Is It The End of Stainless Steel?

Related Steel:

Whirlpool turned a few heads last week when they announced their new White Ice finish for their deluxe kitchen appliance collection. The white, mirrored-glass, silver-accented design is notable because for the first time in at least a decade, the exterior of a major-brand, top-end appliance line isn’t strictly stainless steel.

There have been other hints that the industry is shifting away from a solely stainless design plan, like these colorful ranges. To be fair, they’ve mostly come from less-familiar European brands and niche manufacturers. (Though Whirlpool’s own Amana line did introduce a floral refrigerator finish back in 2009. We’re still waiting for it to revolutionize interior design tastes.

But even with new finishes available, is stainless still king? It isn’t going anywhere anytime soon. Almost all of the ovens that we’ve reviewed on are predominantly stainless. Almost all of the upcoming major-brand premium kitchen lines will still be stainless. Stainless is cheap to make, relatively easy to clean, and has become the standard for kitchen design—sensibilities don’t change overnight.

White Ice and other colorful finishes do seem to represent a shift in the way that we think about interior design: We’re doing it to please ourselves and create comfortable living spaces right now, rather than designing to boost resale value. Younger homeowners in particular seem to prefer the extra choices.

So what do you think? How long will stainless maintain its reign? Is color a passing fad? Does anybody really want an iOven to match their iPad? Aren’t they just tools for cooking and cleaning anyway? What colors will our robot maids come in?


Architects wrap buildings with Stainless Steel

With the pollen-rich landscapes of spring we discussed in our last post behind us and the sweltering days of summer beating down on our heads, the draw of cool shoreline breezes is tempting. What the casual beachgoer may not know, however, is that these waterfront locales often present challenging conditions that require special material applications to stand up to Mother Nature and ensure the longevity of coastal designs. Stainless steel plays a starring role in this success.

A popular medium in many design fields, stainless steel’s sleek finish and sharp lines appeal to both modern and contemporary sensibilities. Architects wrap buildings with it, industrial designers cloak gadgets in it, jewelry designers fashion accessories from it, and interior designers select it for kitchen sinks. Its corrosion-resistant properties also make it the best option for exterior applications in waterfront environments, compared to other metals (steel, galvanized steel, CORTEN steel, aluminum, iron, and bronze),— especially for brackish and saline waterways such as those of New York City’s coastal areas.

For our Hudson River Park Tribeca Section project, we designed a stainless steel railing at the pier’s edge, contributing to the installation’s longevity while enhancing the finish and aesthetic of this safety feature. Other cost-effective metals, like powder-coated or galvanized steel, were used for the park’s interior spaces. When designing with stainless steel, it is important that all attached metals, including connectors, fasteners, and anchors, are of the same material. Dissimilar metals in contact with stainless steel will accelerate corrosion and reduce the strength and lifespan of the product. This reaction is known as galvanic corrosion—a topic we’ll cover in a future post.

Steel Plate Product:

Stainless steel is available in a multitude of grades, each classified based on the percentages of the various alloy components present in the product. Altering the alloy content affects the metal’s characteristics, including its strength, corrosion resistance, brittleness, magnetism, etc. For example, Type 304 is the most widely used grade of the metal in landscape applications, whereas Type 420 is utilized for cutlery. Type 316 stainless steel, which has greater nickel content than Type 304, offers enhanced corrosion resistance in saline environments and is therefore typically specified for marine and waterfront landscape installations. Type 316 is slightly more expensive compared to Type 304, due to its alloy content, but its durability makes it a valuable investment. Type 316 stainless steel was used at our Hunts Point Landing project in the Bronx due to its proximity to Long Island Sound—a brackish waterway—whereas Type 304 was used at noteworthy non-marine projects including St. Louis’s Gateway Arch and New York City’s Unisphere.

Beyond the corrosion resistance and notable strength of stainless steel, the breadth of available finishes and forms is another appealing aspect of this metal for designers. It is available in multiple finishes ranging from the highly polished look often used for interior applications or jewelry, to brushed finishes that more easily camouflage fingerprints and light debris, to a bead blast—almost matte—finish. Bead blast finish works well in exterior applications, as it retains far less heat than polished surfaces—no one wants to sit on a scalding hot bench as they catch a summer breeze off the water! At our Fulton Landing Pier, a number of forms and finishes were integrated into the project’s decorative railing, including polished or blasted stainless steel pipes, plates, cables and anchors, which enhanced its aesthetic appeal.

Thanks to improved technology, stainless steel plate can be cut to almost any shape, freeing the designer from right angles, straight edges, or measured radii. Designers can provide their design drawings to fabricators who can then perfectly transform their 2D schematics into 3D forms via laser and water jet cutters. Our West Thames Park in Battery Park City incorporates stainless steel mesh and rods into a colorfully painted steel shade structure that provides dappled shade for now—until its twining vines are able to provide a dense canopy, woven throughout the overhead structure.

Appropriate material selection is integral to the success and longevity of built environments. Also crucial to the success of a landscape, yet seldom discussed, is soil. Hidden out of sight below plants, mulch, and pavement, this vital material will be addressed in our next post.



Terrie Brightman, RLA, ASLA is a practicing landscape architect at Mathews Nielsen Landscape Architects in New York City with nine years of professional experience. Since receiving her BLA from the Pennsylvania State University, she has worked on riverfronts in Pittsburgh, private residences in California and Florida, a sustainable community in Turkey, and multiple public parks, plaza and waterfronts throughout New York City. 

Jual Plat Stainless Steel

Our valued customers yang budiman, salam sejahtera!
Semoga hari ini anda selalu sehat dan diberkati.
Kami menjual plat stainless steel Grade 201, 304, 316L, 430, dengan finish 1B, 2B, BA, Mirror, HL, No.4 dengan ketebalan mulai dari  0.3 mm  s/d  12 mm. Untuk informasi stock dan harga silahkan hubungi kami


Plat Stainless Steel (Stainless steel sheet plate) adalah suatu jenis baja lembaran (sheet) dengan kemampuan daya ketahanan tarik dan ketahanan karat yang sangat tinggi dan memiliki banyak keunggulan, sehingga plat stainless banyak di butuhkan oleh industri besar , menengah, maupun kecil di Indonesia.

Beberapa Industri yang sering menggunakan plat stainless steel diantaranya: industri otomotif, perlengkapan rumah tangga/ dapur, konstruksi dan infrastruktur untuk dekorasi gedung2 kantor dan hotel, untuk lift dan elevator serta industri lainnya.

Sebagian besar plat stainless dapat di potong, ditekuk, di las,  dibentuk dan diproses dengan mesin secara mudah, di Bor/dipotong dengan ukuran yang disesuaikan dengan kebutuhan dan lain-lain.


Plat stainless steel yang umum tersedia terdiri dari beberapa grade yaitu :

Plat Stainless steel Grade 304, finish 1B, 2B, BA, Mirror, HL, No.4
Plat Stainless steel Grade 201/202, finish 1B, 2B, BA, Mirror, HL, No.4
Plat Stainless steel Grade 430, finish 2B, BA
Plat Stainless steel Grade 316, finish 1B, 2B, dan yang lainnya.

Plat stainless steel tersedia dalam ukuran : 1,219 mtr x 2,438 mtr (4×8 feet)

Ketebalan Plat stainless steel yang tersedia : dari 0.3 mm  s/d  12 mm.

Shape Size Grade
Rounds 1/8″ – 24″ 303, 304, 304L, 316, 316L, 321, 347, 410, 416, 440C, 17-4 PH, 15-5 PH
Flats 1/8″ x 1/2″
to 3″ x 8″
303, 304, 304L, 316, 316L, 321, 347, 410, 416, 440C, 17-4 PH, 15-5 PH
Sheets 36″ x 96″ to
60″ x 144″
7 ga. to 24 ga.
304, 304L, 316, 316L
Squares 1/8″ – 6″ 303, 304, 304L, 316, 316L, 321, 347, 410, 416, and 440C
Hexagons 1/4″ to 4″ 303, 304, 304L, 316, 316L, 321, 347, 410, 416
HRAP Angles 3/4″ x 3/4″ x 1/8″
to 6″ x 6″ x 1/2″
304, 304L, 316, 316L
1/2″ x 1″ x .065″ wall
– 6″ x 12″ X 1/2″ wall
304, 304L, 316, 316L
Square Tubing 1/2″ x .065″ wall
– 12″ x 1/2″ wall
304, 304L, 316, 316L
Half Rounds 1/2″ – 1″ 304, 304L, 316, 316L
Pipe Various 304, 304L, 316, 316L

Tabel ukuran dan Berat Plat stainless steel :

Stainless Steel Ukuran Berat (Kg)
Plate 1 mm x 4′ x 8′ 23.6 Kg
Plate 2 mm x 4′ x 8′ 47.2 Kg
Plate 3 mm x 4′ x 8′ 70.8 Kg
Plate 4 mm x 4′ x 8′ 94.4 Kg
Plate 5 mm x 4′ x 8′ 118 Kg
Plate 6 mm x 4′ x 8′ 141.6 Kg
Plate 8 mm x 4′ x 8′ 188.8 Kg
Plate 10 mm x 4′ x 8′ 236 Kg
Plate 12mm x 4′ x 8′ 283.2 Kg
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Steel Plate Product:

Stainless Steel 304

Dear valued customers,

Beyond-Steel menjual Stainless Steel 304 acerinox,Jindal, Heisei, Outokumpu import plat, sheet, roundbar dan chanel dengan ukuran dan ketebalan bervariasi. Untuk informasi stock dan harga silahkan hubungi kami:

Tel  : +62-021-2986 1684

Fax : +62-021-2986 1684

Mobile: +62-0819 0804 5114


Characteristic Grades 304

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.

Stainless steel 304 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.

Stainless steel 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.


Stainless steel 304 is available in Sheet, Bar, Wire, Rod, Strip, tube, pipe, and Channel, For all stock availability contact Sales.

Stainless steel 304 Sheet

Stainless steel 304 Plate

Stainless steel 304 Rod

Stainless steel 304 Tube

Stainless steel 304 Pipe

Stainless steel 304 Channel

Stainless Steel 304 Technical Data

Chemical Composition (%)

C : 0.05 – 0.08

Si : <= 1.0

Mn: <= 2.00

Ni : 8.00 – 11.00

Cr : 18.00 – 20.00

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.
Heat ResistanceJustify Full304 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 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.


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.

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.


Tabel Ukuran dan Berat Plat stainless steel 304 4’x8′ Beyond-steel Indonesia:

Stainless Steel Size  Berat (Kg)
Plate 304 1 mm x 4′ x 8′ 23.6 Kg
Plate 304 2 mm x 4′ x 8′ 47.2 Kg
Plate 304 3 mm x 4′ x 8′ 70.8 Kg
Plate 304 4 mm x 4′ x 8′ 94.4 Kg
Plate 304 5 mm x 4′ x 8′ 118 Kg
Plate 304 6 mm x 4′ x 8′ 141.6 Kg
Plate 304 8 mm x 4′ x 8′ 188.8 Kg
Plate 304 10 mm x 4′ x 8′ 236 Kg
Plate 304 12mm x 4′ x 8′ 283.2 Kg


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

Related Stainless Steel:


Besi Kanal C atau sering juga disebut: CNP, balok purlin, 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 Kanal C (CNP) SNI:
Product Size Berat 
Kanal C 60 X 30 X 10 X 1.6 = 9.8 Kg
Kanal C 60 X 30 X 10 X 2.3 = 13.5 Kg
Kanal C 75 X 35 X 15 X 1.5 = 12 Kg
Kanal C 75 X 45 X 15 X 1.6 = 14 Kg
Kanal C 75 X 45 X 15 X 2.3 = 19.5 Kg
Kanal C 75 X 45 X 20 X 2.3 = 19.5 Kg
Kanal C 100 X 50 X 20 X 1,6 = 24.36 Kg
Kanal C 100 X 50 X 20 X 2.3 = 24.36 Kg
Kanal C 100 X 50 X 20 X 3.2 = 33 Kg
Kanal C 125 X 50 X 20 X 2.3 = 27.06 Kg
Kanal C 125 X 50 X 20 X 3.2 = 37 Kg
Kanal C 150 X 50 X 20 X 2.3 = 30 Kg
Kanal C 150 X 50 X 20 X 3.2 = 40.6 Kg
Kanal C 150 X 65 X 20 X 2.3 = 33 Kg
Kanal C 150 X 65 X 20 X 3.2 = 45.06 Kg
Kanal C 200 X 75 X 20 X 3.2 = 55.62 Kg
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Harga Besi Siku SNI

Related Product:

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
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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) SNI:
Product Size Weight(Kg) Price (Rp)
WF 100 X 50 X 5 X 7 = 112 1,142,400
WF 125 X 60 X 6 X 8 = 159 1,621,800
WF 148 X 100 X 6 X 9 = 253 2,580,600
WF 150 X 75 X 5 X 7 = 168 1,764,000
WF 175 X 90 X 5 X 8 = 217 2,278,500
WF 198 X 99 X 4,5 X 7 = 218 2,289,000
WF 200X100X3,2X4.5 = 143 1,501,500
WF 200 X 100 X 5,5 X 8 = 256 2,688,000
WF 248 x 124 x 5 x 8 = 308 3,234,000
WF 250 x 125 x 6 x 9 = 355 3,727,500
WF 298 x 149 x 6 x 8 = 384 4,224,000
WF 300 x 150 x 6.5 x 9 = 440 4,840,000
WF 346 x 174 x 6 x 9 = 497 5,467,000
WF 350 x 175 x 7 x 11 = 595 7,437,500
WF 396 x 199 x 7 x 11 = 679 8,487,500
WF 400 x 200 x 8 x 13 = 792 9,900,000
WF 446 x 199 x 7 x 11 = 795 9,937,500
WF 450 x 200 x 90 x 14 = 912 11,400,000
WF 500 x 200 x 10 x 16 = 1075 13,437,500
WF 588 x 300 x 12 x 20 = 1812 24,462,000
WF 600 x 200 x 11 x 17 = 1272 17,172,000
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