Produk

  • Plat JFE Everhard
rade
JFE EH360
JFE EH360LE
JFE EH400
JFE EH500
JFE EH500LE
JFE 780LE
Kategori
Wear Resistant Plate
Description
JFE Everhard is manufactured for non-structural steel plates which are specified by chemical analysis of Molten steel,Brinell hardness at the plate surface and material toughness. It is not specified and guaranteed by its tensile strength and elongation which are required to be specified as structural steel plates. in case of any request for the tensile strength and/or elongation as reference, please refer to JFE steel Technical Bulletings
To meet rapidly growing customer requirements, JFE Steel has developed a wide range of high strength steel plates, such as the 590-980N/mm2 class, with unique characteristics. These steels called “JFE-HITEN” are winning JFE Steel popularity worldwide. Customers use these products reliably in the manufacture of ships, storage tanks, spherical gasholders, pressure vessels, bridges, penstocks, machineries, off-shore structures and others. JFE Steel herein introduces the features and characteristics of “JFE-HITEN” series.
AvailabilityThickness: 6 – 50 mm
Size: 1500 x 3000mm, 2500 x 6000mm
Chemical Composition (%)
CSiMnPSCrTiBMoV
< 0.25< 0.55< 1.60< 0.030< 0.030< 0.800.005 – 0.02< 0.004--
Application
Feeders, Crushers, sievers, feeders, measuring pockets, skips, cutting edges, conveyors, buckets, knives, gears, sprockets, dumptrucks, loaders, industrial trucks, lorries, bulldozers, excavators, slurry pipe systems, screw conveyors, Dumper bodies, containers, crushers, sievers, measuring pockets, skips, cutting edges, conveyors, buckets, knives, gears, sprockets.
  • Plat Stainless Steel 316

Tabel Ukuran dan Berat Plat Stainless Steel 316
Stainless SteelThicknessSizeBerat (Kg)
Plate 3041 mmx4′ x 8′23.6
Plate 3042 mmx4′ x 8′47.2
Plate 3043 mmx4′ x 8′70.8
Plate 3044 mmx4′ x 8′94.4
Plate 3045 mmx4′ x 8′118
Plate 3046 mmx4′ x 8′141.6
Plate 3048 mmx4′ x 8′188.8
Plate 30410 mmx4′ x 8′236
Plate 30412mmx4′ x 8′283.2

SPESIFIKASI

Chemical Composition
CSiMnPSNiCr
0.08 Max1.00 Max2.00 Max0.045 Max0.03 Max8 – 10.518.00-20.00
Mechanical Properties
Tensile Strength (0.2%) : >= 53 Kgf/MM2
Yield Strength : >= 21 Kgf/MM2
Elongation : >= 40%
Hardness (HB) : <= 187 HB
Corrosion Resistance
304 has excellent corrosion resistance in a wide variety of environments and when in contact with different corrosive media. Pitting and crevice corrosion can occur in environments containing chlorides. Stress corrosion cracking can occur at temperatures over 60°C.
304 has good resistance to oxidation in intermittent service up to 870°C and in continuous service to 925°C. However, continuous use at 425-860°C is not recommended if corrosion resistance in water is required. In this instance 304L is recommended due to its resistance to carbide precipitation.Where high strength is required at temperatures above 500°C and up to 800°C, grade 304H is recommended. This material will retain aqueous corrosion resistance.
Fabrication
Fabrication of all stainless steels should be done only with tools dedicated to stainless steel materials. Tooling and work surfaces must be thoroughly cleaned before use.These precautions are necessary to avoid cross contamination of stainless steel by easily corroded metals that may discolour the surface of the fabricated product.
Cold Working
304 stainless steel readily work hardens. Fabrication methods involving cold working may require an intermediate annealing stage to alleviate work hardening and avoid tearing or cracking. At the completion of fabrication a full annealing operation should be employed to reduce internal stresses
Hot Working
Fabrication methods, like forging, that involve hot working should occur after uniform heating to 1149-1260°C. The fabricated components should then be rapidly cooled to ensure maximum corrosion resistance.
Heat Treatment
304 stainless steel cannot be hardened by heat treatment. Solution treatment or annealing can be done by rapid cooling after heating to 1010-1120°C.
Machinability
304 stainless steel has good machinability. Machining can be enhanced using the following rules:
  • Cutting edges must be kept sharp. Dull edges cause excess work hardening.
  • Cuts should be light but deep enough to prevent work hardening by riding on the surface of the material.
  • Chip breakers should be employed to assist in ensuring swarf remains clear of the work
  • Low thermal conductivity of austenitic alloys results in heat concentrating at the cutting edges. This means coolants and lubricants are necessary and must be used in large quantities.
Welding
Fusion welding performance for type 304 stainless steel is excellent both with and without fillers. Recommended filler rods and electrodes for stainless steel 304 is grade 308 stainless steel. For 304L the recommended filler is 308L. Heavy welded sections may require post-weld annealing. This step is not required for 304L. Grade 321 may be used if post-weld heat treatment is not possible.
Applications
304 stainless steel is typically used in:
  • Sinks and splashbacks
  • Saucepans
  • Cutlery and flatware
  • Architectural panelling
  • Sanitaryware and troughs
  • Tubing
  • Brewery, dairy, food and pharmaceutical production equipment
  • Springs, nuts, bolts and screws
  • Medical implants


  • PLAT 310 Stainless Steel

Characteristic
AISI 310 is an Austenitic Standard grade Stainless Steel. It is commonly called AISI Type 310 Chromium-Nickel steel.

STAINLESS STEEL 310 TECHNICAL DATA

Chemical Composition: (%)
CMnSiCrNiPS
0.252.001.5024.0-26.019.0-22.00.0450.03
Equivalent:
France: AFNOR Z 12 CNS 25.20
Germany: DIN 1.4841
Italy: UNI X 16 CrNiSi 25 20 , UNI X 22 CrNi 25 20
Japan: JIS SUS 310
United Kingdom: B.S. 310 S 24
United States: AMS 5694 , AMS 5695 , ASME SA182 , ASME SA213 , ASME SA249 , ASME SA312 , ASME SA358 , ASME SA403 , ASME SA409 , ASTM A167 , ASTM A182 , ASTM A213 , ASTM A249 , ASTM A276 , ASTM A312 , ASTM A314 , ASTM A358 , ASTM A403 , ASTM A409 , ASTM A473 , ASTM A511 , ASTM A580 , ASTM A632 , FED QQ-S-763 , FED QQ-S-766 , FED QQ-W-423 , FED STD-66 , MIL SPEC MIL-S-862 , SAE 30310 , SAE J405 (30310) , UNS S31000
Mechanical Properties
Density (×1000 kg/m3) 8
Poisson’s Ratio 0.27-0.30
Elastic Modulus (GPa) 200
Tensile Strength (Mpa) 515
Yield Strength (Mpa) 205
Elongation (%) 40
Reduction in Area (%) 50
Hardness (HRB) 95 (max)
Physical Properties
Thermal Expansion (10-6/ÂșC) 15.9
Thermal Conductivity (W/m-K) 14.2
Specific Heat (J/kg-K) 500
Electric Resistivity (10-9W-m) 780
Applications
  • Sinks and splashbacks
  • Saucepans
  • Cutlery and flatware
  • Architectural panelling
  • Sanitaryware and troughs
  • Tubing
  • Brewery, dairy, food and pharmaceutical production equipment


  • Plat Corten 

CHARACTERISTIC

Corrosion Resistant Steel (often referred to as Cor–Ten) is a weather resistant steel grade which could more accurately be termed as an “Atmospheric Corrosion Resistant Steel”.
Corten steel is a copper chromium alloy steel – this alloy displays a greater level of resistance to atmospheric weathering when compared to other unalloyed steels. It’s chemical composition promotes the early formation of an adhering protective layer of rust when exposed to the elements.

AVAILABILITY

PLATES & SHEET

Thickness 6 – 12mm
Size: 4 x 8 Feet.
Equivalents
JIS G3125 SPA-H, COR-TEN A, COR-TEN B, S355J2WP+N, S355J2W+N, S355JOWP, S355JOW, S355J2W, 1.8946, 1.8965, SAILCOR IRSM41-97

CHEMICAL COMPOSITION (%)

GradeCSiMnPSCrCuVNi
Corten A0.120.25-0.750.20-0.500.07-0.150.0300.50-1.250.25-0.55-0.65
SPA-H0.120.20-0.750.600.07-0.150.0350.30-1.250.25-0.50-0.65

MECHANICAL PROPERTIES

At room temperature for plates ?3mm in thickness (transverse test specimans, according to EN 10002). Requirements to hot rolled plates ?3mm in thickness according to EN 10025-5.
GradeMinimum yield point (ReH Mpa *)Tensile strengthRm MPaMinimum elongation A (Lo=5.65 ?So) %
Corten A355470-63020
SPA-H35549022
*) 1 Mpa = 1N/mm2
No impact test is performed on products below 6mm in thickness.

Forming

The conditions for hot forming are in accordance with those stated in EN 10025-5. For cold forming the statements according to table 6 of EN 10025-5 are valid. If the mechanical properties have undergone changes due to cold forming, the properties indicated in the table can be substantially restores by stress relieving – at least 30 minutes at 530°C – 580°C. For higher degrees of cold forming subsequent normalising is recommended.

FLAME CUTTING

COR-TEN is suitable for flame cutting provided proper operating methods are used. At temperatures below 5°C a sufficiently wide zone on either side of the intended cut should be preheated. If flame cut edges are to undergo cold forming, the hardening effect should be prevented by preheating – as in the case of S355J2 or the hardened zones must be worked off e.g. by appropriate grinding.

WELDING

COR-TEN can be welded both manually and mechanically, provided the general rules of welding practices are observed. A prerequisite for obtaining identical mechanical properties in the weld and in the base material is the application of suitable welding consumables and the choice of appropraite welding conditions. To consider are EN 10025-5 – Technical delivery conditions for structural steels with improved atmospheric corrosion resistance
Recommendations
for welding are also given in EN 1011 part 1 and part 2 – Welding, Recommendations for welding of metallic materials-.
Lime basic electrodes, inert-gas welding wire, and wire/power combinations equivalent to the tensile strength of S355 are used as welding consumables
For unprotected use care must be taken that the welded joint is also weather resistant. This is possible by using welding consumables matching the base material.
If due to design or building specification stress relieving is required, it should be performed in the range temperature from about 530°C to 580°C.

BOLTING AND RIVETING

Joining elements such as bolts, rivets and their accessories (nuts and washers) must be so selected that the formation of local electro-chemical cells are avoided. The joining elements should preferably consist of weathering steel.
At these joints capillary action can lead to permanent moisture resulting in increased corrosion. Critical zones should therefore be protected by painting, sealing or other protective measures.
In the case of high-strength connections (HV) the conditions for non-weathering structural steels as given in DIN 18800 part 1 apply.
Applications
The steel is used for various types of welded, bolted and riveted constructions e.g. steel frame structures, bridges, tanks and containers, exhaust systems, vehicles and equipment constructions.

  • Jual VCN / AISI 4340 / SNCM 439/ 34NiCrMo6

High Tensile Nickel Chrome Steel
Steel AISI 4340
Characteristics
It has high hardenability and is capable of giving good properties in large sections. It is relatively free from temper brittleness and retains useful machinability at relatively high hardness.
Equivalents
Thyssen 6582, DIN 34NiCrMo6, ASSAB 705, VCN 150, JIS SNCM 439, Atlas Ultimo 200
Availability
Round bar
Sizes Diameter : 20mm – 300mm
Chemical Composition
C : 0.38 – 0.43
Mn : 0.60 – 0.80
P : 0.40 (Max)
S : 0.040 (Max)
Si : 0.20 – 0.35
Ni : 1.65 – 2.00
Cr : 0.70 – 0.90
Mo : 0.20 -0.30
Mechanical Properties
Hardening Temp : 820 – 850 C
Ouenching Medium : Oil
Hardness as Supplied : 220 – 250 BHN,
Applications
Automotive crankshafts and rear axle shafts, aircrafts crankshafts, Connecting Rods, Propeller Hubs, Gears, Drive shafts, Landing gear parts and heavy duty parts of rock drill


  • BESI HOLLOW

Carbon steel, stainless steel 201,stainless steel 304
Finishing
Standard, Galvanis
Availability 
Size: 10.0 – 300mm
Thickness: 0.22 – 12.0mm
Length: 6,000mm

CARA MENGHITUNG BERAT BESI HOLLOW

Misalkan:
Panjang Hollow (L) = 6000 mm
Lebar Hollow (W) = 40 mm
Tinggi hollow (H) = 40 mm
Ketebalan (B) = 2 mm
Berat jenis besi = 7850 (Kg/M3)
Berat Jenis besi (BJ) = 7.85 Kg/ 1.000.000 mm3
Berat Hollow = (W+H) X 2 X L X B X BJ
= (40+40)mm x 2 x 6000mm x 2mm x 7.85Kg/1.000.000 mm3
= 15.072Kg
Tabel Hollow Square & Rectangular
ProductThicknessLength
Hollow 12.5 x 12.5 mm0.9mm6M
Hollow 15 x 15 mm0.9mm6M
Hollow 15 x 30 mm0.9mm6M
Hollow 17 x 30 mm0.9mm6M
Hollow 20 x 20 mm1.2mm6M
Hollow 20 x 40 mmany6M
Hollow 25 x 25 mmany6M
Hollow 25 x 50 mmany6M
Hollow 30 x 30 mmany6M
Hollow 30 x 60 mmany6M
Hollow 40 x 40 mmany6M
Hollow 40 x 60 mmany6M
Hollow 50 x 50 mmany6M
Hollow 50 x 100 mmany6M
Hollow 75 x 45 mmany6M
Hollow 75 x 75 mmany6M
Hollow 100 x 100 mmany6M
ProductThicknessWeight
Hollow 50x50x66 mm57 Kg
Hollow 75x75x66 mm85 Kg
Hollow 100x50x66 mm85 Kg
Hollow 150x150x66 mm170Kg
Hollow 200x200x1010 mm377Kg
Hollow 300x300x1212 mm679Kg
Tabel Hollow Stainless Steel Square & Rectangular
Product & SizeThickness (mm)
0.81.01.21.52.0
Hollow Stainless 10 x 10xxx
Hollow Stainless 10 x 20xxx
Hollow Stainless 10 x 40x
Hollow Stainless 15 x 15x
Hollow Stainless 15 x 25x
Hollow Stainless 15 x 30x
Hollow Stainless 20 x 20x
Hollow Stainless 20 x 30x
Hollow Stainless 20 x 40
Hollow Stainless 20 x 60x
Hollow Stainless 25 x 25
Hollow Stainless 25 x 50x
Hollow Stainless 30 x 30x
Hollow Stainless 30 x 60
Hollow Stainless 40 x 40
Hollow Stainless 40 x 60x
Hollow Stainless 50 x 50x
Hollow Stainless 60 x 60x
Hollow Stainless 80 x 80
Hollow Stainless 100×100
Tabel Size Hollow Galvanis
Hollow Galvanis SizeThickness (mm)
0.220.30.40.50.81.21.51.82.0
20 x 40
40 x 40
Application
Konstruksi plafon, kanopi, rangka atap rumah,pagar, partisi, pembatas tangga



  • Besi H-BEAM

Deskripsi
Hot-rolled steel beam with H-shaped cross section, used mainly in piling and retaining structures. A structural beam of rolled steel or concrete having a shape whose cross section resembles the letter H. The difference between H-Beam and I-Beam is H-Beam has wider flanges than an I-beam.
Tabel Ukuran dan Berat Besi H-Beam Standard 12M
ProdukUkuranBerat (Kg)
H-beam 100100 x 100x 6x 8=208
H-beam 125125 x 125x 6.5x 9=288
H-beam 150150 x 150x 7x 10=380
H-beam 175175 x 175x 7.5x 11=484
H-beam 200200 x 200x 8x 12=599
H-beam 250250 x 250x 9x 14=871
H-beam 300300 x 300x 10x 15=1.128
H-beam 350350 x 350x12x 19=1.644
H-beam 400400x 400x 13x 21=2.066



  • Besi CNP

Deskripsi
CNP atau sering juga disebut: balok purlin, kanal C, C-channel, profil C biasa digunakan untuk : purlin (balok dudukan penutup atap), girts (elemen yang memegang penutup dinding seperti metal sheet) member pada truss, rangka komponen arsitektural,dll
Tabel Ukuran dan Berat Besi CNP standard:
ProductSize (mm)Weight (Kg)
CNP 6060 X 30 X 10 X 1.6=9.8
CNP 6060 X 30 X 10 X 2.3=13.5
CNP 7575 X 35 X 15 X 1.5=12
CNP 7575 X 45 X 15 X 1.6=14
CNP 7575 X 45 X 15 X 2.3=19.5
CNP 7575 X 45 X 20 X 2.3=19.5
CNP 100100 X 50 X 20 X 1,6=24.36
CNP 100100 X 50 X 20 X 2.3=24.36
CNP 100100 X 50 X 20 X 3.2=33
CNP 125125 X 50 X 20 X 2.3=27.06
CNP 125125 X 50 X 20 X 3.2=37
CNP 150150 X 50 X 20 X 2.3=30
CNP 150150 X 50 X 20 X 3.2=40.6
CNP 150150 X 65 X 20 X 2.3=33
CNP 150150 X 65 X 20 X 3.2=45.06
CNP 200200 X 75 X 20 X 3.2=55.62



  • Baja INP
Deskripsi
IWF or I-Beam, INP is a hot-rolled steel beam with H-shaped cross section, used mainly in piling and retaining structures. A structural beam of rolled steel or concrete having a shape whose cross section resembles the letter H; has shorter flanges than an H-beam.
Tabel Ukuran dan Berat Besi IWF standard SNI:
ProductSizeWeight (Kg)
INP 8080 x 42 x 3.9 x 5.9=77Kg
INP 100100 x 50 x 4.5 x 6.8=101.2Kg
INP 120120 x 58 x 5.1 x 7.7=135Kg
INP 140140 x 66 x 5.7 x 8.6=175Kg
INP 150150 x 73 x 6 x 7=195Kg
INP 160160 x 74 x 6.5 x 9.5=217Kg
INP 180180 x 82 x 6.9 x 10.4=270Kg
INP 200200 x 90 x 7.5 x 11.3=315Kg
INP 220220 x 98 x 8.1 x 12.2=373Kg
INP 240240 x 106 x 8.7 x 13.1=435Kg
INP 250250 x 125 x 7.5 x 12.5=460Kg
INP 260260 x 113 x 9.4 x 14.1=503Kg
INP 280280 x 119 x 10.1 x 15.2=580Kg
INP 300300 x 125 x 10.8 x 16.2=661Kg
INP 320320 x 131 x 11.3 x 17.3=750Kg
INP 340340 x 137 x 12.2 x 18.3=833Kg
INP 360360 x 143 x 13 x 19.5=926Kg
INP 380380 x 149 x 13.7 x 20.5=1026.5Kg
INP 400400 x 155 x 14 x 22=1136.5Kg
INP 450450 x 170 x 16.2 x 24.3=1400Kg
INP 500500 x 185 x 18 x 27=1707Kg



  • Plat ASTM A-516 Gr.70

Tabel Ukuran, Berat  Plat ASTM A-516 Gr.70
ProductThickness (Inch)Size (Feet)Weight (Kg)
Plat A516 5mm3/16″5′ x 20′347
Plat A516 6mm1/4″5′ x 20′463
Plat A516 8mm5/16″5′ x 20′579
Plat A516   9 mm3/8″5′ x 20′694
Plat A516 12 mm1/2″5′ x 20′926
Plat A516 14 mm9/16″5′ x 20′1042
Plat A516 16mm5/8″5′ x 20′1158
Plat A516 19 mm3/4″5′ x 20′1389
Plat A516 25 mm1″5′ x 20′1852
Plat A516 38 mm1.5″5′ x 20′2824
Plat A516 45 mm1.75″6′ x 20′4012
Plat A516 50 mm2″6′ x 20′4458
Plat A516 60 mm2.375″6′ x 20′5351
Plat A516 65 mm2.625″6′ x 20′5695
For plates < 40mm (thinner), normally supply as rolled. Plates supplied > 40mm (above) thick are normalised.
Thickness above 65mm indent 6 – 8 weeks with minimum order
Mechanical Properties
Tensile strength (MPa) : 485-620
Yield strength (MPa) : 260
Elongation in 200mm (min)(%): 17
Elongation in 50mm (min) (%): 21
Thickness (max)(mm) : 205
Features:
Uniform surface
High tensile strength
Corrosion resistance
Sturdy construction
Temperature resistance
Plat Stainless Steel 304
Grades
Stainless steel grade 304 is the most versatile and widely used stainless steel. It is still sometimes referred to by its old name 18/8 which is derived from the nominal composition of type 304 being 18% chromium and 8% nickel. Stainless steel types 1.4301 and 1.4307 are also known as grades 304 and 304L respectively.
SUS 304 stainless steel is an austenitic grade that can be severely deep drawn. This property has resulted in 304 being the dominant grade used in applications like sinks and saucepans.
SUS 304L is the low carbon version of 304. It is used in heavy gauge components for improved weldability. Some products such as plate and pipe may be available as “dual certified” material that meets the criteria for both 304 and 304L. 304H, a high carbon content variant, is also available for use at high temperatures.
Property data given in this document is typical for flat rolled products covered by ASTM A240/A240M. ASTM, EN or other standards may cover products sold. It is reasonable to expect specifications in these standards to be similar but not necessarily identical to those given in this datasheet.
Equivalents 
DINX5CrNi1810, AISI 304, EN X4CrNi18-10, BS304S31, ISO – 11
Availability
Stainless steel SUS 304 is available in Sheet, Bar, Wire, Rod, Strip, tube, pipe, and Channel.

  • Plat Stainless Steel 304
Tabel Ukuran dan Berat Plat Stainless Steel 304
Stainless SteelThicknessSizeBerat (Kg)
Plate 3041 mmx4′ x 8′23.6
Plate 3042 mmx4′ x 8′47.2
Plate 3043 mmx4′ x 8′70.8
Plate 3044 mmx4′ x 8′94.4
Plate 3045 mmx4′ x 8′118
Plate 3046 mmx4′ x 8′141.6
Plate 3048 mmx4′ x 8′188.8
Plate 30410 mmx4′ x 8′236
Plate 30412mmx4′ x 8′283.2

SPESIFIKASI

Chemical Composition
CSiMnPSNiCr
0.08 Max1.00 Max2.00 Max0.045 Max0.03 Max8 – 10.518.00-20.00
Mechanical Properties
Tensile Strength (0.2%) : >= 53 Kgf/MM2
Yield Strength : >= 21 Kgf/MM2
Elongation : >= 40%
Hardness (HB) : <= 187 HB
Corrosion Resistance
304 has excellent corrosion resistance in a wide variety of environments and when in contact with different corrosive media. Pitting and crevice corrosion can occur in environments containing chlorides. Stress corrosion cracking can occur at temperatures over 60°C.
304 has good resistance to oxidation in intermittent service up to 870°C and in continuous service to 925°C. However, continuous use at 425-860°C is not recommended if corrosion resistance in water is required. In this instance 304L is recommended due to its resistance to carbide precipitation.Where high strength is required at temperatures above 500°C and up to 800°C, grade 304H is recommended. This material will retain aqueous corrosion resistance.
Fabrication
Fabrication of all stainless steels should be done only with tools dedicated to stainless steel materials. Tooling and work surfaces must be thoroughly cleaned before use.These precautions are necessary to avoid cross contamination of stainless steel by easily corroded metals that may discolour the surface of the fabricated product.
Cold Working
304 stainless steel readily work hardens. Fabrication methods involving cold working may require an intermediate annealing stage to alleviate work hardening and avoid tearing or cracking. At the completion of fabrication a full annealing operation should be employed to reduce internal stresses
Hot Working
Fabrication methods, like forging, that involve hot working should occur after uniform heating to 1149-1260°C. The fabricated components should then be rapidly cooled to ensure maximum corrosion resistance.
Heat Treatment
304 stainless steel cannot be hardened by heat treatment. Solution treatment or annealing can be done by rapid cooling after heating to 1010-1120°C.
Machinability
304 stainless steel has good machinability. Machining can be enhanced using the following rules:
  • Cutting edges must be kept sharp. Dull edges cause excess work hardening.
  • Cuts should be light but deep enough to prevent work hardening by riding on the surface of the material.
  • Chip breakers should be employed to assist in ensuring swarf remains clear of the work
  • Low thermal conductivity of austenitic alloys results in heat concentrating at the cutting edges. This means coolants and lubricants are necessary and must be used in large quantities.
Welding
Fusion welding performance for type 304 stainless steel is excellent both with and without fillers. Recommended filler rods and electrodes for stainless steel 304 is grade 308 stainless steel. For 304L the recommended filler is 308L. Heavy welded sections may require post-weld annealing. This step is not required for 304L. Grade 321 may be used if post-weld heat treatment is not possible.
Applications
304 stainless steel is typically used in:
  • Sinks and splashbacks
  • Saucepans
  • Cutlery and flatware
  • Architectural panelling
  • Sanitaryware and troughs
  • Tubing
  • Brewery, dairy, food and pharmaceutical production equipment
  • Springs, nuts, bolts and screws
  • Medical implants


  • BESI UNP

Istilah lain untuk UNP adalah: Kanal U, U-channel, Profil U. Material besi ini berbentuk profil U. Penggunaannya hampir sama dengan WF, kecuali untuk kolom jarang digunakan karena relatif lebih mudah mengalami tekuk. Banyak digunakan untuk konstruksi sipil dan mesin. Material ini mempunyai variasi ukuran yang cukup banyak sehingga kita dapat dengan mudah menyesuaikan kebutuhan kita.

Tabel Ukuran dan Berat Besi UNP:




SIZEWEIGHT
UNP 5050 x 38 x 5=33.5Kg
UNP 6565 x 42 x 5.5=42.5Kg
UNP 7575 x 40 x 5=41.5Kg
UNP 8080 x 45 x 5=50Kg
UNP 100100 x 50 x 5=56.2Kg
UNP 120120 x 55 x 6=80.4Kg
UNP 125125 x 65 x 6=80.4Kg
UNP 140140 x 55 x 7=96Kg
UNP 150150 x 75 x 6.5=112Kg
UNP 160160 x 66 x 7=115.5Kg
UNP 180180 x 75 x 7=132Kg
UNP 200200 x 75 x 7.5=148Kg
UNP 200200 x 80 x 7.5=152Kg
UNP 220220 x 80 x 9=187.5Kg
UNP 240240 x 85 x 9.5=205Kg
UNP 250250 x 80 x 7.1=182.5Kg
UNP 250250 x 90 x 9=416Kg
UNP 300300 x 90 x 9=229Kg
UNP 300300 x 100 x 10=556Kg
UNP 380380 x 100 x 10.5=654Kg
UNP 180180 x 70 x 8=271Kg
UNP 200200 x 75 x 8.5=310Kg
UNP 220220 x 80 x 9=371Kg
UNP 240240 x 85 x 9.5=410Kg
UNP 250250 x 80 x 7.1=365Kg
UNP 250250 x 90 x 9=208Kg
UNP 260260 x 90 x 10=456Kg
UNP 280280 x 95x 10=500Kg
UNP 300300 x 90 x 9=458Kg
UNP 300300 x 100 x 10=556Kg
UNP 320320 x 100 x 14=714Kg




  • WF Beam


Deskripsi
Besi WF atau dalam istilah lainnya IWF, WF, WF-Beam, UB, UC, balok H, balok W biasanya digunakan untuk : balok, kolom, tiang pancang, top & bottom chord member pada truss, composite beam atau column, kantilever kanopi, dll
Tabel Berat Besi WF (Wide Flange) Panjang standard 12M:
Product SizeWeight(Kg)
WF Beam 100 X 50 X 5 X 7=112
WF Beam 125 X 60 X 6 X 8=159
WF Beam 148 X 100 X 6 X 9=253
WF Beam 150 X 75 X 5 X 7=168
WF Beam 175 X 90 X 5 X 8=217
WF Beam 198 X 99 X 4,5 X 7=218
WF Beam 200 X 100 X 3,2 X 4,5=143
WF Beam 200 X 100 X 5,5 X 8=256
WF Beam 248 x 124 x 5 x 8=308
WF Beam 250 x 125 x 6 x 9=355
WF Beam 298 x 149 x 6 x 8=384
WF Beam 300 x 150 x 6.5 x 9=440
WF Beam 346 x 174 x 6 x 9=497
WF Beam 350 x 175 x 7 x 11=595
WF Beam 396 x 199 x 7 x 11=679
WF Beam 400 x 200 x 8 x 13=792
WF Beam 446 x 199 x 7 x 11=795
WF Beam 450 x 200 x 90 x 14=912
WF Beam 500 x 200 x 10 x 16=1075
WF Beam 588 x 300 x 12 x 20=1812
WF Beam 600 x 200 x 11 x 17=1272

  • PLAT MILD STEEL

Tabel Ukuran dan Berat Plat Mild Steel
Product
Tebal (mm)
PxL (feet)
Berat (Kg)
Mild Plate
1.2
4×8 =
28
Mild Plate
1.35
4×8 =
31.5
Mild Plate
1.4
4×8 =
33
Mild Plate
1.5
4×8 =
35
Mild Plate
1.6
4×8 =
37.5
Mild Plate
1.8
4×8 =
42
Mild Plate
1.9
4×8 =
45
Mild Plate
2
4×8 =
46.7
Mild Plate
2.1
4×8 =
49
Mild Plate
2.3
4×8 =
54
Mild Plate
2.5
4×8 =
58.3
Mild Plate
2.6
4×8 =
60.7
Mild Plate
2.8
4×8 =
65.3
Mild Plate
2.9
4×8 =
67.7
Mild Plate
3
4×8 =
70
Mild Plate
3.2
4×8 =
74.7
Mild Plate
3.6
4×8 =
84
Mild Plate
3.8
4×8 =
88.7
Mild Plate
4
4×8 =
93.32
Mild Plate
4.5
4×8 =
105
Mild Plate
4.8
4×8 =
112
Mild Plate
5
4×8 =
117
Mild Plate
5.8
4×8 =
135.32
Mild Plate
6
4×8 =
140
Mild Plate
8
4×8 =
187
Mild Plate
9
4×8 =
210
Mild Plate
10
4×8 =
233.3
Mild Plate
11
4×8 =
256.62
Mild Plate
12
4×8 =
280
Mild Plate
13
4×8 =
303.3
Mild Plate
14
4×8 =
326.62
Mild Plate
15
4×8 =
350
Mild Plate
16
4×8 =
373
Mild Plate
18
4×8 =
420
Mild Plate
19
4×8 =
443.3
Mild Plate
20
4×8 =
467
Mild Plate
21
4×8 =
490
Mild Plate
22
4×8 =
513.3
Mild Plate
24
4×8 =
560
Mild Plate
25
4×8 =
583.3
Mild Plate
28
4×8 =
653.24
Mild Plate
30
4×8 =
700
Mild Plate
31
4×8 =
723.3
Mild Plate
32
4×8 =
747
Mild Plate
38
4×8 =
887
Mild Plate
40
4×8 =
933.2
Mild Plate
42
4×8 =
980
Mild Plate
45
4×8 =
1050
Mild Plate
50
4×8 =
1167
Mild Plate
65
4×8 =
1516.5
Mild Plate
75
4×8 =
1750
Mild Plate
80
4×8 =
1870
Mild Plate
85
4×8 =
1983.1
Mild Plate
90
4×8 =
2100
Mild Plate
100
4×8 =
2333



  • BESI SIKU

Besi Siku 40 x 40 x 3
Tabel Ukuran dan Berat Standard Besi Siku
Produk
Ukuran
Berat
Besi siku
20 x 20x 3
5.31
Kg
Besi siku
25 x 25x 3
8.72
Kg
Besi siku
25 x 25x 5
10.6
Kg
Besi siku
30 x 30x 3
8.16
Kg
Besi siku
40 x 40x 3
11
Kg
Besi siku
40 x 40x 4
14.5
Kg
Besi siku
40 x 40x 5
18
Kg
Besi siku
45 x 45x 4
16.44
Kg
Besi siku
45 x 45x 5
20.5
Kg
Besi siku
50 x 50x 4
18.4
Kg
Besi siku
50 x 50x 5
22.7
Kg
Besi siku
50 x 50x 6
27.58
Kg
Besi siku
60 x 60x 5
27.42
Kg
Besi siku
60 x 60x 6
32.52
Kg
Besi siku
65 x 65x 6
35.46
Kg
Besi siku
70 x 70x 6
38.28
Kg
Besi siku
70 x 70x 7
44.28
Kg
Besi siku
75 x 75x 6
41.22
Kg
Besi siku
75 x 75x 7
47.64
Kg
Besi siku
75 x 75x 8
54.18
Kg
Besi siku
75 x 75x 9
59.8
Kg
Besi siku
80 x 80x 8
57.96
Kg
Besi siku
90 x 90x 7
57.54
Kg
Besi siku
90 x 90x 9
73.2
Kg
Besi siku
90 x 90x 10
79.8
Kg
Besi siku
100 x 100x 7
64.25
Kg
Besi siku
100 x 100x 10
90.72
Kg
Besi siku
120 x 120x 8
88.2
Kg
Besi siku
120 x 120x 10
109
Kg
Besi siku
120 x 120x 11
119.4
Kg
Besi siku
120 x 120x 12
130
Kg
Besi siku
125 x 125x 12
140
Kg
Besi siku
130 x 130x 9
107.1
Kg
Besi siku
130 x 130x 12
140.1
Kg
Besi siku
150 x 150x 10
140
Kg
Besi siku
150 x 150x 12
164
Kg
Besi siku
150 x 150x 15
202
Kg
Besi siku
200 x 200x 15
272
Kg
Besi siku
200 x 200x 16
292.5
Kg
Besi siku
200 x 200x 20
358
Kg
Besi siku
200 x 200x 25
442
Kg
Besi siku
250 x 250x 25
562
Kg


  • KAWAT LAS


Supplier Kawat Las di Indonesia 
yang Mensuplai dan Mendistribusikan kawat las dengan berbagai macam merk dan type sesuai dengan kebutuhan dengan harga Pabrik, diantaranya:
1.Mild Steel Welding Electrodes
2.High Tensile Steel Welding Electrodes
3.Hard Facing Welding Electrodes
4.Stainless Steel Welding Electrodes
5.Cast Iron Welding Electrodes
6. Special Purpose Welding Electrodes, i, e : Bronze Gouging & Cutting.
Perusahaan kami merupakan distributor kawat las di Indonesia. Produk yang kami jual antara lain:
  • Kawat las kobe steel
  • Kawatt las lincoln
  • Kawat las esab
  • Kawat las nikko
  • Dan lain sebagainya