability of a wide range of product forms

Each alloy represents an excellent combination of corrosion resistance and fabricability. This combination of properties is the reason for the extensive use of these alloys which represent nearly one half of the total U.S. stainless steel production. The 18-8 stainless steels, principally Alloys 304, 304L, and 304H, are available in a wide range of product forms including sheet, strip, and plate. The alloys are covered by a variety of specifications and codes relating to, or regulating, construction or use of equipment manufactured from these alloys for specific conditions. Food and beverage, sanitary, cryogenic, and pressure-containing applications are examples.
Alloy 304 is the standard alloy since AOD technology has made lower carbon levels more easily attainable and economical. Alloy 304L is used for welded products which might be exposed to conditions which could cause intergranular corrosion in service.
Alloy 304H is a modification of Alloy 304 in which the carbon content is controlled to a range of 0.04-0.10 to provide improved high temperature strength to parts exposed to temperatures above 800°F.

Chemical Composition

Chemistries per ASTM A240 and ASME SA-240:

Element

Percentage by Weight
Maximum Unless Range is Specified

 

304

304L

304H

Carbon

0.08

0.030

0.04-0.10

Manganese

2.00

2.00

2.00

Phosphorus

0.045

0.045

0.045

Sulfur

0.030

0.030

0.030

Silicon

0.75

0.75

0.75

Chromium

18.00
20.00

18.00
20.00

18.00
20.00

Nickel

8.0
10.50

8.0
12.00

8.0
10.5

Nitrogen

0.10

0.10

0.10

Data are typical and should not be construed as maximum or minimum values for specification or for final design. Data on any particular piece of material may vary from those shown herein.

Resistance to Corrosion
General Corrosion
The Alloys 304, 304L, and 304H austenitic stainless steels provide useful resistance to corrosion on a wide range of moderately oxidizing to moderately reducing environments. The alloys are used widely in equipment and utensils for processing and handling of food, beverages, and dairy products. Heat exchangers, piping, tanks, and other process equipment in contact with fresh water also utilize these alloys.
The 18 to 19 percent of chromium which these alloys contain provides resistance to oxidizing environments such as dilute nitric acid, as illustrated by data for Alloy 304 below.

% Nitric Acid

Temperature
°F (°C)

Corrosion Rate
Mils/Yr (mm/a)

10

300 (149)

5.0 (0.13)

20

300 (149)

10.1 (0.25)

30

300 (149)

17.0 (0.43)

Alloys 304, 304L, and 304H are also resistant to moderately aggressive organic acids such as acetic and reducing acids such as phosphoric. The 9 to 11 percent of nickel contained by these 18-8 alloys assists in providing resistance to moderately reducing environments. The more highly reducing environments such as boiling dilute hydrochloric and sulfuric acids are shown to be too aggressive for these materials. Boiling 50 percent caustic is likewise too aggressive.
In some cases, the low carbon Alloy 304L may show a lower corrosion rate than the higher carbon Alloy 304. The data for formic acid, sulfamic acid, and sodium hydroxide illustrate this. Otherwise, the Alloys 304, 304L, and 304H may be considered to perform equally in most corrosive environments. A notable exception is in environments sufficiently corrosive to cause intergranular corrosion of welds and heat-affected zones on susceptible alloys. The Alloy 304L is preferred for use in such media in the welded condition since the low carbon level enhances resistance to intergranular corrosion.

Intergranular Corrosion
Exposure of the 18-8 austenitic stainless steels to temperatures in the 800°F to 1500°F (427°C to 816°C) range may cause precipitation of chromium carbides in grain boundaries. Such steels are “sensitized” and subject to intergranular corrosion when exposed to aggressive environments. The carbon content of Alloy 304 may allow sensitization to occur from thermal conditions experienced by autogenous welds and heat-affected zones of welds. For this reason, the low carbon Alloy 304L is preferred for applications in which the material is put into service in the as-welded condition. Low carbon content extends the time necessary to precipitate a harmful level of chromium carbides but does not eliminate the precipitation reaction for material held for long times in the precipitation temperature range.

Intergranular Corrosion Tests

ASTM A262
Evaluation
Test

Corrosion Rate, Mils/Yr (mm/a)

304

304L

Practice E
  Base Metal
  Welded

No Fissures on Bend
Some Fissures on Weld 
(unacceptable)

No Fissures
No Fissures

Practice A
  Base Metal
  Welded

Step Structure
Ditched
(unacceptable)

Step Structure
Step Structure

Stress Corrosion Cracking
The Alloys 304, 304L, and 304H are the most susceptible of the austenitic stainless steels to stress corrosion cracking (SCC) in halides because of their relatively low nickel content. Conditions which cause SCC are: (1) presence of halide ions (generally chloride), (2) residual tensile stresses, and (3) temperatures in excess of about 120°F (49°C). Stresses may result from cold deformation of the alloy during forming or by roller expanding tubes into tube sheets or by welding operations which produce stresses from the thermal cycles used. Stress levels may be reduced by annealing or stress relieving heat treatments following cold deformation, thereby reducing sensitivity to halide SCC. The low carbon Alloy 304L material is the better choice for service in the stress-relieved condition in environments which might cause intergranular corrosion.

Halide (Chloride Stress Corrosion Tests)

Test

U-Bend (Highly Stressed) Samples

304

33% Lithium
Chloride, Boiling

Base 
Metal

Welded

Cracked, 14 to 96 hours

Cracked, 18 to 90 hours

26% Sodium
Chloride, Boiling

Base 
Metal

Welded

Cracked, 142 to 1004 hours

Cracked, 300 to 500 hours

40% Calcium
Chloride, Boiling

Base 
Metal

Cracked, 144 hours

Ambient Temperature Seacoast Exposure

Base 
Metal

Welded

No Cracking

No Cracking


Pitting/Crevice Corrosion
The 18-8 alloys have been used very successfully in fresh waters containing low levels of chloride ion. Generally, 100 ppm chloride is considered to be the limit for the 18-8 alloys, particularly if crevices are present. Higher levels of chloride might cause crevice corrosion and pitting. For the more severe conditions of higher chloride levels, lower pH, and/or higher temperatures, alloys with higher molybdenum content such as Alloy 316 should be considered. The 18-8 alloys are not recommended for exposure to marine environments.

Physical Properties
Density: 
0.285 lb/in3 (7.90 g/cm3)
Modulus of Elasticity in Tension
29 x 106 psi (200 GPa)

Linear Coefficient of Thermal Expansion:

Temperature Range

Coefficients

°F

°C

in/in/°F

cm/cm/°C

68 – 212

20 – 100

9.2 x 10-6

16.6 x 10-6

18 – 1600

20 – 870

11.0 x 10-6

19.8 x 10-6


Thermal Conductivity:

Temperature Range

Btu/hr/ft/°F

W/m/K

°F

°C

212

100

9.4

16.3

932

500

12.4

21.4

The overall heat transfer coefficient of metals is determined by factors in addition to the thermal conductivity of the metal. The ability of the 18-8 stainless grades to maintain clean surfaces often allows better heat transfer than other metals having higher thermal conductivity.

Specific Heat:

°F

°C

Btu/lb/°F

J/kg/K

32 – 212

0 – 100

0.12

500


Magnetic Permeability:
The 18-8 alloys are generally non-magnetic in the annealed condition with magnetic permeability values typically less than 1.02 at 200H. Permeability values will vary with composition and will increase with cold work.

Percent Cold Work

Magnetic Permeability

304

304L

0

1.005

1.015

10

1.009

1.064

30

1.163

3.235

50

2.291

8.480


Mechanical Properties

Room Temperature Mechanical Properties
Minimum mechanical properties for annealed Alloys 304 and 304L austenitic stainless steel plate as required by ASTM specifications A240 and ASME specification SA-240 are shown below.

Property

Minimum Mechanical Properties
Required by ASTM A240 & ASME SA-240

304

304L

304H

0.2% Offset
Yield
Strength,
   psi
   MPa

30,000
205

25,000
170

30,000
205

Ultimate
Tensile
Strength,
  psi
  MPa

75,000
515

70,000
485

75,000
515

Percent
Elongation in
2 in. or 51 mm

40.0

40.0

40.0

Hardness,
Max.,
  Brinell
  RB

201
92

201
92

201
92


Low and Elevated Temperature Properties
Typical short time tensile property data for low and elevated temperatures are shown below. At temperatures of 1000°F (538°C) or higher, creep and stress rupture become considerations. Typical creep and stress rupture data are also shown below.

Test
Temperature

0.2% Yield
Strength

Tensile
Strength

Elongation

°F

°C

psi

(MPa)

psi

(MPa)

Percent in
2″ or
51mm

-423

-253

100,000

690

250,000

1725

25

-320

-196

70,000

485

230,000

1585

35

-100

-79

50,000

354

150,000

1035

50

70

21

35,000

240

90,000

620

60

400

205

23,000

160

70,000

485

50

800

427

19,000

130

66,000

455

43

1200

650

15,500

105

48,000

330

34

1500

815

13,000

90

23,000

160

46


Impact Resistance

The annealed austenitic stainless steels maintain high impact resistance even at cryogenic temperatures, a property which, in combination with their low temperature strength and fabricability, has led to their use in handling liquified natural gas and other cryogenic environments. Typical Charpy V-notch impact data are shown below.

Temperature

Charpy V-Notch Energy Absorbed

°F

°C

Foot – pounds

Joules

75

23

150

200

-320

-196

85

115

-425

-254

85

115


Fatigue Strength
The fatigue strength or endurance limit is the maximum stress below which material is unlikely to fail in 10 million cycles in air environment. The fatigue strength for austenitic stainless steels, as a group, is typically about 35 percent of the tensile strength. Substantial variability in service results is experienced since additional variables influence fatigue strength. As examples increased smoothness of surface improves strength, increased corrosivity of service environment decreases strength.

Welding
The austenitic stainless steels are considered to be the most weldable of the high-alloy steels and can be welded by all fusion and resistance welding processes. The Alloys 304 and 304L are typical of the austenitic stainless steels.
Two important considerations in producing weld joints in the austenitic stainless steels are: 1) preservation of corrosion resistance, and 2) avoidance of cracking.
A temperature gradient is produced in the material being welded which ranges from above the melting temperature in the molten pool to ambient temperature at some distance from the weld. The higher the carbon level of the material being welded, the greater the likelihood that the welding thermal cycle will result in the chromium carbide precipitation which is detrimental to corrosion resistance. To provide material at the best level of corrosion resistance, low carbon material (Alloy 304L) should be used for material put in service in the welded condition. Alternately, full annealing dissolves the chromium carbide and restores a high level of corrosion resistance to the standard carbon content materials.
Weld metal with a fully austenitic structure is more susceptible to cracking during the welding operation. For this reason, Alloys 304 and 304L are designed to resolidify with a small amount of ferrite to minimize cracking susceptibility.
Alloy 309 (23% Cr 13.5% Ni) or nickel-base filler metals are used in joining the 18-8 austenitic alloys to carbon steel.

Heat Treatment

The austenitic stainless steels are heat treated to remove the effects of cold forming or to dissolve precipitated chromium carbides. The surest heat treatment to accomplish both requirements is the solution anneal which is conducted in the 1850°F to 2050°F range (1010°C to 1121°C). Cooling from the anneal temperature should be at sufficiently high rates through 1500-800°F (816°C – 427°C) to avoid reprecipitation of chromium carbides.
These materials cannot be hardened by heat treatment.

Cleaning

Despite their corrosion resistance, stainless steels need care in fabrication and use to maintain their surface appearance even under normal conditions of service.
In welding, inert gas processes are used. Scale or slag that forms from welding processes is removed with a stainless steel wire brush. Normal carbon steel wire brushes will leave carbon steel particles in the surface which will eventually produce surface rusting. For more severe applications, welded areas should be treated with a descaling solution such as a mixture of nitric and hydrofluoric acids, and these should be subsequently washed off.

For material exposed inland, light industrial, or milder service, minimum maintenance is required. Only sheltered areas need occasional washing with a stream of pressurized water. In heavy industrial areas, frequent washing is advisable to remove dirt deposits which might eventually cause corrosion and impair the surface appearance of the stainless steel.
Stubborn spots and deposits like burned-on food can be removed by scrubbing with a non-abrasive cleaner and fiber brush, a sponge, or pad of stainless steel wool. The stainless steel wool will leave a permanent mark on smooth stainless steel surfaces.

Many of these uses of stainless steel involve cleaning or sterilizing on a regular basis. Equipment is cleaned with specially designed caustic soda, organic solvent, or acid solutions such as phosphoric or sulfamic acid (strongly reducing acids such as hydrofluoric or hydrochloric may be harmful to these stainless steels).
Cleaning solutions need to be drained and stainless steel surfaces rinsed thoroughly with fresh water.

Design can aid cleanability. Equipment with rounded corners, fillets, and absence of crevices facilitates cleaning as do smooth ground welds and polished surfaces.

304 Stainless Steel Plate Packing

304 Stainless Steel Plate is sleeved into plastic bag individually, pieces wrapped with water-proof material, bundled with nylon rope. Clear labels are tagged on the outside of the package for easy identification of the quantity and product I.D. Great care is taken during operation and transportation.

SS 304 Stainless Steel Plate packing will be according to international standard in bundles strapped by strips then into containers to avoid any damage.

Delivery: Within 10-25days or asap if we have enough stock

Types of Packaging:

  • – Bundles (hexagonal)
  • – Wooden Boxes
  • – Crates (steel/wooden)
  • – Special crates for U-Bend tubes with each radius separated
  • – Packaging for SS 304 Stainless Steel Plate ASTM A240 as per customer’s requirements

Special Features:

    • – Each bundle covered with plastic for protection against extreme weather.
    • – End of 304 Stainless Steel Plate protected by plastic Strip.
    • – Bundles strapped with plastic strips.
    • – Each radius of U-Bend tube separated by a separator.
    • – Packaging list (laminated) placed with box/crate.

    304 Stainless Steel Plates, Sheet, Slabs Sizes Available in Stock with Price Stainless Steel Sheet, Plate and Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420 Sizes Available in Stock with Price

      • 0.2 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 0.3 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 0.4 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 0.8 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 1 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 1.65 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 2.11 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 3.1 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 04 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 05 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 06 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 08 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 10 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 12 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 15 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 16 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 18 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 20 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 22 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 25 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 28 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 30 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 32 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 35 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 36 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 38 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 40 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 42 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 45 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 50 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 52 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 60 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 62 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 65 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 70 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 80 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 90 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 100 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 110 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 120 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420
      • 120 MM THICKNESS x WIDTH1000 MM / 1250 MM / 1500 MM / 2000 MM / 2500 MM X LENGTH 1000 MM / 2500 MM / 3000 MM / 6000 MM / COIL CUT in Stainless Steel Sheets, Plates, Slabs in Grade 304,304L,316,316L,310,310s,321,904L,409,410,420

      Size Listing below:

      We export 304 Stainless Steel Plate to Iran, Iraq, Oman, Qatar, Albania, Muscat, Bahrain, Turkey, Egypt, Maldives, Italy, UAE, Bahrain, Indonesia, Australia, Kuwait, Saudi Arabia, South Africa, Germany, UK, Denmark, Canada, USA, Peru, Brazil, Nizeria, Mexico, Venezuela (Latin America), South America, Russia, kazakhstan etc.

      We Export 304 Stainless Steel Plate to Saudi Arabia, Qatar, Oman, Iran, Iraq, Bahrain, Kuwait, United Arab Emirates, Dubai, Turkey, Egypt, Yemen, Israel, Jordan United Kingdom, United States of America, Mexico, Brazil, Chile, Argentina, Spain, Germany, Netherland, Italy, Europe, Albania, Ukraine, Russia, Japan, China, Sri Lanka, Pakistan, Bangladesh, Nepal, Bhutan, Maldives, Singapore, Malaysia, Thailand, South Korea, Vietnam, Indonesia, Australia, New Zealand, Alaska, Tehran, Riyadh, Jubail, Dammam, Jeddah, Houston, Doha, Musqat, Karachi, Colombo, Jakarta, Bangkok, Basra, Abadan, Bandar Abbas, Sharjah, Morocco, Istanbul, Kobhar, Mecca, Madina, Al Madina, Makkah, Mesaieed, Dukhan, Ras Laffan, Sohar, Manama, Aqaba, Port of Aden, Shuwaikh, Yanbu, Jubail.

      Steber Steel is a well known worldwide exporter of  304 Stainless Steel PlateSteber Steel is committed to provide each and every customer with the highest standard of customer service. We deals in 304 Stainless Steel Plate in India & Overseas, offering a wide range of 304 Stainless Steel Plate.

      Contact Steber Steel today for a ASTM A240 Grade 304, 304L, 304H Stainless Steel Plates and Sheets competitive quotation…
      call : (+91) 22-23824442
      e-mail: sales@stebersteel.net

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