스테인리스강, 오스테나이트계
316L Stainless Steel Bar & Tube Sheet
저탄소 크롬-니켈-몰리브덴 오스테나이트 스테인리스 스틸.
316L, the low carbon version of 316 stainless steel, is immune to grain boundary carbide precipitation (sensitisation). This makes it suited to use in heavy gauge (over about 6mm) welded components.
Stainless steel types 1.4401 and 1.4404 are also known as grades 316 and 316L respectively. Grade 316 is an austenitic grade second only to 304 in commercial importance. 316 stainless steel contains an addition of molybdenum that gives it improved corrosion resistance. This is particularly apparent for pitting and crevice corrosion in chloride environments.The austenitic structure of 316 stainless steel gives excellent toughness, even at cryogenic temperatures.
Property data given in this document is typical for bar and section products covered by EN standards. ASTM, EN or other standards may cover all products sold. It is reasonable to expect specifications in these standards to be similar but not necessarily identical to those given in this datasheet.
Quarto Plate is hot rolled plate over 12mm thick that has not been coiled during production. CPP is continuously produced plate up to 12mm thick that has been coiled during rolling. Sheet is cold rolled.
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범위
316L Bar & Tube
| Product Form | 제국 치수 | 미터법 규격 |
| 라운드 바 내경 H9 | 1⁄8" - 1" | 3mm - 25mm |
| 라운드 바 매끄러운 터닝 H9/H10 | 7⁄8" - 3" | 25mm - 75mm |
| Round Bar Peeeled K12/K16 | 3" - 16" | 80mm - 340mm |
| Hexagon Bar | 0.25" - 2.75" | - |
| Flat Bar - Hot Rolled | - | 20mm x 10mm - 100mm x 25mm |
| Flat Bar - Rolled Edge | - | 12mm x 3mm - 100mm x 12mm |
| Square Bar | - | 12mm x 12mm - 50mm x 50mm |
| Angle | - | 20 x 20 x 3mm - 100 x 100 x 10mm |
| Welded Ornamental Tube Mirror Polished 600 Grit | 1⁄2" - 4" | 30mm - 50mm |
| Welded Tube Satin polished 320 Grit | 1⁄2" - 2" | 16mm - 50mm |
| Hygienic Tube - Welded, annealed, polished BA, descaled | 3⁄4" - 4" (16swg) | - |
| Hygienic Tube - Welded, polished, descaled | 1" - 3" (1.5mm wall) | - |
316L Sheet
Polished sheet sizes are for mirror and super mirror finishes. Polished Sheet options available: 240 Silicon, 240 Grit and various coating including Fiber Optic Laser for one or two sides.
| Product Form | Sheet Sizes | 두께 |
| Polished Sheet | 2000 x 1000 | 0.7mm - 3.0mm |
| Polished Sheet | 2500 x 1250 | 0.7mm - 6.0mm |
| Polished Sheet | 3000 x 1500 | 1.0mm - 6.0mm |
| Polished Sheet (Circle) | 2500 x 1250 | 0.7mm - 1.5mm |
| Sheet Cold Rolled | 2500 x 1250 | 4.0mm - 6.0mm |
| Sheet Cold Rolled | 3000 x 1500 | 4.0mm - 6.0mm |
| Sheet Cold Rolled | 4000 x 2000 | 2.0mm - 6.0mm |
| CPP Plate ID Finish | 2000 x 1000 | 3.0mm - 6.0mm |
| CPP Plate ID Finish | 2500 x 1250 | 3.0mm - 12.0mm |
| CPP Plate ID Finish | 3000 x 1500 | 3.0mm - 12.0mm |
| CPP Plate ID Finish | 4000 x 1500 | 10.0mm - 12.0mm |
| CPP Plate ID Finish | 4000 x 2000 | 2.0mm - 12.0mm |
| Quarto Plate ID Finish | - | 5" - 125" |
참고 사항
원하는 내용이 표시되지 않으면 다음 연락처로 문의하세요. 지역 서비스 센터 특정 요구 사항에 따라.
316L Stainless Steel Related Specifications
| 시스템 / 표준 | 국가 / 지역 | 직급 |
| AISI | 미국 | 316L |
| UNS | 국제 | S31603 |
| EN / W.Nr. | 유럽 | 1.4404 |
| 영어 이름 | 유럽 | X2CrNiMo17-12-2 |
| ASTM A240 | 미국 | 316L (plate, sheet, strip) |
| ASTM A276 | 미국 | 316L (bars, shapes) |
| ASTM A213 | 미국 | TP316L (boiler / HX tubes) |
| ASTM A312 | 미국 | TP316L (seamless pipe) |
| 기가바이트 | 중국 | 022Cr17Ni12Mo2 |
| JIS | 일본 | SUS316L |
| BS | 영국 | 316S13 |
| AFNOR | 프랑스 | Z2CND17-12 |
속성
화학 성분
361L Stainless Steel Steel
EN 10088-2
| 화학 원소 | % 현재 |
| 탄소(C) | 0.00 - 0.03 |
| 크롬(Cr) | 16.50 - 18.50 |
| 몰리브덴(Mo) | 2.00 - 2.50 |
| 규소 | 0.00 - 1.00 |
| 인 (P) | 0.00 - 0.05 |
| 황(S) | 0.00 - 0.02 |
| 니켈(Ni) | 10.00 - 13.00 |
| 망간(Mn) | 0.00 - 2.00 |
| 질소(N) | 0.00 - 0.11 |
| 철 (Fe) | 균형 |
기계적 특성
Bar & Section Up to 160mm Dia/Thickness
EN 10088-3
| 기계적 성질 | 가치 |
| 항복 강도 | 200 Min MPa |
| 인장 강도 | 500 to 700 MPa |
| 신율 A50 mm | 40분 % |
| 경도 브리넬 | 215 Max HB |
Sheet Up to 8mm Thick
EN 10088-2
| 기계적 성질 | 가치 |
| 항복 강도 | 240 Min MPa |
| 인장 강도 | 530 to 680 MPa |
| 신율 A50 mm | 40분 % |
Plate From 8mm to 75mm Thick
EN 10088-2
| 기계적 성질 | 가치 |
| 항복 강도 | 220 Min MPa |
| 인장 강도 | 520 to 670 MPa |
| 신율 A50 mm | 45 Min % |
일반 물리적 성질
| 물리적 특성 | 가치 |
| 밀도 | 8.0 g/cm³ |
| 녹는점 | 1400 °C |
| 열팽창 | 15.9 x 10-6/K |
| 탄성 계수 | 193 GPa |
| 열 전도율 | 16.3 W/m.K |
| 전기 비저항 | 0.74 x 10-6 Ω .m |
Applications of 316L Stainless Steel
316L stainless steel is a low-carbon molybdenum-bearing austenitic stainless steel known for its excellent corrosion resistance, 특히 chloride-rich environments. Its superior corrosion resistance and good mechanical properties make it ideal for demanding industrial and chemical applications.
1. Chemical and Petrochemical Industry
Reactors, tanks, and piping handling corrosive chemicals
Heat exchangers and valves exposed to aggressive environments
Process equipment in acids, chlorides, and alkalis
2. Food and Pharmaceutical Industry
Food processing and handling equipment
Dairy and brewing equipment
Pharmaceutical and medical processing vessels
Hygienic piping systems and fittings
3. Marine and Coastal Applications
Boat and ship components exposed to seawater
Marine fasteners, valves, and pumps
Coastal architectural features and handrails
4. Architectural and Construction Applications
Exterior cladding and panels in corrosive or polluted environments
Structural components requiring durability and corrosion resistance
Roofing, wall panels, and decorative trim
5. Medical and Surgical Applications
Surgical instruments and implants
Sterile processing equipment
Equipment in environments requiring corrosion resistance and hygiene
6. Other Industrial Applications
Springs, fasteners, and precision components
Chemical storage tanks and piping systems
Equipment for desalination and wastewater treatment
요약
316L stainless steel is widely used in applications where corrosion resistance, weldability, and hygienic performance are critical. Its low carbon content and molybdenum addition make it suitable for chemical, food, pharmaceutical, marine, and architectural applications, 특히 chloride-rich or corrosive environments.
Characteristics of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel 제공하는 excellent corrosion resistance, high strength, and good formability, making it suitable for demanding industrial and chemical environments.
내식성
탁월한 내성 general corrosion, especially in chloride-rich environments such as seawater or de-icing salts.
Low carbon content prevents 감작 그리고 입계 부식 in welded areas.
저항력이 있는 oxidation and pitting in aggressive chemical environments.
2. Mechanical Properties
좋아요 tensile strength and toughness, even at elevated or sub-zero temperatures.
Work-hardens moderately during cold forming, allowing enhanced strength when required.
Maintains good mechanical properties in welded and cold-worked conditions.
3. Fabrication and Formability
우수 cold and hot formability for a wide range of components.
Can be easily rolled, bent, drawn, and stamped.
Low carbon content ensures corrosion resistance is maintained after forming and welding.
4. 용접성
Excellent weldability with common methods such as TIG (GTAW), MIG (GMAW), and resistance welding.
Post-weld annealing is usually unnecessary due to low carbon content, preventing chromium carbide precipitation.
5. Heat Resistance
연속 서비스에 적합 moderate high temperatures (~870°C / 1600°F).
Maintains corrosion resistance and mechanical properties under intermittent high-temperature exposure.
6. 특징을 활용하는 애플리케이션
화학 및 석유화학 장비
Food and pharmaceutical processing
Marine and coastal environments
Architectural structures and exterior cladding
Medical instruments and surgical devices
요약
316L stainless steel is distinguished by superior corrosion resistance, low carbon content, excellent weldability, and good mechanical performance. These characteristics make it ideal for applications in chloride-rich, chemical, marine, and hygienic environments, where durability, hygiene, and strength are critical.
추가 정보
용접성
Weldability of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel known for its 우수한 용접성. Its low carbon content minimizes 크로뮴 탄화물 침전, preventing intergranular corrosion in welded areas and making it ideal for critical applications.
1. 호환 가능한 용접 공정
TIG (GTAW): Ideal for thin sections and precise welds
MIG (GMAW): Efficient for thicker sections and industrial production
Shielded Metal Arc Welding (SMAW): Suitable for field applications
저항 용접 Spot and seam welding for sheet and thin components
2. Low Carbon Benefits
Low carbon content (<0.03%) reduces the risk of 감작 in the heat-affected zone (HAZ).
유지 내식성 in welded and post-welded components without the need for post-weld solution annealing.
3. 충진재 추천
Use matching fillers such as ER316L to maintain corrosion resistance and mechanical properties.
Low-carbon fillers are preferred for critical applications or thick sections.
4. 열 입력과 변형
오스테나이트계 스테인리스강은 열팽창률이 높음, which may cause distortion.
Moderate heat input, careful sequencing, and proper fixturing minimize warping.
Intermittent tack welding can help maintain dimensional stability.
5. 용접 후 처리
Post-weld solution annealing is typically unnecessary due to the low carbon content.
응력 제거 풀림은 고온 서비스나 치수 안정성이 중요한 경우에 적용될 수 있습니다.
6. Applications Leveraging Weldability
Chemical and pharmaceutical process equipment
Pressure vessels, tanks, and piping systems
해양 및 해안 장비
Architectural cladding and structural assemblies
Medical and surgical equipment
요약
316L stainless steel offers 우수한 용접성 thanks to its low carbon content and molybdenum alloying. It allows for strong, corrosion-resistant welded joints with minimal post-weld treatment, making it ideal for industrial, marine, chemical, and hygienic applications.
제작
Fabrication of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel widely used in industries requiring corrosion resistance, strength, and formability. It can be fabricated using conventional metalworking processes with proper care to preserve its corrosion-resistant properties.
1. 형성
냉간 성형
Excellent for bending, rolling, deep drawing, and stamping
Work hardens moderately; intermediate annealing may be needed for extensive forming
열간 성형:
Can be performed at 1010–1175°C (1850–2150°F) for thick or complex parts
Produces uniform mechanical properties and reduces work hardening
2. 절단 및 전단
Can be cut with saws, shears, laser, or waterjet
Sharp tools and proper feeds minimize work hardening and achieve clean edges
3. 기계 가공
Moderately difficult to machine due to toughness and work hardening
초경 공구 preferred for high-speed cutting
Use of coolants or cutting fluids helps control heat and tool wear
4. 용접
Excellent weldability with TIG, MIG, SMAW, or resistance welding
ER316L filler recommended for maintaining corrosion resistance and mechanical properties
Post-weld annealing is generally 필수 아님, thanks to low carbon content
5. 냉간 가공
Increases strength through 가공 경화
광범위한 냉간 가공에는 용해 어닐링 to restore ductility for further processing
6. 표면 마무리
Available in various finishes such as 2B (밀 마감), BA (밝게 열처리), 및 광택 표면
Cold working may require additional finishing for aesthetic or corrosion resistance purposes
7. 제작 기술을 활용한 애플리케이션
Chemical, petrochemical, and food processing equipment
Pressure vessels, piping systems, and storage tanks
Marine and coastal structural components
Medical instruments and surgical equipment
Architectural panels and cladding
요약
316L stainless steel is 매우 다재다능하고 제작하기 쉬움, offering excellent cold and hot formability, welding, and machining properties. Its low carbon content and molybdenum addition ensure that corrosion resistance is maintained throughout fabrication, making it ideal for industrial, marine, chemical, and hygienic applications.
열간 가공
Hot Working of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel 함께 우수한 열간 가공성, allowing it to be formed, rolled, or forged at elevated temperatures. Hot working reduces work hardening, improves ductility, and ensures uniform mechanical properties.
1. 권장 열간 성형 온도
일반적인 범위: 1010–1175°C (1850–2150°F)
이 범위를 초과하면 입자 성장, 강인함 감소.
이 범위 아래에서 작업하면 유동 응력이 증가하여 균열 위험이 높아집니다.
2. 적합한 열간 가공 공정
열간 압연 For sheets, plates, strips, and structural components
열간 단조: For high-strength or complex-shaped parts
핫 익스트루전 For rods, tubes, and profiles
열간 성형 For thick or large components that are difficult to cold-work
3. 열간 가공의 장점
줄입니다 가공 경화 냉간 가공에 비해
향상시키다 연성 및 인성
생산하다 균일한 결정립 구조 그리고 기계적 물성
Enables fabrication of large, thick, or complex components
4. 열간 가공 후 처리
Annealing may be applied to relieve residual stresses and restore ductility.
산 절임 또는 부동 태화 enhances surface corrosion resistance after hot working.
5. 열간 가공 활용 응용
산업 기계 부품
화학 및 석유화학 용기 및 배관
Marine and coastal structural parts
Large sheets, plates, or complex forms requiring elevated-temperature shaping
요약
316L stainless steel demonstrates 우수한 열간 가공성, making it suitable for rolling, forging, extrusion, and forming at 1010–1175°C. 열간 가공은 연성을 향상시키고, 가공 경화를 감소시키며, 균일한 기계적 특성을 보장하는 동시에 내식성을 유지하여 이상적인 가공법입니다. industrial, chemical, marine, and structural applications.
내열성
Heat Resistance of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel 함께 good high-temperature properties, suitable for moderate elevated-temperature service. Its low carbon content helps maintain corrosion resistance and structural integrity during prolonged heat exposure.
1. 연속 사용 온도
Suitable for continuous service in oxidizing atmospheres up to ~870°C (1600°F).
Prolonged exposure above this temperature can cause scaling and slight reduction in mechanical properties.
2. 간헐적 노출
견딜 수 있다 간헐적으로 ~925°C(1700°F)까지 가열 without significant surface degradation.
Suitable for components exposed to occasional thermal cycles.
3. 산화 저항
형성한다 보호 산화 크로뮴 층 산화성 분위기에서.
Maintains corrosion resistance under moderate high-temperature conditions.
Not recommended for strongly oxidizing or sulfidizing environments at very high temperatures.
4. 기계적 특성에 미치는 열 효과
Retains good 인장 강도와 연성 at moderate temperatures.
Cold-worked material may lose some work-hardening effects after prolonged heat exposure.
Grain growth may occur if exposed to excessive heat without proper solution treatment.
5. 내열성 관련 응용
Heat exchangers, boiler components, and furnace parts
Tanks and piping in moderate high-temperature environments
Food, chemical, and pharmaceutical processing equipment
Welded assemblies operating under elevated temperatures
6. 기타 오스테나이트계 등급과의 비교
내열성은 약간 낮습니다 321 or 347 stainless steels for long-term high-temperature service.
316L is preferred where corrosion resistance, especially against chlorides, and weldability are more critical than extreme high-temperature strength.
요약
316L stainless steel provides good heat resistance, suitable for continuous service up to ~870°C and intermittent exposure up to ~925°C. Its low carbon content preserves corrosion resistance and minimizes sensitization, making it ideal for welded assemblies and moderately high-temperature industrial, chemical, and marine applications.
기계 가공성
Machinability of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel that is 기계로 가공하기 적당 due to its toughness, work-hardening tendency, and low thermal conductivity. Proper tooling, cutting parameters, and lubrication are essential to achieve efficient machining and high-quality surfaces.
1. 경화 거동
316L exhibits significant work hardening 부를 때.
단단한 표면은 절삭력을 증가시키고 공구 마모를 가속화합니다.
Smooth, continuous cutting helps reduce work-hardening effects.
2. 도구 추천
초경 공구 are preferred for high-speed and heavy-duty machining.
고속도강 (HSS) 공구 can be used at lower speeds for light or medium operations.
도구 양의 릴리프 각 절단력을 줄이고 표면 조도를 개선합니다.
3. 절삭 속도와 이송
Slower cutting speeds compared to carbon steel are recommended.
Moderate to heavy feeds maintain continuous chip flow and prevent local work-hardening.
경화 방지를 위해 공작물에 오래 머물거나 멈추지 마십시오.
4. 냉각 및 윤활
낮은 열전도율은 ~을 유발합니다 절삭 영역의 열 축적.
사용 절삭유 열을 줄이고, 공구 수명을 연장하며, 표면 조도를 개선하기 위해.
High-pressure lubrication can help evacuate chips efficiently.
5. 칩 형성
칩은 질기고 억센, which may complicate removal.
Use chip breakers or special inserts to manage chips effectively during machining.
6. 표면 마감
날카로운 도구, 적절한 이송 속도, 충분한 냉각으로 달성 가능합니다.
Work-hardening areas may require 마무리 패스 원하는 표면 품질을 달성하기 위해.
요약
316L stainless steel has 보통의 가공성, requiring careful selection of tools, speeds, feeds, and cooling methods to counteract work-hardening and heat buildup. When properly managed, high-quality surfaces and dimensional accuracy are achievable, making 316L suitable for chemical, food, pharmaceutical, marine, and industrial applications.
내식성
Corrosion Resistance of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel renowned for its excellent corrosion resistance in a wide range of aggressive environments. Its low carbon content helps prevent 크로뮴 탄화물 침전, maintaining corrosion resistance in welded and heat-affected areas.
1. 일반 부식 저항
Highly resistant to oxidation and general corrosion in atmospheric, industrial, and mildly corrosive environments.
적합 대상 food, chemical, and pharmaceutical applications where hygiene and durability are important.
2. Chloride and Pitting Resistance
Superior resistance to chloride-induced pitting and crevice corrosion compared to 304 and 304L stainless steels.
에 이상적 marine environments, coastal structures, and chemical processing.
Less resistant than higher molybdenum grades like 317L, but sufficient for most industrial and marine applications.
3. Resistance to Intergranular Corrosion
Low carbon content (<0.03%) prevents 크로뮴 탄화물 침전 during welding.
Minimizes 감작 and maintains corrosion resistance in welded or heat-affected zones.
Eliminates the need for post-weld solution annealing in most applications.
4. 고온 부식
적합 대상 moderate high-temperature service (continuous up to ~870°C / 1600°F).
Maintains corrosion resistance in oxidizing atmospheres.
Not recommended for strongly oxidizing or sulfidizing environments at very high temperatures.
5. 내식성을 활용한 응용 사례
Chemical and petrochemical vessels, tanks, and piping
식품 및 제약 가공 장비
Marine and coastal equipment and structures
Architectural cladding exposed to harsh environmental conditions
Medical and surgical equipment
6. 기타 오스테나이트계 등급과의 비교
Better pitting and chloride resistance than 304/304L
Slightly less resistant than 317L or duplex grades in extremely aggressive chloride environments
Excellent choice for welded assemblies and harsh environmental exposure
요약
316L stainless steel offers outstanding corrosion resistance, 특히 chloride-rich, chemical, marine, and welded applications. 그것의 low carbon content and molybdenum addition ensure durability and reliability in harsh and hygienic environments, making it one of the most widely used austenitic stainless steels for industrial, marine, and food-processing applications.
열처리
Heat Treatment of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel that is 열처리로 경화되지 않은. 열처리는 주로 restore ductility, relieve residual stresses, and maintain corrosion resistance, 경도를 높이는 것보다.
용체화 열처리
목적:
Restore ductility after cold working
Relieve residual stresses from forming or welding
Dissolve any chromium carbides formed in improper heating
온도 범위: 1010–1120°C (1850–2050°F)
냉각: Rapid air or water quenching to maintain a fully austenitic structure
효과:
어닐링된 상태로 기계적 성질을 복원합니다
Preserves corrosion resistance due to low carbon content
2. 스트레스 해소
목적: 성형, 굽힘 또는 용접으로 인한 잔류 응력 완화
온도 범위: 450–650°C (840–1200°F)
효과: 기계적 특성을 크게 변경하지 않으면서 왜곡을 최소화하고 응력 부식 균열의 위험을 줄입니다
3. 냉간 가공 상태 고려 사항
Cold working increases strength but decreases ductility.
중간 담금질 may be applied to restore formability for further fabrication steps.
4. 용접 후 열처리
Generally not required for corrosion resistance due to low carbon content (<0.03%).
Stress relief annealing may be applied in high-temperature service or dimension-sensitive welded assemblies.
5. 한계
Heat treatment does not significantly increase hardness; 316L relies on cold working for strengthening.
Prolonged exposure to temperatures above ~500°C may reduce cold work strengthening effects slightly.
요약
Heat treatment of 316L stainless steel is primarily for stress relief, ductility restoration, and preservation of corrosion resistance. Solution annealing and controlled stress relief ensure optimal mechanical and chemical performance, making 316L ideal for welded, cold-worked, and moderately high-temperature applications.
냉간 가공
Cold Working of 316L Stainless Steel
316L stainless steel is a low-carbon, molybdenum-bearing austenitic stainless steel 함께 우수한 냉간 가공성. 냉간 가공은 증가시킨다 강도와 경도 우수한 내부식성과 연성을 유지하면서 가공 경화를 통해.
1. 경화 거동
316L work-hardens significantly 냉간 변형 중에.
강도와 경도는 증가하지만, 변형이 진행됨에 따라 연성은 감소합니다.
과도한 냉간 가공은 필요할 수 있습니다 중간 풀림 성형성을 복원하기 위해.
2. 일반적인 냉간 성형 공정
굴러가기 시트, 스트립 및 플레이트
드로잉 튜브, 봉, 와이어
굽힘 및 성형 구조 부재, 브래킷 및 클립
스탬핑 및 프레스 성형 산업 및 식품 가공 부품
3. 기계적 특성 제어
냉간 가공은 조절을 허용합니다 인장 강도, 항복 강도, 경도.
광범위한 냉간 가공에는 용해 어닐링 추가 가공을 위해 연성을 회복시키기.
4. 부식 저항에 대한 영향
Low carbon content (<0.03%) prevents 크로뮴 탄화물 침전, 냉간 가공 후 내부식성을 유지하는 것.
저항력이 있는 입계 부식 용접되거나 많이 가공된 부위.
5. 후성형 시 고려사항
용체화 열처리는 여러 차례의 냉간 가공 단계를 계획하고 있다면 응력을 완화하고 연성을 회복시킬 수 있습니다.
냉간 가공은 약간 유발할 수 있습니다 자석 경미한 마르텐사이트 변태로 인해, 일반적으로 무시할 수 있음.
6. 냉간 가공 활용 응용
스프링, 클립 및 패스너
더 높은 강도가 요구되는 구조 부재
화학 및 식품 가공 장비용 튜브, 로드 및 와이어
내식성과 강도가 요구되는 부품
요약
316L stainless steel exhibits 우수한 냉간 가공성, 작업 경화 효과로 강도를 높이면서도 내식성을 유지할 수 있습니다. 적절한 변형 관리와 중간 풀림 처리는 고품질의 내구성 있는 부품을 보장합니다. 산업, 화학, 식품 가공, 해양 및 구조용 응용.
