| Customization: | Available |
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| Type: | Stainless Steel Sheets |
| Standard: | ASTM, AISI |
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| Introduction | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Grade 630 is the standard molybdenum-bearing grade, second in importance to 630 amongst the austenitic stainless steels. The molybdenum gives 316 better overall corrosion resistant properties than Grade 304, particularly higher resistance to pitting and crevice corrosion in chloride environments. Grade 316L, the low carbon version of 316 and is immune from sensitisation (grain boundary carbide precipitation). Thus it is extensively used in heavy gauge welded components (over about 6mm). There is commonly no appreciable price difference between 316 and 316L stainless steel. The austenitic structure also gives these grades excellent toughness, even down to cryogenic temperatures. Compared to chromium-nickel austenitic stainless steels, 316L stainless steel offers higher creep, stress to rupture and tensile strength at elevated temperatures. Key Properties These properties are specified for flat rolled product (plate, sheet and coil) in ASTM A240/A240M. Similar but not necessarily identical properties are specified for other products such as pipe and bar in their respective specifications. Composition Table 1. Composition ranges for 316L stainless steels.
Mechanical Properties Table 2. Mechanical properties of 316L stainless steels.
Table 3. Typical physical properties for 316 grade stainless steels.
Table 4. Grade specifications for 316L stainless steels.
Possible Alternative Grades Table 5. Possible alternative grades to 316 stainless steel.
Excellent in a range of atmospheric environments and many corrosive media - generally more resistant than 304. Subject to pitting and crevice corrosion in warm chloride environments, and to stress corrosion cracking above about 60°C. Considered resistant to potable water with up to about 1000mg/L chlorides at ambient temperatures, reducing to about 500mg/L at 60°C. 316 is usually regarded as the standard "marine grade stainless steel", but it is not resistant to warm sea water. In many marine environments 316 does exhibit surface corrosion, usually visible as brown staining. This is particularly associated with crevices and rough surface finish. Heat Resistance Good oxidation resistance in intermittent service to 870°C and in continuous service to 925°C. Continuous use of 316 in the 425-860°C range is not recommended if subsequent aqueous corrosion resistance is important. Grade 316L is more resistant to carbide precipitation and can be used in the above temperature range. Grade 316H has higher strength at elevated temperatures and is sometimes used for structural and pressure-containing applications at temperatures above about 500°C. Heat Treatment Solution Treatment (Annealing) - Heat to 1010-1120°C and cool rapidly. These grades cannot be hardened by thermal treatment. Welding Excellent weldability by all standard fusion and resistance methods, both with and without filler metals. Heavy welded sections in Grade 316 require post-weld annealing for maximum corrosion resistance. This is not required for 316L. 316L stainless steel is not generally weldable using oxyacetylene welding methods. Machining 316L stainless steel tends to work harden if machined too quickly. For this reason low speeds and constant feed rates are recommended. 316L stainless steel is also easier to machine compared to 316 stainless steel due its lower carbon content. Hot and Cold Working 316L stainless steel can be hot worked using most common hot working techniques. Optimal hot working temperatures should be in the range 1150-1260°C, and certainly should not be less than 930°C. Post work annealing should be carried out to induce maximum corrosion resistance. Most common cold working operations such as shearing, drawing and stamping can be performed on 316L stainless steel. Post work annealing should be carried out to remove internal stresses. Hardening and Work Hardening 316L stainless steel does not harden in response to heat treatments. It can be hardened by cold working, which can also result in increased strength. Applications Typical applications include: • Food preparation equipment particularly in chloride environments. • Pharmaceuticals • Marine applications • Architectural applications • Medical implants, including pins, screws and orthopaedic implants like total hip and knee replacements |
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Qualitative Materials:
We utilize top-grade raw materials to ensure unparalleled product strength, resilience, and longevity.
Advanced Technology:
Our manufacturing processes feature cutting-edge technology, including advanced smelting, continuous casting, and rolling techniques.
Customized Service:
We offer tailored design and manufacturing solutions to meet each customer's unique needs and requirements.
FAQ
Q1: Why choose your company?
A: With over 16 years of industry expertise and our own factory, we deliver exceptional services through our professional and dedicated sales team.
Q2: What are your terms of payment?
A: We require a 30% T/T upfront deposit, with the remaining 70% payable before delivery.
Q3: What are your delivery terms?
A: Our delivery terms include FOB, CFR, CIF, and EXW.
Q4: What is your delivery time?
A: Our standard lead time is 7 to 15 days after receiving the deposit.
Q5: Can you provide samples?
A: Yes, we offer complimentary samples if available in stock; however, the transportation fee is the buyer's responsibility.
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